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TaiwanOCR_CertificateofDiagnosis / ppocr /data /imaug /make_shrink_map.py

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	# copyright (c) 2020 PaddlePaddle Authors. All Rights Reserve.
	#
	# Licensed under the Apache License, Version 2.0 (the "License");
	# you may not use this file except in compliance with the License.
	# You may obtain a copy of the License at
	#
	# http://www.apache.org/licenses/LICENSE-2.0
	#
	# Unless required by applicable law or agreed to in writing, software
	# distributed under the License is distributed on an "AS IS" BASIS,
	# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
	# See the License for the specific language governing permissions and
	# limitations under the License.
	"""
	This code is refer from:
	https://github.com/WenmuZhou/DBNet.pytorch/blob/master/data_loader/modules/make_shrink_map.py
	"""

	from __future__ import absolute_import
	from __future__ import division
	from __future__ import print_function
	from __future__ import unicode_literals

	import numpy as np
	import cv2
	from shapely.geometry import Polygon
	import pyclipper

	__all__ = ['MakeShrinkMap']


	class MakeShrinkMap(object):
	r'''
	Making binary mask from detection data with ICDAR format.
	Typically following the process of class `MakeICDARData`.
	'''

	def __init__(self, min_text_size=8, shrink_ratio=0.4, **kwargs):
	self.min_text_size = min_text_size
	self.shrink_ratio = shrink_ratio

	def __call__(self, data):
	image = data['image']
	text_polys = data['polys']
	ignore_tags = data['ignore_tags']

	h, w = image.shape[:2]
	text_polys, ignore_tags = self.validate_polygons(text_polys,
	ignore_tags, h, w)
	gt = np.zeros((h, w), dtype=np.float32)
	mask = np.ones((h, w), dtype=np.float32)
	for i in range(len(text_polys)):
	polygon = text_polys[i]
	height = max(polygon[:, 1]) - min(polygon[:, 1])
	width = max(polygon[:, 0]) - min(polygon[:, 0])
	if ignore_tags[i] or min(height, width) < self.min_text_size:
	cv2.fillPoly(mask,
	polygon.astype(np.int32)[np.newaxis, :, :], 0)
	ignore_tags[i] = True
	else:
	polygon_shape = Polygon(polygon)
	subject = [tuple(l) for l in polygon]
	padding = pyclipper.PyclipperOffset()
	padding.AddPath(subject, pyclipper.JT_ROUND,
	pyclipper.ET_CLOSEDPOLYGON)
	shrinked = []

	# Increase the shrink ratio every time we get multiple polygon returned back
	possible_ratios = np.arange(self.shrink_ratio, 1,
	self.shrink_ratio)
	np.append(possible_ratios, 1)
	# print(possible_ratios)
	for ratio in possible_ratios:
	# print(f"Change shrink ratio to {ratio}")
	distance = polygon_shape.area * (
	1 - np.power(ratio, 2)) / polygon_shape.length
	shrinked = padding.Execute(-distance)
	if len(shrinked) == 1:
	break

	if shrinked == []:
	cv2.fillPoly(mask,
	polygon.astype(np.int32)[np.newaxis, :, :], 0)
	ignore_tags[i] = True
	continue

	for each_shirnk in shrinked:
	shirnk = np.array(each_shirnk).reshape(-1, 2)
	cv2.fillPoly(gt, [shirnk.astype(np.int32)], 1)

	data['shrink_map'] = gt
	data['shrink_mask'] = mask
	return data

	def validate_polygons(self, polygons, ignore_tags, h, w):
	'''
	polygons (numpy.array, required): of shape (num_instances, num_points, 2)
	'''
	if len(polygons) == 0:
	return polygons, ignore_tags
	assert len(polygons) == len(ignore_tags)
	for polygon in polygons:
	polygon[:, 0] = np.clip(polygon[:, 0], 0, w - 1)
	polygon[:, 1] = np.clip(polygon[:, 1], 0, h - 1)

	for i in range(len(polygons)):
	area = self.polygon_area(polygons[i])
	if abs(area) < 1:
	ignore_tags[i] = True
	if area > 0:
	polygons[i] = polygons[i][::-1, :]
	return polygons, ignore_tags

	def polygon_area(self, polygon):
	"""
	compute polygon area
	"""
	area = 0
	q = polygon[-1]
	for p in polygon:
	area += p[0] * q[1] - p[1] * q[0]
	q = p
	return area / 2.0