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sbb_pixelwise_segmentation/pagexml2label.py

1666 lines
94 KiB
Python

import click
import sys
import os
import numpy as np
import warnings
import xml.etree.ElementTree as ET
from tqdm import tqdm
import cv2
from shapely import geometry
import json
with warnings.catch_warnings():
warnings.simplefilter("ignore")
__doc__=\
"""
tool to extract 2d or 3d RGB images from page xml data. In former case output will be 1
2D image array which each class has filled with a pixel value. In the case of 3D RGB image
each class will be defined with a RGB value and beside images a text file of classes also will be produced.
This classes.txt file is required for dhsegment tool.
"""
KERNEL = np.ones((5, 5), np.uint8)
class pagexml2word:
def __init__(self,dir_in, out_dir,output_type,experiment,layout_config):
self.dir=dir_in
self.output_dir=out_dir
self.output_type=output_type
self.experiment=experiment
self.layout_config=layout_config
def get_content_of_dir(self):
"""
Listing all ground truth page xml files. All files are needed to have xml format.
"""
gt_all=os.listdir(self.dir)
self.gt_list=[file for file in gt_all if file.split('.')[ len(file.split('.'))-1 ]=='xml' ]
def return_parent_contours(self,contours, hierarchy):
contours_parent = [contours[i] for i in range(len(contours)) if hierarchy[0][i][3] == -1]
return contours_parent
def filter_contours_area_of_image_tables(self,image, contours, hierarchy, max_area, min_area):
found_polygons_early = list()
jv = 0
for c in contours:
if len(c) < 3: # A polygon cannot have less than 3 points
continue
polygon = geometry.Polygon([point[0] for point in c])
# area = cv2.contourArea(c)
area = polygon.area
##print(np.prod(thresh.shape[:2]))
# Check that polygon has area greater than minimal area
# print(hierarchy[0][jv][3],hierarchy )
if area >= min_area * np.prod(image.shape[:2]) and area <= max_area * np.prod(image.shape[:2]): # and hierarchy[0][jv][3]==-1 :
# print(c[0][0][1])
found_polygons_early.append(np.array([[point] for point in polygon.exterior.coords], dtype=np.int32))
jv += 1
return found_polygons_early
def return_contours_of_interested_region(self,region_pre_p, pixel, min_area=0.0002):
# pixels of images are identified by 5
if len(region_pre_p.shape) == 3:
cnts_images = (region_pre_p[:, :, 0] == pixel) * 1
else:
cnts_images = (region_pre_p[:, :] == pixel) * 1
cnts_images = cnts_images.astype(np.uint8)
cnts_images = np.repeat(cnts_images[:, :, np.newaxis], 3, axis=2)
imgray = cv2.cvtColor(cnts_images, cv2.COLOR_BGR2GRAY)
ret, thresh = cv2.threshold(imgray, 0, 255, 0)
contours_imgs, hierarchy = cv2.findContours(thresh, cv2.RETR_TREE, cv2.CHAIN_APPROX_SIMPLE)
contours_imgs = self.return_parent_contours(contours_imgs, hierarchy)
contours_imgs = self.filter_contours_area_of_image_tables(thresh, contours_imgs, hierarchy, max_area=1, min_area=min_area)
return contours_imgs
def update_region_contours(self, co_text, img_boundary, erosion_rate, dilation_rate, y_len, x_len):
co_text_eroded = []
for con in co_text:
#try:
img_boundary_in = np.zeros( (y_len,x_len) )
img_boundary_in = cv2.fillPoly(img_boundary_in, pts=[con], color=(1, 1, 1))
#print('bidiahhhhaaa')
#img_boundary_in = cv2.erode(img_boundary_in[:,:], KERNEL, iterations=7)#asiatica
if erosion_rate > 0:
img_boundary_in = cv2.erode(img_boundary_in[:,:], KERNEL, iterations=erosion_rate)
pixel = 1
min_size = 0
con_eroded = self.return_contours_of_interested_region(img_boundary_in,pixel, min_size )
try:
co_text_eroded.append(con_eroded[0])
except:
co_text_eroded.append(con)
img_boundary_in_dilated = cv2.dilate(img_boundary_in[:,:], KERNEL, iterations=dilation_rate)
#img_boundary_in_dilated = cv2.dilate(img_boundary_in[:,:], KERNEL, iterations=5)
boundary = img_boundary_in_dilated[:,:] - img_boundary_in[:,:]
img_boundary[:,:][boundary[:,:]==1] =1
return co_text_eroded, img_boundary
def get_images_of_ground_truth(self, config_params):
"""
Reading the page xml files and write the ground truth images into given output directory.
"""
## to do: add footnote to text regions
for index in tqdm(range(len(self.gt_list))):
#try:
tree1 = ET.parse(self.dir+'/'+self.gt_list[index])
root1=tree1.getroot()
alltags=[elem.tag for elem in root1.iter()]
link=alltags[0].split('}')[0]+'}'
for jj in root1.iter(link+'Page'):
y_len=int(jj.attrib['imageHeight'])
x_len=int(jj.attrib['imageWidth'])
if self.layout_config:
keys = list(config_params.keys())
if "artificial_class_on_boundry" in keys:
elements_with_artificial_class = list(config_params['artificial_class_on_boundry'])
artificial_class_rgb_color = (255,255,0)
artificial_class_label = config_params['artificial_class_label']
#values = config_params.values()
if 'textregions' in keys:
types_text_dict = config_params['textregions']
types_text = list(types_text_dict.keys())
types_text_label = list(types_text_dict.values())
if 'graphicregions' in keys:
types_graphic_dict = config_params['graphicregions']
types_graphic = list(types_graphic_dict.keys())
types_graphic_label = list(types_graphic_dict.values())
labels_rgb_color = [ (0,0,0), (255,0,0), (255,125,0), (255,0,125), (125,255,125), (125,125,0), (0,125,255), (0,125,0), (125,125,125), (255,0,255), (125,0,125), (0,255,0),(0,0,255), (0,255,255), (255,125,125), (0,125,125), (0,255,125), (255,125,255), (125,255,0)]
region_tags=np.unique([x for x in alltags if x.endswith('Region')])
co_text_paragraph=[]
co_text_footnote=[]
co_text_footnote_con=[]
co_text_drop=[]
co_text_heading=[]
co_text_header=[]
co_text_marginalia=[]
co_text_catch=[]
co_text_page_number=[]
co_text_signature_mark=[]
co_sep=[]
co_img=[]
co_table=[]
co_graphic_signature=[]
co_graphic_text_annotation=[]
co_graphic_decoration=[]
co_graphic_stamp=[]
co_noise=[]
for tag in region_tags:
if 'textregions' in keys:
if tag.endswith('}TextRegion') or tag.endswith('}Textregion'):
for nn in root1.iter(tag):
c_t_in_drop=[]
c_t_in_paragraph=[]
c_t_in_heading=[]
c_t_in_header=[]
c_t_in_page_number=[]
c_t_in_signature_mark=[]
c_t_in_catch=[]
c_t_in_marginalia=[]
c_t_in_footnote=[]
c_t_in_footnote_con=[]
sumi=0
for vv in nn.iter():
# check the format of coords
if vv.tag==link+'Coords':
coords=bool(vv.attrib)
if coords:
#print('birda1')
p_h=vv.attrib['points'].split(' ')
if "drop-capital" in types_text:
if "type" in nn.attrib and nn.attrib['type']=='drop-capital':
c_t_in_drop.append( np.array( [ [ int(x.split(',')[0]) , int(x.split(',')[1]) ] for x in p_h] ) )
if "footnote" in types_text:
if "type" in nn.attrib and nn.attrib['type']=='footnote':
c_t_in_footnote.append( np.array( [ [ int(x.split(',')[0]) , int(x.split(',')[1]) ] for x in p_h] ) )
if "footnote-continued" in types_text:
if "type" in nn.attrib and nn.attrib['type']=='footnote-continued':
c_t_in_footnote_con.append( np.array( [ [ int(x.split(',')[0]) , int(x.split(',')[1]) ] for x in p_h] ) )
if "heading" in types_text:
if "type" in nn.attrib and nn.attrib['type']=='heading':
c_t_in_heading.append( np.array( [ [ int(x.split(',')[0]) , int(x.split(',')[1]) ] for x in p_h] ) )
if "signature-mark" in types_text:
if "type" in nn.attrib and nn.attrib['type']=='signature-mark':
c_t_in_signature_mark.append( np.array( [ [ int(x.split(',')[0]) , int(x.split(',')[1]) ] for x in p_h] ) )
if "header" in types_text:
if "type" in nn.attrib and nn.attrib['type']=='header':
c_t_in_header.append( np.array( [ [ int(x.split(',')[0]) , int(x.split(',')[1]) ] for x in p_h] ) )
if "catch-word" in types_text:
if "type" in nn.attrib and nn.attrib['type']=='catch-word':
c_t_in_catch.append( np.array( [ [ int(x.split(',')[0]) , int(x.split(',')[1]) ] for x in p_h] ) )
if "page-number" in types_text:
if "type" in nn.attrib and nn.attrib['type']=='page-number':
c_t_in_page_number.append( np.array( [ [ int(x.split(',')[0]) , int(x.split(',')[1]) ] for x in p_h] ) )
if "marginalia" in types_text:
if "type" in nn.attrib and nn.attrib['type']=='marginalia':
c_t_in_marginalia.append( np.array( [ [ int(x.split(',')[0]) , int(x.split(',')[1]) ] for x in p_h] ) )
if "paragraph" in types_text:
if "type" in nn.attrib and nn.attrib['type']=='paragraph':
c_t_in_paragraph.append( np.array( [ [ int(x.split(',')[0]) , int(x.split(',')[1]) ] for x in p_h] ) )
break
else:
pass
if vv.tag==link+'Point':
if "drop-capital" in types_text:
if "type" in nn.attrib and nn.attrib['type']=='drop-capital':
c_t_in_drop.append([ int(np.float(vv.attrib['x'])) , int(np.float(vv.attrib['y'])) ])
sumi+=1
if "footnote" in types_text:
if "type" in nn.attrib and nn.attrib['type']=='footnote':
c_t_in_footnote.append([ int(np.float(vv.attrib['x'])) , int(np.float(vv.attrib['y'])) ])
sumi+=1
if "footnote-continued" in types_text:
if "type" in nn.attrib and nn.attrib['type']=='footnote-continued':
c_t_in_footnote_con.append([ int(np.float(vv.attrib['x'])) , int(np.float(vv.attrib['y'])) ])
sumi+=1
if "heading" in types_text:
if "type" in nn.attrib and nn.attrib['type']=='heading':
c_t_in_heading.append([ int(np.float(vv.attrib['x'])) , int(np.float(vv.attrib['y'])) ])
sumi+=1
if "signature-mark" in types_text:
if "type" in nn.attrib and nn.attrib['type']=='signature-mark':
c_t_in_signature_mark.append([ int(np.float(vv.attrib['x'])) , int(np.float(vv.attrib['y'])) ])
sumi+=1
if "header" in types_text:
if "type" in nn.attrib and nn.attrib['type']=='header':
c_t_in_header.append([ int(np.float(vv.attrib['x'])) , int(np.float(vv.attrib['y'])) ])
sumi+=1
if "catch-word" in types_text:
if "type" in nn.attrib and nn.attrib['type']=='catch-word':
c_t_in_catch.append([ int(np.float(vv.attrib['x'])) , int(np.float(vv.attrib['y'])) ])
sumi+=1
if "page-number" in types_text:
if "type" in nn.attrib and nn.attrib['type']=='page-number':
c_t_in_page_number.append([ int(np.float(vv.attrib['x'])) , int(np.float(vv.attrib['y'])) ])
sumi+=1
if "marginalia" in types_text:
if "type" in nn.attrib and nn.attrib['type']=='marginalia':
c_t_in_marginalia.append([ int(np.float(vv.attrib['x'])) , int(np.float(vv.attrib['y'])) ])
sumi+=1
if "paragraph" in types_text:
if "type" in nn.attrib and nn.attrib['type']=='paragraph':
c_t_in_paragraph.append([ int(np.float(vv.attrib['x'])) , int(np.float(vv.attrib['y'])) ])
sumi+=1
elif vv.tag!=link+'Point' and sumi>=1:
break
if len(c_t_in_drop)>0:
co_text_drop.append(np.array(c_t_in_drop))
if len(c_t_in_footnote_con)>0:
co_text_footnote_con.append(np.array(c_t_in_footnote_con))
if len(c_t_in_footnote)>0:
co_text_footnote.append(np.array(c_t_in_footnote))
if len(c_t_in_paragraph)>0:
co_text_paragraph.append(np.array(c_t_in_paragraph))
if len(c_t_in_heading)>0:
co_text_heading.append(np.array(c_t_in_heading))
if len(c_t_in_header)>0:
co_text_header.append(np.array(c_t_in_header))
if len(c_t_in_page_number)>0:
co_text_page_number.append(np.array(c_t_in_page_number))
if len(c_t_in_catch)>0:
co_text_catch.append(np.array(c_t_in_catch))
if len(c_t_in_signature_mark)>0:
co_text_signature_mark.append(np.array(c_t_in_signature_mark))
if len(c_t_in_marginalia)>0:
co_text_marginalia.append(np.array(c_t_in_marginalia))
if 'graphicregions' in keys:
if tag.endswith('}GraphicRegion') or tag.endswith('}graphicregion'):
#print('sth')
for nn in root1.iter(tag):
c_t_in_stamp=[]
c_t_in_text_annotation=[]
c_t_in_decoration=[]
c_t_in_signature=[]
sumi=0
for vv in nn.iter():
# check the format of coords
if vv.tag==link+'Coords':
coords=bool(vv.attrib)
if coords:
p_h=vv.attrib['points'].split(' ')
if "handwritten-annotation" in types_graphic:
if "type" in nn.attrib and nn.attrib['type']=='handwritten-annotation':
c_t_in_text_annotation.append( np.array( [ [ int(x.split(',')[0]) , int(x.split(',')[1]) ] for x in p_h] ) )
if "decoration" in types_graphic:
if "type" in nn.attrib and nn.attrib['type']=='decoration':
c_t_in_decoration.append( np.array( [ [ int(x.split(',')[0]) , int(x.split(',')[1]) ] for x in p_h] ) )
if "stamp" in types_graphic:
if "type" in nn.attrib and nn.attrib['type']=='stamp':
c_t_in_stamp.append( np.array( [ [ int(x.split(',')[0]) , int(x.split(',')[1]) ] for x in p_h] ) )
if "signature" in types_graphic:
if "type" in nn.attrib and nn.attrib['type']=='signature':
c_t_in_signature.append( np.array( [ [ int(x.split(',')[0]) , int(x.split(',')[1]) ] for x in p_h] ) )
break
else:
pass
if vv.tag==link+'Point':
if "handwritten-annotation" in types_graphic:
if "type" in nn.attrib and nn.attrib['type']=='handwritten-annotation':
c_t_in_text_annotation.append([ int(np.float(vv.attrib['x'])) , int(np.float(vv.attrib['y'])) ])
sumi+=1
if "decoration" in types_graphic:
if "type" in nn.attrib and nn.attrib['type']=='decoration':
c_t_in_decoration.append([ int(np.float(vv.attrib['x'])) , int(np.float(vv.attrib['y'])) ])
sumi+=1
if "stamp" in types_graphic:
if "type" in nn.attrib and nn.attrib['type']=='stamp':
c_t_in_stamp.append([ int(np.float(vv.attrib['x'])) , int(np.float(vv.attrib['y'])) ])
sumi+=1
if "signature" in types_graphic:
if "type" in nn.attrib and nn.attrib['type']=='signature':
c_t_in_signature.append([ int(np.float(vv.attrib['x'])) , int(np.float(vv.attrib['y'])) ])
sumi+=1
if len(c_t_in_text_annotation)>0:
co_graphic_text_annotation.append(np.array(c_t_in_text_annotation))
if len(c_t_in_decoration)>0:
co_graphic_decoration.append(np.array(c_t_in_decoration))
if len(c_t_in_stamp)>0:
co_graphic_stamp.append(np.array(c_t_in_stamp))
if len(c_t_in_signature)>0:
co_graphic_signature.append(np.array(c_t_in_signature))
if 'imageregion' in keys:
if tag.endswith('}ImageRegion') or tag.endswith('}imageregion'):
for nn in root1.iter(tag):
c_t_in=[]
sumi=0
for vv in nn.iter():
if vv.tag==link+'Coords':
coords=bool(vv.attrib)
if coords:
p_h=vv.attrib['points'].split(' ')
c_t_in.append( np.array( [ [ int(x.split(',')[0]) , int(x.split(',')[1]) ] for x in p_h] ) )
break
else:
pass
if vv.tag==link+'Point':
c_t_in.append([ int(np.float(vv.attrib['x'])) , int(np.float(vv.attrib['y'])) ])
sumi+=1
elif vv.tag!=link+'Point' and sumi>=1:
break
co_img.append(np.array(c_t_in))
if 'separatorregion' in keys:
if tag.endswith('}SeparatorRegion') or tag.endswith('}separatorregion'):
for nn in root1.iter(tag):
c_t_in=[]
sumi=0
for vv in nn.iter():
# check the format of coords
if vv.tag==link+'Coords':
coords=bool(vv.attrib)
if coords:
p_h=vv.attrib['points'].split(' ')
c_t_in.append( np.array( [ [ int(x.split(',')[0]) , int(x.split(',')[1]) ] for x in p_h] ) )
break
else:
pass
if vv.tag==link+'Point':
c_t_in.append([ int(np.float(vv.attrib['x'])) , int(np.float(vv.attrib['y'])) ])
sumi+=1
elif vv.tag!=link+'Point' and sumi>=1:
break
co_sep.append(np.array(c_t_in))
if 'tableregion' in keys:
if tag.endswith('}TableRegion') or tag.endswith('}tableregion'):
#print('sth')
for nn in root1.iter(tag):
c_t_in=[]
sumi=0
for vv in nn.iter():
# check the format of coords
if vv.tag==link+'Coords':
coords=bool(vv.attrib)
if coords:
p_h=vv.attrib['points'].split(' ')
c_t_in.append( np.array( [ [ int(x.split(',')[0]) , int(x.split(',')[1]) ] for x in p_h] ) )
break
else:
pass
if vv.tag==link+'Point':
c_t_in.append([ int(np.float(vv.attrib['x'])) , int(np.float(vv.attrib['y'])) ])
sumi+=1
#print(vv.tag,'in')
elif vv.tag!=link+'Point' and sumi>=1:
break
co_table.append(np.array(c_t_in))
if 'noiseregion' in keys:
if tag.endswith('}NoiseRegion') or tag.endswith('}noiseregion'):
#print('sth')
for nn in root1.iter(tag):
c_t_in=[]
sumi=0
for vv in nn.iter():
# check the format of coords
if vv.tag==link+'Coords':
coords=bool(vv.attrib)
if coords:
p_h=vv.attrib['points'].split(' ')
c_t_in.append( np.array( [ [ int(x.split(',')[0]) , int(x.split(',')[1]) ] for x in p_h] ) )
break
else:
pass
if vv.tag==link+'Point':
c_t_in.append([ int(np.float(vv.attrib['x'])) , int(np.float(vv.attrib['y'])) ])
sumi+=1
#print(vv.tag,'in')
elif vv.tag!=link+'Point' and sumi>=1:
break
co_noise.append(np.array(c_t_in))
if "artificial_class_on_boundry" in keys:
img_boundary = np.zeros( (y_len,x_len) )
if "paragraph" in elements_with_artificial_class:
erosion_rate = 2
dilation_rate = 4
co_text_paragraph, img_boundary = self.update_region_contours(co_text_paragraph, img_boundary, erosion_rate, dilation_rate, y_len, x_len )
if "drop-capital" in elements_with_artificial_class:
erosion_rate = 0
dilation_rate = 4
co_text_drop, img_boundary = self.update_region_contours(co_text_drop, img_boundary, erosion_rate, dilation_rate, y_len, x_len )
if "catch-word" in elements_with_artificial_class:
erosion_rate = 0
dilation_rate = 4
co_text_catch, img_boundary = self.update_region_contours(co_text_catch, img_boundary, erosion_rate, dilation_rate, y_len, x_len )
if "page-number" in elements_with_artificial_class:
erosion_rate = 0
dilation_rate = 4
co_text_page_number, img_boundary = self.update_region_contours(co_text_page_number, img_boundary, erosion_rate, dilation_rate, y_len, x_len )
if "header" in elements_with_artificial_class:
erosion_rate = 1
dilation_rate = 4
co_text_header, img_boundary = self.update_region_contours(co_text_header, img_boundary, erosion_rate, dilation_rate, y_len, x_len )
if "heading" in elements_with_artificial_class:
erosion_rate = 1
dilation_rate = 4
co_text_heading, img_boundary = self.update_region_contours(co_text_heading, img_boundary, erosion_rate, dilation_rate, y_len, x_len )
if "signature-mark" in elements_with_artificial_class:
erosion_rate = 1
dilation_rate = 4
co_text_signature_mark, img_boundary = self.update_region_contours(co_text_signature_mark, img_boundary, erosion_rate, dilation_rate, y_len, x_len )
if "marginalia" in elements_with_artificial_class:
erosion_rate = 2
dilation_rate = 4
co_text_marginalia, img_boundary = self.update_region_contours(co_text_marginalia, img_boundary, erosion_rate, dilation_rate, y_len, x_len )
if "footnote" in elements_with_artificial_class:
erosion_rate = 2
dilation_rate = 4
co_text_footnote, img_boundary = self.update_region_contours(co_text_footnote, img_boundary, erosion_rate, dilation_rate, y_len, x_len )
if "footnote-continued" in elements_with_artificial_class:
erosion_rate = 2
dilation_rate = 4
co_text_footnote_con, img_boundary = self.update_region_contours(co_text_footnote_con, img_boundary, erosion_rate, dilation_rate, y_len, x_len )
img = np.zeros( (y_len,x_len,3) )
if self.output_type == '3d':
if 'graphicregions' in keys:
if "handwritten-annotation" in types_graphic:
img_poly=cv2.fillPoly(img, pts =co_graphic_text_annotation, color=labels_rgb_color[ config_params['graphicregions']['handwritten-annotation']])
if "signature" in types_graphic:
img_poly=cv2.fillPoly(img, pts =co_graphic_signature, color=labels_rgb_color[ config_params['graphicregions']['signature']])
if "decoration" in types_graphic:
img_poly=cv2.fillPoly(img, pts =co_graphic_decoration, color=labels_rgb_color[ config_params['graphicregions']['decoration']])
if "stamp" in types_graphic:
img_poly=cv2.fillPoly(img, pts =co_graphic_stamp, color=labels_rgb_color[ config_params['graphicregions']['stamp']])
if 'imageregion' in keys:
img_poly=cv2.fillPoly(img, pts =co_img, color=labels_rgb_color[ config_params['imageregion']])
if 'separatorregion' in keys:
img_poly=cv2.fillPoly(img, pts =co_sep, color=labels_rgb_color[ config_params['separatorregion']])
if 'tableregion' in keys:
img_poly=cv2.fillPoly(img, pts =co_table, color=labels_rgb_color[ config_params['tableregion']])
if 'noiseregion' in keys:
img_poly=cv2.fillPoly(img, pts =co_noise, color=labels_rgb_color[ config_params['noiseregion']])
if 'textregions' in keys:
if "paragraph" in types_text:
img_poly=cv2.fillPoly(img, pts =co_text_paragraph, color=labels_rgb_color[ config_params['textregions']['paragraph']])
if "footnote" in types_text:
img_poly=cv2.fillPoly(img, pts =co_text_footnote, color=labels_rgb_color[ config_params['textregions']['footnote']])
if "footnote-continued" in types_text:
img_poly=cv2.fillPoly(img, pts =co_text_footnote_con, color=labels_rgb_color[ config_params['textregions']['footnote-continued']])
if "heading" in types_text:
img_poly=cv2.fillPoly(img, pts =co_text_heading, color=labels_rgb_color[ config_params['textregions']['heading']])
if "header" in types_text:
img_poly=cv2.fillPoly(img, pts =co_text_header, color=labels_rgb_color[ config_params['textregions']['header']])
if "catch-word" in types_text:
img_poly=cv2.fillPoly(img, pts =co_text_catch, color=labels_rgb_color[ config_params['textregions']['catch-word']])
if "signature-mark" in types_text:
img_poly=cv2.fillPoly(img, pts =co_text_signature_mark, color=labels_rgb_color[ config_params['textregions']['signature-mark']])
if "page-number" in types_text:
img_poly=cv2.fillPoly(img, pts =co_text_page_number, color=labels_rgb_color[ config_params['textregions']['page-number']])
if "marginalia" in types_text:
img_poly=cv2.fillPoly(img, pts =co_text_marginalia, color=labels_rgb_color[ config_params['textregions']['marginalia']])
if "drop-capital" in types_text:
img_poly=cv2.fillPoly(img, pts =co_text_drop, color=labels_rgb_color[ config_params['textregions']['drop-capital']])
if "artificial_class_on_boundry" in keys:
img_poly[:,:,0][img_boundary[:,:]==1] = artificial_class_rgb_color[0]
img_poly[:,:,1][img_boundary[:,:]==1] = artificial_class_rgb_color[1]
img_poly[:,:,2][img_boundary[:,:]==1] = artificial_class_rgb_color[2]
elif self.output_type == '2d':
if 'graphicregions' in keys:
if "handwritten-annotation" in types_graphic:
color_label = config_params['graphicregions']['handwritten-annotation']
img_poly=cv2.fillPoly(img, pts =co_graphic_text_annotation, color=(color_label,color_label,color_label))
if "signature" in types_graphic:
color_label = config_params['graphicregions']['signature']
img_poly=cv2.fillPoly(img, pts =co_graphic_signature, color=(color_label,color_label,color_label))
if "decoration" in types_graphic:
color_label = config_params['graphicregions']['decoration']
img_poly=cv2.fillPoly(img, pts =co_graphic_decoration, color=(color_label,color_label,color_label))
if "stamp" in types_graphic:
color_label = config_params['graphicregions']['stamp']
img_poly=cv2.fillPoly(img, pts =co_graphic_stamp, color=(color_label,color_label,color_label))
if 'imageregion' in keys:
color_label = config_params['imageregion']
img_poly=cv2.fillPoly(img, pts =co_img, color=(color_label,color_label,color_label))
if 'separatorregion' in keys:
color_label = config_params['separatorregion']
img_poly=cv2.fillPoly(img, pts =co_sep, color=(color_label,color_label,color_label))
if 'tableregion' in keys:
color_label = config_params['tableregion']
img_poly=cv2.fillPoly(img, pts =co_table, color=(color_label,color_label,color_label))
if 'noiseregion' in keys:
color_label = config_params['noiseregion']
img_poly=cv2.fillPoly(img, pts =co_noise, color=(color_label,color_label,color_label))
if 'textregions' in keys:
if "paragraph" in types_text:
color_label = config_params['textregions']['paragraph']
img_poly=cv2.fillPoly(img, pts =co_text_paragraph, color=(color_label,color_label,color_label))
if "footnote" in types_text:
color_label = config_params['textregions']['footnote']
img_poly=cv2.fillPoly(img, pts =co_text_footnote, color=(color_label,color_label,color_label))
if "footnote-continued" in types_text:
color_label = config_params['textregions']['footnote-continued']
img_poly=cv2.fillPoly(img, pts =co_text_footnote_con, color=(color_label,color_label,color_label))
if "heading" in types_text:
color_label = config_params['textregions']['heading']
img_poly=cv2.fillPoly(img, pts =co_text_heading, color=(color_label,color_label,color_label))
if "header" in types_text:
color_label = config_params['textregions']['header']
img_poly=cv2.fillPoly(img, pts =co_text_header, color=(color_label,color_label,color_label))
if "catch-word" in types_text:
color_label = config_params['textregions']['catch-word']
img_poly=cv2.fillPoly(img, pts =co_text_catch, color=(color_label,color_label,color_label))
if "signature-mark" in types_text:
color_label = config_params['textregions']['signature-mark']
img_poly=cv2.fillPoly(img, pts =co_text_signature_mark, color=(color_label,color_label,color_label))
if "page-number" in types_text:
color_label = config_params['textregions']['page-number']
img_poly=cv2.fillPoly(img, pts =co_text_page_number, color=(color_label,color_label,color_label))
if "marginalia" in types_text:
color_label = config_params['textregions']['marginalia']
img_poly=cv2.fillPoly(img, pts =co_text_marginalia, color=(color_label,color_label,color_label))
if "drop-capital" in types_text:
color_label = config_params['textregions']['drop-capital']
img_poly=cv2.fillPoly(img, pts =co_text_drop, color=(color_label,color_label,color_label))
if "artificial_class_on_boundry" in keys:
img_poly[:,:][img_boundary[:,:]==1] = artificial_class_label
try:
cv2.imwrite(self.output_dir+'/'+self.gt_list[index].split('-')[1].split('.')[0]+'.png',img_poly )
except:
cv2.imwrite(self.output_dir+'/'+self.gt_list[index].split('.')[0]+'.png',img_poly )
#print(values[0])
if self.experiment=='word':
region_tags=np.unique([x for x in alltags if x.endswith('Word')])
co_word=[]
for tag in region_tags:
if tag.endswith('}Word') or tag.endswith('}word'):
#print('sth')
for nn in root1.iter(tag):
c_t_in=[]
sumi=0
for vv in nn.iter():
# check the format of coords
if vv.tag==link+'Coords':
coords=bool(vv.attrib)
if coords:
p_h=vv.attrib['points'].split(' ')
c_t_in.append( np.array( [ [ int(x.split(',')[0]) , int(x.split(',')[1]) ] for x in p_h] ) )
break
else:
pass
if vv.tag==link+'Point':
c_t_in.append([ int(np.float(vv.attrib['x'])) , int(np.float(vv.attrib['y'])) ])
sumi+=1
#print(vv.tag,'in')
elif vv.tag!=link+'Point' and sumi>=1:
break
co_word.append(np.array(c_t_in))
img = np.zeros( (y_len,x_len, 3) )
if self.output_type == '2d':
img_poly=cv2.fillPoly(img, pts =co_word, color=(1,1,1))
elif self.output_type == '3d':
img_poly=cv2.fillPoly(img, pts =co_word, color=(255,0,0))
try:
cv2.imwrite(self.output_dir+'/'+self.gt_list[index].split('-')[1].split('.')[0]+'.png',img_poly )
except:
cv2.imwrite(self.output_dir+'/'+self.gt_list[index].split('.')[0]+'.png',img_poly )
elif self.experiment=='glyph':
region_tags=np.unique([x for x in alltags if x.endswith('Glyph')])
co_glyph=[]
for tag in region_tags:
if tag.endswith('}Glyph') or tag.endswith('}glyph'):
#print('sth')
for nn in root1.iter(tag):
c_t_in=[]
sumi=0
for vv in nn.iter():
# check the format of coords
if vv.tag==link+'Coords':
coords=bool(vv.attrib)
if coords:
p_h=vv.attrib['points'].split(' ')
c_t_in.append( np.array( [ [ int(x.split(',')[0]) , int(x.split(',')[1]) ] for x in p_h] ) )
break
else:
pass
if vv.tag==link+'Point':
c_t_in.append([ int(np.float(vv.attrib['x'])) , int(np.float(vv.attrib['y'])) ])
sumi+=1
#print(vv.tag,'in')
elif vv.tag!=link+'Point' and sumi>=1:
break
co_glyph.append(np.array(c_t_in))
img = np.zeros( (y_len,x_len, 3) )
if self.output_type == '2d':
img_poly=cv2.fillPoly(img, pts =co_glyph, color=(1,1,1))
elif self.output_type == '3d':
img_poly=cv2.fillPoly(img, pts =co_glyph, color=(255,0,0))
try:
cv2.imwrite(self.output_dir+'/'+self.gt_list[index].split('-')[1].split('.')[0]+'.png',img_poly )
except:
cv2.imwrite(self.output_dir+'/'+self.gt_list[index].split('.')[0]+'.png',img_poly )
elif self.experiment=='textline':
region_tags=np.unique([x for x in alltags if x.endswith('TextLine')])
co_line=[]
for tag in region_tags:
if tag.endswith('}TextLine') or tag.endswith('}textline'):
#print('sth')
for nn in root1.iter(tag):
c_t_in=[]
sumi=0
for vv in nn.iter():
# check the format of coords
if vv.tag==link+'Coords':
coords=bool(vv.attrib)
if coords:
p_h=vv.attrib['points'].split(' ')
c_t_in.append( np.array( [ [ int(x.split(',')[0]) , int(x.split(',')[1]) ] for x in p_h] ) )
break
else:
pass
if vv.tag==link+'Point':
c_t_in.append([ int(np.float(vv.attrib['x'])) , int(np.float(vv.attrib['y'])) ])
sumi+=1
#print(vv.tag,'in')
elif vv.tag!=link+'Point' and sumi>=1:
break
co_line.append(np.array(c_t_in))
img = np.zeros( (y_len,x_len, 3) )
if self.output_type == '2d':
img_poly=cv2.fillPoly(img, pts =co_line, color=(1,1,1))
elif self.output_type == '3d':
img_poly=cv2.fillPoly(img, pts =co_line, color=(255,0,0))
try:
cv2.imwrite(self.output_dir+'/'+self.gt_list[index].split('-')[1].split('.')[0]+'.png',img_poly )
except:
cv2.imwrite(self.output_dir+'/'+self.gt_list[index].split('.')[0]+'.png',img_poly )
elif self.experiment == 'textline_new_concept':
region_tags = np.unique([x for x in alltags if x.endswith('TextLine')])
co_line = []
for tag in region_tags:
if tag.endswith('}TextLine') or tag.endswith('}textline'):
# print('sth')
for nn in root1.iter(tag):
c_t_in = []
sumi = 0
for vv in nn.iter():
# check the format of coords
if vv.tag == link + 'Coords':
coords = bool(vv.attrib)
if coords:
p_h = vv.attrib['points'].split(' ')
c_t_in.append(
np.array([[int(x.split(',')[0]), int(x.split(',')[1])] for x in p_h]))
break
else:
pass
if vv.tag == link + 'Point':
c_t_in.append([int(np.float(vv.attrib['x'])), int(np.float(vv.attrib['y']))])
sumi += 1
# print(vv.tag,'in')
elif vv.tag != link + 'Point' and sumi >= 1:
break
co_line.append(np.array(c_t_in))
img_boundary = np.zeros((y_len, x_len))
co_textline_eroded = []
for con in co_line:
# try:
img_boundary_in = np.zeros((y_len, x_len))
img_boundary_in = cv2.fillPoly(img_boundary_in, pts=[con], color=(1, 1, 1))
# print('bidiahhhhaaa')
# img_boundary_in = cv2.erode(img_boundary_in[:,:], KERNEL, iterations=7)#asiatica
img_boundary_in = cv2.erode(img_boundary_in[:, :], KERNEL, iterations=1)
pixel = 1
min_size = 0
con_eroded = self.return_contours_of_interested_region(img_boundary_in, pixel, min_size)
try:
co_textline_eroded.append(con_eroded[0])
except:
co_textline_eroded.append(con)
img_boundary_in_dilated = cv2.dilate(img_boundary_in[:, :], KERNEL, iterations=3)
# img_boundary_in_dilated = cv2.dilate(img_boundary_in[:,:], KERNEL, iterations=5)
boundary = img_boundary_in_dilated[:, :] - img_boundary_in[:, :]
img_boundary[:, :][boundary[:, :] == 1] = 1
img = np.zeros((y_len, x_len, 3))
if self.output_type == '2d':
img_poly = cv2.fillPoly(img, pts=co_textline_eroded, color=(1, 1, 1))
img_poly[:, :][img_boundary[:, :] == 1] = 2
elif self.output_type == '3d':
img_poly = cv2.fillPoly(img, pts=co_textline_eroded, color=(255, 0, 0))
img_poly[:, :, 0][img_boundary[:, :] == 1] = 255
img_poly[:, :, 1][img_boundary[:, :] == 1] = 125
img_poly[:, :, 2][img_boundary[:, :] == 1] = 125
try:
cv2.imwrite(self.output_dir + '/' + self.gt_list[index].split('-')[1].split('.')[0] + '.png',
img_poly)
except:
cv2.imwrite(self.output_dir + '/' + self.gt_list[index].split('.')[0] + '.png', img_poly)
elif self.experiment=='layout_for_main_regions':
region_tags=np.unique([x for x in alltags if x.endswith('Region')])
#print(region_tags)
co_text=[]
co_sep=[]
co_img=[]
#co_graphic=[]
for tag in region_tags:
if tag.endswith('}TextRegion') or tag.endswith('}Textregion'):
#print('sth')
for nn in root1.iter(tag):
print(nn.attrib['type'])
c_t_in=[]
sumi=0
for vv in nn.iter():
# check the format of coords
if vv.tag==link+'Coords':
coords=bool(vv.attrib)
if coords:
p_h=vv.attrib['points'].split(' ')
c_t_in.append( np.array( [ [ int(x.split(',')[0]) , int(x.split(',')[1]) ] for x in p_h] ) )
break
else:
pass
if vv.tag==link+'Point':
c_t_in.append([ int(np.float(vv.attrib['x'])) , int(np.float(vv.attrib['y'])) ])
sumi+=1
#print(vv.tag,'in')
elif vv.tag!=link+'Point' and sumi>=1:
break
co_text.append(np.array(c_t_in))
elif tag.endswith('}ImageRegion') or tag.endswith('}GraphicRegion') or tag.endswith('}imageregion'):
#print('sth')
for nn in root1.iter(tag):
c_t_in=[]
sumi=0
for vv in nn.iter():
# check the format of coords
if vv.tag==link+'Coords':
coords=bool(vv.attrib)
if coords:
p_h=vv.attrib['points'].split(' ')
c_t_in.append( np.array( [ [ int(x.split(',')[0]) , int(x.split(',')[1]) ] for x in p_h] ) )
break
else:
pass
if vv.tag==link+'Point':
c_t_in.append([ int(np.float(vv.attrib['x'])) , int(np.float(vv.attrib['y'])) ])
sumi+=1
#print(vv.tag,'in')
elif vv.tag!=link+'Point' and sumi>=1:
break
co_img.append(np.array(c_t_in))
elif tag.endswith('}SeparatorRegion') or tag.endswith('}separatorregion'):
#print('sth')
for nn in root1.iter(tag):
c_t_in=[]
sumi=0
for vv in nn.iter():
# check the format of coords
if vv.tag==link+'Coords':
coords=bool(vv.attrib)
if coords:
p_h=vv.attrib['points'].split(' ')
c_t_in.append( np.array( [ [ int(x.split(',')[0]) , int(x.split(',')[1]) ] for x in p_h] ) )
break
else:
pass
if vv.tag==link+'Point':
c_t_in.append([ int(np.float(vv.attrib['x'])) , int(np.float(vv.attrib['y'])) ])
sumi+=1
#print(vv.tag,'in')
elif vv.tag!=link+'Point' and sumi>=1:
break
co_sep.append(np.array(c_t_in))
img_poly = np.zeros( (y_len,x_len,3) )
if self.output_type == '3d':
img_poly=cv2.fillPoly(img_poly, pts =co_text, color=(255,0,0))
img_poly=cv2.fillPoly(img_poly, pts =co_img, color=(0,255,0))
img_poly=cv2.fillPoly(img_poly, pts =co_sep, color=(0,0,255))
##img_poly=cv2.fillPoly(img, pts =co_graphic, color=(255,125,125))
elif self.output_type == '2d':
img_poly=cv2.fillPoly(img_poly, pts =co_text, color=(1,1,1))
img_poly=cv2.fillPoly(img_poly, pts =co_img, color=(2,2,2))
img_poly=cv2.fillPoly(img_poly, pts =co_sep, color=(3,3,3))
try:
cv2.imwrite(self.output_dir+'/'+self.gt_list[index].split('-')[1].split('.')[0]+'.png',img_poly )
except:
cv2.imwrite(self.output_dir+'/'+self.gt_list[index].split('.')[0]+'.png',img_poly )
elif self.experiment=='textregion':
region_tags=np.unique([x for x in alltags if x.endswith('TextRegion')])
co_textregion=[]
for tag in region_tags:
if tag.endswith('}TextRegion') or tag.endswith('}Textregion'):
#print('sth')
for nn in root1.iter(tag):
c_t_in=[]
sumi=0
for vv in nn.iter():
# check the format of coords
if vv.tag==link+'Coords':
coords=bool(vv.attrib)
if coords:
p_h=vv.attrib['points'].split(' ')
c_t_in.append( np.array( [ [ int(x.split(',')[0]) , int(x.split(',')[1]) ] for x in p_h] ) )
break
else:
pass
if vv.tag==link+'Point':
c_t_in.append([ int(np.float(vv.attrib['x'])) , int(np.float(vv.attrib['y'])) ])
sumi+=1
#print(vv.tag,'in')
elif vv.tag!=link+'Point' and sumi>=1:
break
co_textregion.append(np.array(c_t_in))
img = np.zeros( (y_len,x_len,3) )
if self.output_type == '3d':
img_poly=cv2.fillPoly(img, pts =co_textregion, color=(255,0,0))
elif self.output_type == '2d':
img_poly=cv2.fillPoly(img, pts =co_textregion, color=(1,1,1))
try:
cv2.imwrite(self.output_dir+'/'+self.gt_list[index].split('-')[1].split('.')[0]+'.png',img_poly )
except:
cv2.imwrite(self.output_dir+'/'+self.gt_list[index].split('.')[0]+'.png',img_poly )
elif self.experiment=='layout':
region_tags=np.unique([x for x in alltags if x.endswith('Region')])
co_text_paragraph=[]
co_text_drop=[]
co_text_heading=[]
co_text_header=[]
co_text_marginalia=[]
co_text_catch=[]
co_text_page_number=[]
co_text_signature_mark=[]
co_sep=[]
co_img=[]
co_table=[]
co_graphic=[]
co_graphic_text_annotation=[]
co_graphic_decoration=[]
co_noise=[]
for tag in region_tags:
if tag.endswith('}TextRegion') or tag.endswith('}Textregion'):
for nn in root1.iter(tag):
c_t_in_drop=[]
c_t_in_paragraph=[]
c_t_in_heading=[]
c_t_in_header=[]
c_t_in_page_number=[]
c_t_in_signature_mark=[]
c_t_in_catch=[]
c_t_in_marginalia=[]
sumi=0
for vv in nn.iter():
# check the format of coords
if vv.tag==link+'Coords':
coords=bool(vv.attrib)
if coords:
#print('birda1')
p_h=vv.attrib['points'].split(' ')
if "type" in nn.attrib and nn.attrib['type']=='drop-capital':
#if nn.attrib['type']=='paragraph':
c_t_in_drop.append( np.array( [ [ int(x.split(',')[0]) , int(x.split(',')[1]) ] for x in p_h] ) )
elif "type" in nn.attrib and nn.attrib['type']=='heading':
c_t_in_heading.append( np.array( [ [ int(x.split(',')[0]) , int(x.split(',')[1]) ] for x in p_h] ) )
elif "type" in nn.attrib and nn.attrib['type']=='signature-mark':
c_t_in_signature_mark.append( np.array( [ [ int(x.split(',')[0]) , int(x.split(',')[1]) ] for x in p_h] ) )
#print(c_t_in_paragraph)
elif "type" in nn.attrib and nn.attrib['type']=='header':
c_t_in_header.append( np.array( [ [ int(x.split(',')[0]) , int(x.split(',')[1]) ] for x in p_h] ) )
elif "type" in nn.attrib and nn.attrib['type']=='catch-word':
c_t_in_catch.append( np.array( [ [ int(x.split(',')[0]) , int(x.split(',')[1]) ] for x in p_h] ) )
elif "type" in nn.attrib and nn.attrib['type']=='page-number':
c_t_in_page_number.append( np.array( [ [ int(x.split(',')[0]) , int(x.split(',')[1]) ] for x in p_h] ) )
#print(c_t_in_paragraph)
elif "type" in nn.attrib and nn.attrib['type']=='marginalia':
c_t_in_marginalia.append( np.array( [ [ int(x.split(',')[0]) , int(x.split(',')[1]) ] for x in p_h] ) )
#print(c_t_in_paragraph)
else:
c_t_in_paragraph.append( np.array( [ [ int(x.split(',')[0]) , int(x.split(',')[1]) ] for x in p_h] ) )
#print(c_t_in_paragraph)
break
else:
pass
if vv.tag==link+'Point':
if "type" in nn.attrib and nn.attrib['type']=='drop-capital':
#if nn.attrib['type']=='paragraph':
c_t_in_drop.append([ int(np.float(vv.attrib['x'])) , int(np.float(vv.attrib['y'])) ])
sumi+=1
elif "type" in nn.attrib and nn.attrib['type']=='heading':
c_t_in_heading.append([ int(np.float(vv.attrib['x'])) , int(np.float(vv.attrib['y'])) ])
sumi+=1
elif "type" in nn.attrib and nn.attrib['type']=='signature-mark':
c_t_in_signature_mark.append([ int(np.float(vv.attrib['x'])) , int(np.float(vv.attrib['y'])) ])
#print(c_t_in_paragraph)
sumi+=1
elif "type" in nn.attrib and nn.attrib['type']=='header':
c_t_in_header.append([ int(np.float(vv.attrib['x'])) , int(np.float(vv.attrib['y'])) ])
sumi+=1
elif "type" in nn.attrib and nn.attrib['type']=='catch-word':
c_t_in_catch.append([ int(np.float(vv.attrib['x'])) , int(np.float(vv.attrib['y'])) ])
sumi+=1
elif "type" in nn.attrib and nn.attrib['type']=='page-number':
c_t_in_page_number.append([ int(np.float(vv.attrib['x'])) , int(np.float(vv.attrib['y'])) ])
#print(c_t_in_paragraph)
sumi+=1
elif "type" in nn.attrib and nn.attrib['type']=='marginalia':
c_t_in_marginalia.append([ int(np.float(vv.attrib['x'])) , int(np.float(vv.attrib['y'])) ])
#print(c_t_in_paragraph)
sumi+=1
else:
c_t_in_paragraph.append([ int(np.float(vv.attrib['x'])) , int(np.float(vv.attrib['y'])) ])
#print(c_t_in_paragraph)
sumi+=1
#c_t_in.append([ int(np.float(vv.attrib['x'])) , int(np.float(vv.attrib['y'])) ])
#print(vv.tag,'in')
elif vv.tag!=link+'Point' and sumi>=1:
break
if len(c_t_in_drop)>0:
co_text_drop.append(np.array(c_t_in_drop))
if len(c_t_in_paragraph)>0:
co_text_paragraph.append(np.array(c_t_in_paragraph))
if len(c_t_in_heading)>0:
co_text_heading.append(np.array(c_t_in_heading))
if len(c_t_in_header)>0:
co_text_header.append(np.array(c_t_in_header))
if len(c_t_in_page_number)>0:
co_text_page_number.append(np.array(c_t_in_page_number))
if len(c_t_in_catch)>0:
co_text_catch.append(np.array(c_t_in_catch))
if len(c_t_in_signature_mark)>0:
co_text_signature_mark.append(np.array(c_t_in_signature_mark))
if len(c_t_in_marginalia)>0:
co_text_marginalia.append(np.array(c_t_in_marginalia))
elif tag.endswith('}GraphicRegion') or tag.endswith('}graphicregion'):
#print('sth')
for nn in root1.iter(tag):
c_t_in=[]
c_t_in_text_annotation=[]
c_t_in_decoration=[]
sumi=0
for vv in nn.iter():
# check the format of coords
if vv.tag==link+'Coords':
coords=bool(vv.attrib)
if coords:
p_h=vv.attrib['points'].split(' ')
#c_t_in.append( np.array( [ [ int(x.split(',')[0]) , int(x.split(',')[1]) ] for x in p_h] ) )
if "type" in nn.attrib and nn.attrib['type']=='handwritten-annotation':
#if nn.attrib['type']=='paragraph':
c_t_in_text_annotation.append( np.array( [ [ int(x.split(',')[0]) , int(x.split(',')[1]) ] for x in p_h] ) )
elif "type" in nn.attrib and nn.attrib['type']=='decoration':
c_t_in_decoration.append( np.array( [ [ int(x.split(',')[0]) , int(x.split(',')[1]) ] for x in p_h] ) )
#print(c_t_in_paragraph)
else:
c_t_in.append( np.array( [ [ int(x.split(',')[0]) , int(x.split(',')[1]) ] for x in p_h] ) )
break
else:
pass
if vv.tag==link+'Point':
if "type" in nn.attrib and nn.attrib['type']=='handwritten-annotation':
#if nn.attrib['type']=='paragraph':
c_t_in_text_annotation.append([ int(np.float(vv.attrib['x'])) , int(np.float(vv.attrib['y'])) ])
sumi+=1
elif "type" in nn.attrib and nn.attrib['type']=='decoration':
c_t_in_decoration.append([ int(np.float(vv.attrib['x'])) , int(np.float(vv.attrib['y'])) ])
#print(c_t_in_paragraph)
sumi+=1
else:
c_t_in.append([ int(np.float(vv.attrib['x'])) , int(np.float(vv.attrib['y'])) ])
sumi+=1
if len(c_t_in_text_annotation)>0:
co_graphic_text_annotation.append(np.array(c_t_in_text_annotation))
if len(c_t_in_decoration)>0:
co_graphic_decoration.append(np.array(c_t_in_decoration))
if len(c_t_in)>0:
co_graphic.append(np.array(c_t_in))
elif tag.endswith('}ImageRegion') or tag.endswith('}imageregion'):
#print('sth')
for nn in root1.iter(tag):
c_t_in=[]
sumi=0
for vv in nn.iter():
# check the format of coords
if vv.tag==link+'Coords':
coords=bool(vv.attrib)
if coords:
p_h=vv.attrib['points'].split(' ')
c_t_in.append( np.array( [ [ int(x.split(',')[0]) , int(x.split(',')[1]) ] for x in p_h] ) )
break
else:
pass
if vv.tag==link+'Point':
c_t_in.append([ int(np.float(vv.attrib['x'])) , int(np.float(vv.attrib['y'])) ])
sumi+=1
#print(vv.tag,'in')
elif vv.tag!=link+'Point' and sumi>=1:
break
co_img.append(np.array(c_t_in))
elif tag.endswith('}SeparatorRegion') or tag.endswith('}separatorregion'):
#print('sth')
for nn in root1.iter(tag):
c_t_in=[]
sumi=0
for vv in nn.iter():
# check the format of coords
if vv.tag==link+'Coords':
coords=bool(vv.attrib)
if coords:
p_h=vv.attrib['points'].split(' ')
c_t_in.append( np.array( [ [ int(x.split(',')[0]) , int(x.split(',')[1]) ] for x in p_h] ) )
break
else:
pass
if vv.tag==link+'Point':
c_t_in.append([ int(np.float(vv.attrib['x'])) , int(np.float(vv.attrib['y'])) ])
sumi+=1
#print(vv.tag,'in')
elif vv.tag!=link+'Point' and sumi>=1:
break
co_sep.append(np.array(c_t_in))
elif tag.endswith('}TableRegion') or tag.endswith('}tableregion'):
#print('sth')
for nn in root1.iter(tag):
c_t_in=[]
sumi=0
for vv in nn.iter():
# check the format of coords
if vv.tag==link+'Coords':
coords=bool(vv.attrib)
if coords:
p_h=vv.attrib['points'].split(' ')
c_t_in.append( np.array( [ [ int(x.split(',')[0]) , int(x.split(',')[1]) ] for x in p_h] ) )
break
else:
pass
if vv.tag==link+'Point':
c_t_in.append([ int(np.float(vv.attrib['x'])) , int(np.float(vv.attrib['y'])) ])
sumi+=1
#print(vv.tag,'in')
elif vv.tag!=link+'Point' and sumi>=1:
break
co_table.append(np.array(c_t_in))
elif tag.endswith('}NoiseRegion') or tag.endswith('}noiseregion'):
#print('sth')
for nn in root1.iter(tag):
c_t_in=[]
sumi=0
for vv in nn.iter():
# check the format of coords
if vv.tag==link+'Coords':
coords=bool(vv.attrib)
if coords:
p_h=vv.attrib['points'].split(' ')
c_t_in.append( np.array( [ [ int(x.split(',')[0]) , int(x.split(',')[1]) ] for x in p_h] ) )
break
else:
pass
if vv.tag==link+'Point':
c_t_in.append([ int(np.float(vv.attrib['x'])) , int(np.float(vv.attrib['y'])) ])
sumi+=1
#print(vv.tag,'in')
elif vv.tag!=link+'Point' and sumi>=1:
break
co_noise.append(np.array(c_t_in))
img = np.zeros( (y_len,x_len,3) )
if self.output_type == '3d':
img_poly=cv2.fillPoly(img, pts =co_text_paragraph, color=(255,0,0))
img_poly=cv2.fillPoly(img, pts =co_text_heading, color=(255,125,0))
img_poly=cv2.fillPoly(img, pts =co_text_header, color=(255,0,125))
img_poly=cv2.fillPoly(img, pts =co_text_catch, color=(125,255,125))
img_poly=cv2.fillPoly(img, pts =co_text_signature_mark, color=(125,125,0))
img_poly=cv2.fillPoly(img, pts =co_graphic_decoration, color=(0,125,255))
img_poly=cv2.fillPoly(img, pts =co_text_page_number, color=(0,125,0))
img_poly=cv2.fillPoly(img, pts =co_text_marginalia, color=(125,125,125))
img_poly=cv2.fillPoly(img, pts =co_text_drop, color=(0,125,255))
img_poly=cv2.fillPoly(img, pts =co_graphic_text_annotation, color=(125,0,125))
img_poly=cv2.fillPoly(img, pts =co_img, color=(0,255,0))
img_poly=cv2.fillPoly(img, pts =co_sep, color=(0,0,255))
img_poly=cv2.fillPoly(img, pts =co_table, color=(0,255,255))
img_poly=cv2.fillPoly(img, pts =co_graphic, color=(255,125,125))
img_poly=cv2.fillPoly(img, pts =co_noise, color=(255,0,255))
elif self.output_type == '2d':
img_poly=cv2.fillPoly(img, pts =co_text_paragraph, color=(1,1,1))
img_poly=cv2.fillPoly(img, pts =co_text_heading, color=(2,2,2))
img_poly=cv2.fillPoly(img, pts =co_text_header, color=(2,2,2))
img_poly=cv2.fillPoly(img, pts =co_text_catch, color=(3,3,3))
img_poly=cv2.fillPoly(img, pts =co_text_signature_mark, color=(4,4,4))
img_poly=cv2.fillPoly(img, pts =co_graphic_decoration, color=(5,5,5))
img_poly=cv2.fillPoly(img, pts =co_text_page_number, color=(6,6,6))
img_poly=cv2.fillPoly(img, pts =co_text_marginalia, color=(7,7,7))
img_poly=cv2.fillPoly(img, pts =co_text_drop, color=(8,8,8))
img_poly=cv2.fillPoly(img, pts =co_graphic_text_annotation, color=(9,9,9))
img_poly=cv2.fillPoly(img, pts =co_img, color=(10,10,10))
img_poly=cv2.fillPoly(img, pts =co_sep, color=(11,11,11))
img_poly=cv2.fillPoly(img, pts =co_table, color=(12,12,12))
img_poly=cv2.fillPoly(img, pts =co_graphic, color=(13,13,14))
img_poly=cv2.fillPoly(img, pts =co_noise, color=(15,15,15))
try:
cv2.imwrite(self.output_dir+'/'+self.gt_list[index].split('-')[1].split('.')[0]+'.png',img_poly )
except:
cv2.imwrite(self.output_dir+'/'+self.gt_list[index].split('.')[0]+'.png',img_poly )
elif self.experiment=='layout_for_main_regions_new_concept':
region_tags=np.unique([x for x in alltags if x.endswith('Region')])
#print(region_tags)
co_text=[]
co_sep=[]
co_img=[]
co_drop = []
co_graphic=[]
co_table = []
for tag in region_tags:
if tag.endswith('}TextRegion') or tag.endswith('}Textregion'):
#print('sth')
for nn in root1.iter(tag):
c_t_in=[]
c_t_in_drop = []
sumi=0
for vv in nn.iter():
# check the format of coords
if vv.tag==link+'Coords':
coords=bool(vv.attrib)
if coords:
p_h=vv.attrib['points'].split(' ')
if "type" in nn.attrib and nn.attrib['type']=='drop-capital':
c_t_in_drop.append( np.array( [ [ int(x.split(',')[0]) , int(x.split(',')[1]) ] for x in p_h] ) )
else:
c_t_in.append( np.array( [ [ int(x.split(',')[0]) , int(x.split(',')[1]) ] for x in p_h] ) )
break
else:
pass
if vv.tag==link+'Point':
if "type" in nn.attrib and nn.attrib['type']=='drop-capital':
c_t_in_drop.append([ int(np.float(vv.attrib['x'])) , int(np.float(vv.attrib['y'])) ])
sumi+=1
else:
c_t_in.append([ int(np.float(vv.attrib['x'])) , int(np.float(vv.attrib['y'])) ])
sumi+=1
#print(vv.tag,'in')
elif vv.tag!=link+'Point' and sumi>=1:
break
if len(c_t_in)>0:
co_text.append(np.array(c_t_in))
if len(c_t_in_drop)>0:
co_drop.append(np.array(c_t_in_drop))
elif tag.endswith('}ImageRegion') or tag.endswith('}GraphicRegion') or tag.endswith('}imageregion'):
#print('sth')
for nn in root1.iter(tag):
c_t_in=[]
sumi=0
for vv in nn.iter():
# check the format of coords
if vv.tag==link+'Coords':
coords=bool(vv.attrib)
if coords:
p_h=vv.attrib['points'].split(' ')
c_t_in.append( np.array( [ [ int(x.split(',')[0]) , int(x.split(',')[1]) ] for x in p_h] ) )
break
else:
pass
if vv.tag==link+'Point':
c_t_in.append([ int(np.float(vv.attrib['x'])) , int(np.float(vv.attrib['y'])) ])
sumi+=1
#print(vv.tag,'in')
elif vv.tag!=link+'Point' and sumi>=1:
break
co_img.append(np.array(c_t_in))
elif tag.endswith('}SeparatorRegion') or tag.endswith('}separatorregion'):
#print('sth')
for nn in root1.iter(tag):
c_t_in=[]
sumi=0
for vv in nn.iter():
# check the format of coords
if vv.tag==link+'Coords':
coords=bool(vv.attrib)
if coords:
p_h=vv.attrib['points'].split(' ')
c_t_in.append( np.array( [ [ int(x.split(',')[0]) , int(x.split(',')[1]) ] for x in p_h] ) )
break
else:
pass
if vv.tag==link+'Point':
c_t_in.append([ int(np.float(vv.attrib['x'])) , int(np.float(vv.attrib['y'])) ])
sumi+=1
#print(vv.tag,'in')
elif vv.tag!=link+'Point' and sumi>=1:
break
co_sep.append(np.array(c_t_in))
elif tag.endswith('}TableRegion') or tag.endswith('}tableregion'):
#print('sth')
for nn in root1.iter(tag):
c_t_in=[]
sumi=0
for vv in nn.iter():
# check the format of coords
if vv.tag==link+'Coords':
coords=bool(vv.attrib)
if coords:
p_h=vv.attrib['points'].split(' ')
c_t_in.append( np.array( [ [ int(x.split(',')[0]) , int(x.split(',')[1]) ] for x in p_h] ) )
break
else:
pass
if vv.tag==link+'Point':
c_t_in.append([ int(np.float(vv.attrib['x'])) , int(np.float(vv.attrib['y'])) ])
sumi+=1
#print(vv.tag,'in')
elif vv.tag!=link+'Point' and sumi>=1:
break
co_table.append(np.array(c_t_in))
img_boundary = np.zeros( (y_len,x_len) )
co_text_eroded = []
for con in co_text:
#try:
img_boundary_in = np.zeros( (y_len,x_len) )
img_boundary_in = cv2.fillPoly(img_boundary_in, pts=[con], color=(1, 1, 1))
#print('bidiahhhhaaa')
#img_boundary_in = cv2.erode(img_boundary_in[:,:], KERNEL, iterations=7)#asiatica
img_boundary_in = cv2.erode(img_boundary_in[:,:], KERNEL, iterations=2)
pixel = 1
min_size = 0
con_eroded = self.return_contours_of_interested_region(img_boundary_in,pixel, min_size )
try:
co_text_eroded.append(con_eroded[0])
except:
co_text_eroded.append(con)
img_boundary_in_dilated = cv2.dilate(img_boundary_in[:,:], KERNEL, iterations=4)
#img_boundary_in_dilated = cv2.dilate(img_boundary_in[:,:], KERNEL, iterations=5)
boundary = img_boundary_in_dilated[:,:] - img_boundary_in[:,:]
img_boundary[:,:][boundary[:,:]==1] =1
###co_table_eroded = []
###for con in co_table:
####try:
###img_boundary_in = np.zeros( (y_len,x_len) )
###img_boundary_in = cv2.fillPoly(img_boundary_in, pts=[con], color=(1, 1, 1))
####print('bidiahhhhaaa')
#####img_boundary_in = cv2.erode(img_boundary_in[:,:], KERNEL, iterations=7)#asiatica
###img_boundary_in = cv2.erode(img_boundary_in[:,:], KERNEL, iterations=2)
###pixel = 1
###min_size = 0
###con_eroded = self.return_contours_of_interested_region(img_boundary_in,pixel, min_size )
###try:
###co_table_eroded.append(con_eroded[0])
###except:
###co_table_eroded.append(con)
###img_boundary_in_dilated = cv2.dilate(img_boundary_in[:,:], KERNEL, iterations=4)
###boundary = img_boundary_in_dilated[:,:] - img_boundary_in[:,:]
###img_boundary[:,:][boundary[:,:]==1] =1
#except:
#pass
#for con in co_img:
#img_boundary_in = np.zeros( (y_len,x_len) )
#img_boundary_in = cv2.fillPoly(img_boundary_in, pts=[con], color=(1, 1, 1))
#img_boundary_in_dilated = cv2.dilate(img_boundary_in[:,:], KERNEL, iterations=3)
#boundary = img_boundary_in_dilated[:,:] - img_boundary_in[:,:]
#img_boundary[:,:][boundary[:,:]==1] =1
#for con in co_sep:
#img_boundary_in = np.zeros( (y_len,x_len) )
#img_boundary_in = cv2.fillPoly(img_boundary_in, pts=[con], color=(1, 1, 1))
#img_boundary_in_dilated = cv2.dilate(img_boundary_in[:,:], KERNEL, iterations=3)
#boundary = img_boundary_in_dilated[:,:] - img_boundary_in[:,:]
img_boundary[:,:][boundary[:,:]==1] =1
for con in co_drop:
img_boundary_in = np.zeros( (y_len,x_len) )
img_boundary_in = cv2.fillPoly(img_boundary_in, pts=[con], color=(1, 1, 1))
img_boundary_in_dilated = cv2.dilate(img_boundary_in[:,:], KERNEL, iterations=3)
boundary = img_boundary_in_dilated[:,:] - img_boundary_in[:,:]
img_boundary[:,:][boundary[:,:]==1] =1
img = np.zeros( (y_len,x_len,3) )
if self.output_type == '2d':
img_poly=cv2.fillPoly(img, pts =co_img, color=(2,2,2))
img_poly=cv2.fillPoly(img, pts =co_text_eroded, color=(1,1,1))
##img_poly=cv2.fillPoly(img, pts =co_graphic, color=(4,4,4))
###img_poly=cv2.fillPoly(img, pts =co_table, color=(1,1,1))
img_poly=cv2.fillPoly(img, pts =co_drop, color=(1,1,1))
img_poly[:,:][img_boundary[:,:]==1] = 4
img_poly=cv2.fillPoly(img, pts =co_sep, color=(3,3,3))
elif self.output_type == '3d':
img_poly=cv2.fillPoly(img, pts =co_img, color=(0,255,0))
img_poly=cv2.fillPoly(img, pts =co_text_eroded, color=(255,0,0))
img_poly=cv2.fillPoly(img, pts =co_drop, color=(0,125,255))
img_poly[:,:,0][img_boundary[:,:]==1]=255
img_poly[:,:,1][img_boundary[:,:]==1]=125
img_poly[:,:,2][img_boundary[:,:]==1]=125
img_poly=cv2.fillPoly(img, pts =co_sep, color=(0,0,255))
##img_poly=cv2.fillPoly(img, pts =co_graphic, color=(255,125,125))
#print('yazdimmm',self.output_dir+'/'+self.gt_list[index].split('.')[0]+'.png')
try:
#print('yazdimmm',self.output_dir+'/'+self.gt_list[index].split('.')[0]+'.png')
cv2.imwrite(self.output_dir+'/'+self.gt_list[index].split('-')[1].split('.')[0]+'.png',img_poly )
except:
cv2.imwrite(self.output_dir+'/'+self.gt_list[index].split('.')[0]+'.png',img_poly )
#except:
#pass
def run(self,config_params):
self.get_content_of_dir()
self.get_images_of_ground_truth(config_params)
@click.command()
@click.option(
"--dir_xml",
"-dx",
help="directory of GT page-xml files",
type=click.Path(exists=True, file_okay=False),
)
@click.option(
"--dir_out",
"-do",
help="directory where ground truth images would be written",
type=click.Path(exists=True, file_okay=False),
)
@click.option(
"--layout_config",
"-lc",
help="config file of prefered layout.",
type=click.Path(exists=True, dir_okay=False),
)
@click.option(
"--type_output",
"-to",
help="this defines how output should be. A 2d image array or a 3d image array encoded with RGB color. Just pass 2d or 3d. The file will be saved one directory up. 2D image array is 3d but only information of one channel would be enough since all channels have the same values.",
)
@click.option(
"--experiment",
"-exp",
help="experiment of ineterst. Word , textline , glyph and textregion are desired options.",
)
def main(dir_xml,dir_out,type_output,experiment,layout_config):
if layout_config:
with open(layout_config) as f:
config_params = json.load(f)
else:
print("passed")
config_params = None
x=pagexml2word(dir_xml,dir_out,type_output,experiment, layout_config)
x.run(config_params)
if __name__=="__main__":
main()