@ -13,13 +13,13 @@ def adhere_drop_capital_region_into_corresponding_textline(
contours_only_text_parent_h ,
contours_only_text_parent_h ,
all_box_coord ,
all_box_coord ,
all_box_coord_h ,
all_box_coord_h ,
all_found_tex line_polygons,
all_found_tex t line_polygons,
all_found_tex line_polygons_h,
all_found_tex t line_polygons_h,
kernel = None ,
kernel = None ,
curved_line = False ,
curved_line = False ,
) :
) :
# print(np.shape(all_found_tex line_polygons),np.shape(all_found_texline_polygons[3]),'all_found_texline_polygonsshape')
# print(np.shape(all_found_tex t line_polygons),np.shape(all_found_text line_polygons[3]),'all_found_text line_polygonsshape')
# print(all_found_tex line_polygons[3])
# print(all_found_tex t line_polygons[3])
cx_m , cy_m , _ , _ , _ , _ , _ = find_new_features_of_contours ( contours_only_text_parent )
cx_m , cy_m , _ , _ , _ , _ , _ = find_new_features_of_contours ( contours_only_text_parent )
cx_h , cy_h , _ , _ , _ , _ , _ = find_new_features_of_contours ( contours_only_text_parent_h )
cx_h , cy_h , _ , _ , _ , _ , _ = find_new_features_of_contours ( contours_only_text_parent_h )
cx_d , cy_d , _ , _ , y_min_d , y_max_d , _ = find_new_features_of_contours ( polygons_of_drop_capitals )
cx_d , cy_d , _ , _ , y_min_d , y_max_d , _ = find_new_features_of_contours ( polygons_of_drop_capitals )
@ -87,9 +87,9 @@ def adhere_drop_capital_region_into_corresponding_textline(
region_final = region_with_intersected_drop [ np . argmax ( sum_pixels_of_intersection ) ] - 1
region_final = region_with_intersected_drop [ np . argmax ( sum_pixels_of_intersection ) ] - 1
# print(region_final,'region_final')
# print(region_final,'region_final')
# cx_t,cy_t ,_, _, _ ,_,_= find_new_features_of_contours(all_found_tex line_polygons[int(region_final)])
# cx_t,cy_t ,_, _, _ ,_,_= find_new_features_of_contours(all_found_tex t line_polygons[int(region_final)])
try :
try :
cx_t , cy_t , _ , _ , _ , _ , _ = find_new_features_of_contours ( all_found_tex line_polygons[ int ( region_final ) ] )
cx_t , cy_t , _ , _ , _ , _ , _ = find_new_features_of_contours ( all_found_tex t line_polygons[ int ( region_final ) ] )
# print(all_box_coord[j_cont])
# print(all_box_coord[j_cont])
# print(cx_t)
# print(cx_t)
# print(cy_t)
# print(cy_t)
@ -105,9 +105,9 @@ def adhere_drop_capital_region_into_corresponding_textline(
arg_min = np . argmin ( np . abs ( y_lines - y_min_d [ i_drop ] ) )
arg_min = np . argmin ( np . abs ( y_lines - y_min_d [ i_drop ] ) )
# print(arg_min)
# print(arg_min)
cnt_nearest = np . copy ( all_found_tex line_polygons[ int ( region_final ) ] [ arg_min ] )
cnt_nearest = np . copy ( all_found_tex t line_polygons[ int ( region_final ) ] [ arg_min ] )
cnt_nearest [ : , 0 , 0 ] = all_found_tex line_polygons[ int ( region_final ) ] [ arg_min ] [ : , 0 , 0 ] # +all_box_coord[int(region_final)][2]
cnt_nearest [ : , 0 , 0 ] = all_found_tex t line_polygons[ int ( region_final ) ] [ arg_min ] [ : , 0 , 0 ] # +all_box_coord[int(region_final)][2]
cnt_nearest [ : , 0 , 1 ] = all_found_tex line_polygons[ int ( region_final ) ] [ arg_min ] [ : , 0 , 1 ] # +all_box_coord[int(region_final)][0]
cnt_nearest [ : , 0 , 1 ] = all_found_tex t line_polygons[ int ( region_final ) ] [ arg_min ] [ : , 0 , 1 ] # +all_box_coord[int(region_final)][0]
img_textlines = np . zeros ( ( text_regions_p . shape [ 0 ] , text_regions_p . shape [ 1 ] , 3 ) )
img_textlines = np . zeros ( ( text_regions_p . shape [ 0 ] , text_regions_p . shape [ 1 ] , 3 ) )
img_textlines = cv2 . fillPoly ( img_textlines , pts = [ cnt_nearest ] , color = ( 255 , 255 , 255 ) )
img_textlines = cv2 . fillPoly ( img_textlines , pts = [ cnt_nearest ] , color = ( 255 , 255 , 255 ) )
@ -131,7 +131,7 @@ def adhere_drop_capital_region_into_corresponding_textline(
# contours_biggest=contours_biggest.reshape(np.shape(contours_biggest)[0],np.shape(contours_biggest)[2])
# contours_biggest=contours_biggest.reshape(np.shape(contours_biggest)[0],np.shape(contours_biggest)[2])
all_found_tex line_polygons[ int ( region_final ) ] [ arg_min ] = contours_biggest
all_found_tex t line_polygons[ int ( region_final ) ] [ arg_min ] = contours_biggest
except :
except :
# print('gordun1')
# print('gordun1')
@ -139,11 +139,11 @@ def adhere_drop_capital_region_into_corresponding_textline(
elif len ( region_with_intersected_drop ) == 1 :
elif len ( region_with_intersected_drop ) == 1 :
region_final = region_with_intersected_drop [ 0 ] - 1
region_final = region_with_intersected_drop [ 0 ] - 1
# areas_main=np.array([cv2.contourArea(all_found_tex line_polygons[int(region_final)][0][j] ) for j in range(len(all_found_texline_polygons[int(region_final)]))])
# areas_main=np.array([cv2.contourArea(all_found_tex t line_polygons[int(region_final)][0][j] ) for j in range(len(all_found_text line_polygons[int(region_final)]))])
# cx_t,cy_t ,_, _, _ ,_,_= find_new_features_of_contours(all_found_tex line_polygons[int(region_final)])
# cx_t,cy_t ,_, _, _ ,_,_= find_new_features_of_contours(all_found_tex t line_polygons[int(region_final)])
try :
try :
cx_t , cy_t , _ , _ , _ , _ , _ = find_new_features_of_contours ( all_found_tex line_polygons[ int ( region_final ) ] )
cx_t , cy_t , _ , _ , _ , _ , _ = find_new_features_of_contours ( all_found_tex t line_polygons[ int ( region_final ) ] )
# print(all_box_coord[j_cont])
# print(all_box_coord[j_cont])
# print(cx_t)
# print(cx_t)
# print(cy_t)
# print(cy_t)
@ -157,9 +157,9 @@ def adhere_drop_capital_region_into_corresponding_textline(
arg_min = np . argmin ( np . abs ( y_lines - y_min_d [ i_drop ] ) )
arg_min = np . argmin ( np . abs ( y_lines - y_min_d [ i_drop ] ) )
# print(arg_min)
# print(arg_min)
cnt_nearest = np . copy ( all_found_tex line_polygons[ int ( region_final ) ] [ arg_min ] )
cnt_nearest = np . copy ( all_found_tex t line_polygons[ int ( region_final ) ] [ arg_min ] )
cnt_nearest [ : , 0 , 0 ] = all_found_tex line_polygons[ int ( region_final ) ] [ arg_min ] [ : , 0 , 0 ] # +all_box_coord[int(region_final)][2]
cnt_nearest [ : , 0 , 0 ] = all_found_tex t line_polygons[ int ( region_final ) ] [ arg_min ] [ : , 0 , 0 ] # +all_box_coord[int(region_final)][2]
cnt_nearest [ : , 0 , 1 ] = all_found_tex line_polygons[ int ( region_final ) ] [ arg_min ] [ : , 0 , 1 ] # +all_box_coord[int(region_final)][0]
cnt_nearest [ : , 0 , 1 ] = all_found_tex t line_polygons[ int ( region_final ) ] [ arg_min ] [ : , 0 , 1 ] # +all_box_coord[int(region_final)][0]
img_textlines = np . zeros ( ( text_regions_p . shape [ 0 ] , text_regions_p . shape [ 1 ] , 3 ) )
img_textlines = np . zeros ( ( text_regions_p . shape [ 0 ] , text_regions_p . shape [ 1 ] , 3 ) )
img_textlines = cv2 . fillPoly ( img_textlines , pts = [ cnt_nearest ] , color = ( 255 , 255 , 255 ) )
img_textlines = cv2 . fillPoly ( img_textlines , pts = [ cnt_nearest ] , color = ( 255 , 255 , 255 ) )
@ -184,15 +184,15 @@ def adhere_drop_capital_region_into_corresponding_textline(
# contours_biggest[:,0,0]=contours_biggest[:,0,0]#-all_box_coord[int(region_final)][2]
# contours_biggest[:,0,0]=contours_biggest[:,0,0]#-all_box_coord[int(region_final)][2]
# contours_biggest[:,0,1]=contours_biggest[:,0,1]#-all_box_coord[int(region_final)][0]
# contours_biggest[:,0,1]=contours_biggest[:,0,1]#-all_box_coord[int(region_final)][0]
# print(np.shape(contours_biggest),'contours_biggest')
# print(np.shape(contours_biggest),'contours_biggest')
# print(np.shape(all_found_tex line_polygons[int(region_final)][arg_min]))
# print(np.shape(all_found_tex t line_polygons[int(region_final)][arg_min]))
##contours_biggest=contours_biggest.reshape(np.shape(contours_biggest)[0],np.shape(contours_biggest)[2])
##contours_biggest=contours_biggest.reshape(np.shape(contours_biggest)[0],np.shape(contours_biggest)[2])
all_found_tex line_polygons[ int ( region_final ) ] [ arg_min ] = contours_biggest
all_found_tex t line_polygons[ int ( region_final ) ] [ arg_min ] = contours_biggest
except :
except :
pass
pass
try :
try :
# print(all_found_tex line_polygons[j_cont][0])
# print(all_found_tex t line_polygons[j_cont][0])
cx_t , cy_t , _ , _ , _ , _ , _ = find_new_features_of_contours ( all_found_tex line_polygons[ int ( region_final ) ] )
cx_t , cy_t , _ , _ , _ , _ , _ = find_new_features_of_contours ( all_found_tex t line_polygons[ int ( region_final ) ] )
# print(all_box_coord[j_cont])
# print(all_box_coord[j_cont])
# print(cx_t)
# print(cx_t)
# print(cy_t)
# print(cy_t)
@ -206,9 +206,9 @@ def adhere_drop_capital_region_into_corresponding_textline(
arg_min = np . argmin ( np . abs ( y_lines - y_min_d [ i_drop ] ) )
arg_min = np . argmin ( np . abs ( y_lines - y_min_d [ i_drop ] ) )
# print(arg_min)
# print(arg_min)
cnt_nearest = np . copy ( all_found_tex line_polygons[ int ( region_final ) ] [ arg_min ] )
cnt_nearest = np . copy ( all_found_tex t line_polygons[ int ( region_final ) ] [ arg_min ] )
cnt_nearest [ : , 0 , 0 ] = all_found_tex line_polygons[ int ( region_final ) ] [ arg_min ] [ : , 0 , 0 ] # +all_box_coord[int(region_final)][2]
cnt_nearest [ : , 0 , 0 ] = all_found_tex t line_polygons[ int ( region_final ) ] [ arg_min ] [ : , 0 , 0 ] # +all_box_coord[int(region_final)][2]
cnt_nearest [ : , 0 , 1 ] = all_found_tex line_polygons[ int ( region_final ) ] [ arg_min ] [ : , 0 , 1 ] # +all_box_coord[int(region_final)][0]
cnt_nearest [ : , 0 , 1 ] = all_found_tex t line_polygons[ int ( region_final ) ] [ arg_min ] [ : , 0 , 1 ] # +all_box_coord[int(region_final)][0]
img_textlines = np . zeros ( ( text_regions_p . shape [ 0 ] , text_regions_p . shape [ 1 ] , 3 ) )
img_textlines = np . zeros ( ( text_regions_p . shape [ 0 ] , text_regions_p . shape [ 1 ] , 3 ) )
img_textlines = cv2 . fillPoly ( img_textlines , pts = [ cnt_nearest ] , color = ( 255 , 255 , 255 ) )
img_textlines = cv2 . fillPoly ( img_textlines , pts = [ cnt_nearest ] , color = ( 255 , 255 , 255 ) )
@ -231,15 +231,15 @@ def adhere_drop_capital_region_into_corresponding_textline(
contours_biggest [ : , 0 , 1 ] = contours_biggest [ : , 0 , 1 ] # -all_box_coord[int(region_final)][0]
contours_biggest [ : , 0 , 1 ] = contours_biggest [ : , 0 , 1 ] # -all_box_coord[int(region_final)][0]
##contours_biggest=contours_biggest.reshape(np.shape(contours_biggest)[0],np.shape(contours_biggest)[2])
##contours_biggest=contours_biggest.reshape(np.shape(contours_biggest)[0],np.shape(contours_biggest)[2])
all_found_tex line_polygons[ int ( region_final ) ] [ arg_min ] = contours_biggest
all_found_tex t line_polygons[ int ( region_final ) ] [ arg_min ] = contours_biggest
# all_found_tex line_polygons[int(region_final)][arg_min]=contours_biggest
# all_found_tex t line_polygons[int(region_final)][arg_min]=contours_biggest
except :
except :
pass
pass
else :
else :
pass
pass
##cx_t,cy_t ,_, _, _ ,_,_= find_new_features_of_contours(all_found_tex line_polygons[int(region_final)])
##cx_t,cy_t ,_, _, _ ,_,_= find_new_features_of_contours(all_found_tex t line_polygons[int(region_final)])
###print(all_box_coord[j_cont])
###print(all_box_coord[j_cont])
###print(cx_t)
###print(cx_t)
###print(cy_t)
###print(cy_t)
@ -253,9 +253,9 @@ def adhere_drop_capital_region_into_corresponding_textline(
##arg_min=np.argmin(np.abs(y_lines-y_min_d[i_drop]) )
##arg_min=np.argmin(np.abs(y_lines-y_min_d[i_drop]) )
###print(arg_min)
###print(arg_min)
##cnt_nearest=np.copy(all_found_tex line_polygons[int(region_final)][arg_min])
##cnt_nearest=np.copy(all_found_tex t line_polygons[int(region_final)][arg_min])
##cnt_nearest[:,0,0]=all_found_tex line_polygons[int(region_final)][arg_min][:,0,0]#+all_box_coord[int(region_final)][2]
##cnt_nearest[:,0,0]=all_found_tex t line_polygons[int(region_final)][arg_min][:,0,0]#+all_box_coord[int(region_final)][2]
##cnt_nearest[:,0,1]=all_found_tex line_polygons[int(region_final)][arg_min][:,0,1]#+all_box_coord[int(region_final)][0]
##cnt_nearest[:,0,1]=all_found_tex t line_polygons[int(region_final)][arg_min][:,0,1]#+all_box_coord[int(region_final)][0]
##img_textlines=np.zeros((text_regions_p.shape[0],text_regions_p.shape[1],3))
##img_textlines=np.zeros((text_regions_p.shape[0],text_regions_p.shape[1],3))
##img_textlines=cv2.fillPoly(img_textlines,pts=[cnt_nearest],color=(255,255,255))
##img_textlines=cv2.fillPoly(img_textlines,pts=[cnt_nearest],color=(255,255,255))
@ -281,7 +281,7 @@ def adhere_drop_capital_region_into_corresponding_textline(
##contours_biggest[:,0,1]=contours_biggest[:,0,1]#-all_box_coord[int(region_final)][0]
##contours_biggest[:,0,1]=contours_biggest[:,0,1]#-all_box_coord[int(region_final)][0]
##contours_biggest=contours_biggest.reshape(np.shape(contours_biggest)[0],np.shape(contours_biggest)[2])
##contours_biggest=contours_biggest.reshape(np.shape(contours_biggest)[0],np.shape(contours_biggest)[2])
##all_found_tex line_polygons[int(region_final)][arg_min]=contours_biggest
##all_found_tex t line_polygons[int(region_final)][arg_min]=contours_biggest
else :
else :
if len ( region_with_intersected_drop ) > 1 :
if len ( region_with_intersected_drop ) > 1 :
@ -293,9 +293,9 @@ def adhere_drop_capital_region_into_corresponding_textline(
region_final = region_with_intersected_drop [ np . argmax ( sum_pixels_of_intersection ) ] - 1
region_final = region_with_intersected_drop [ np . argmax ( sum_pixels_of_intersection ) ] - 1
# print(region_final,'region_final')
# print(region_final,'region_final')
# cx_t,cy_t ,_, _, _ ,_,_= find_new_features_of_contours(all_found_tex line_polygons[int(region_final)])
# cx_t,cy_t ,_, _, _ ,_,_= find_new_features_of_contours(all_found_tex t line_polygons[int(region_final)])
try :
try :
cx_t , cy_t , _ , _ , _ , _ , _ = find_new_features_of_contours ( all_found_tex line_polygons[ int ( region_final ) ] )
cx_t , cy_t , _ , _ , _ , _ , _ = find_new_features_of_contours ( all_found_tex t line_polygons[ int ( region_final ) ] )
# print(all_box_coord[j_cont])
# print(all_box_coord[j_cont])
# print(cx_t)
# print(cx_t)
# print(cy_t)
# print(cy_t)
@ -311,9 +311,9 @@ def adhere_drop_capital_region_into_corresponding_textline(
arg_min = np . argmin ( np . abs ( y_lines - y_min_d [ i_drop ] ) )
arg_min = np . argmin ( np . abs ( y_lines - y_min_d [ i_drop ] ) )
# print(arg_min)
# print(arg_min)
cnt_nearest = np . copy ( all_found_tex line_polygons[ int ( region_final ) ] [ arg_min ] )
cnt_nearest = np . copy ( all_found_tex t line_polygons[ int ( region_final ) ] [ arg_min ] )
cnt_nearest [ : , 0 ] = all_found_tex line_polygons[ int ( region_final ) ] [ arg_min ] [ : , 0 ] + all_box_coord [ int ( region_final ) ] [ 2 ]
cnt_nearest [ : , 0 ] = all_found_tex t line_polygons[ int ( region_final ) ] [ arg_min ] [ : , 0 ] + all_box_coord [ int ( region_final ) ] [ 2 ]
cnt_nearest [ : , 1 ] = all_found_tex line_polygons[ int ( region_final ) ] [ arg_min ] [ : , 1 ] + all_box_coord [ int ( region_final ) ] [ 0 ]
cnt_nearest [ : , 1 ] = all_found_tex t line_polygons[ int ( region_final ) ] [ arg_min ] [ : , 1 ] + all_box_coord [ int ( region_final ) ] [ 0 ]
img_textlines = np . zeros ( ( text_regions_p . shape [ 0 ] , text_regions_p . shape [ 1 ] , 3 ) )
img_textlines = np . zeros ( ( text_regions_p . shape [ 0 ] , text_regions_p . shape [ 1 ] , 3 ) )
img_textlines = cv2 . fillPoly ( img_textlines , pts = [ cnt_nearest ] , color = ( 255 , 255 , 255 ) )
img_textlines = cv2 . fillPoly ( img_textlines , pts = [ cnt_nearest ] , color = ( 255 , 255 , 255 ) )
@ -337,7 +337,7 @@ def adhere_drop_capital_region_into_corresponding_textline(
contours_biggest = contours_biggest . reshape ( np . shape ( contours_biggest ) [ 0 ] , np . shape ( contours_biggest ) [ 2 ] )
contours_biggest = contours_biggest . reshape ( np . shape ( contours_biggest ) [ 0 ] , np . shape ( contours_biggest ) [ 2 ] )
all_found_tex line_polygons[ int ( region_final ) ] [ arg_min ] = contours_biggest
all_found_tex t line_polygons[ int ( region_final ) ] [ arg_min ] = contours_biggest
except :
except :
# print('gordun1')
# print('gordun1')
@ -345,14 +345,14 @@ def adhere_drop_capital_region_into_corresponding_textline(
elif len ( region_with_intersected_drop ) == 1 :
elif len ( region_with_intersected_drop ) == 1 :
region_final = region_with_intersected_drop [ 0 ] - 1
region_final = region_with_intersected_drop [ 0 ] - 1
# areas_main=np.array([cv2.contourArea(all_found_tex line_polygons[int(region_final)][0][j] ) for j in range(len(all_found_texline_polygons[int(region_final)]))])
# areas_main=np.array([cv2.contourArea(all_found_tex t line_polygons[int(region_final)][0][j] ) for j in range(len(all_found_text line_polygons[int(region_final)]))])
# cx_t,cy_t ,_, _, _ ,_,_= find_new_features_of_contours(all_found_tex line_polygons[int(region_final)])
# cx_t,cy_t ,_, _, _ ,_,_= find_new_features_of_contours(all_found_tex t line_polygons[int(region_final)])
# print(cx_t,'print')
# print(cx_t,'print')
try :
try :
# print(all_found_tex line_polygons[j_cont][0])
# print(all_found_tex t line_polygons[j_cont][0])
cx_t , cy_t , _ , _ , _ , _ , _ = find_new_features_of_contours ( all_found_tex line_polygons[ int ( region_final ) ] )
cx_t , cy_t , _ , _ , _ , _ , _ = find_new_features_of_contours ( all_found_tex t line_polygons[ int ( region_final ) ] )
# print(all_box_coord[j_cont])
# print(all_box_coord[j_cont])
# print(cx_t)
# print(cx_t)
# print(cy_t)
# print(cy_t)
@ -366,9 +366,9 @@ def adhere_drop_capital_region_into_corresponding_textline(
arg_min = np . argmin ( np . abs ( y_lines - y_min_d [ i_drop ] ) )
arg_min = np . argmin ( np . abs ( y_lines - y_min_d [ i_drop ] ) )
# print(arg_min)
# print(arg_min)
cnt_nearest = np . copy ( all_found_tex line_polygons[ int ( region_final ) ] [ arg_min ] )
cnt_nearest = np . copy ( all_found_tex t line_polygons[ int ( region_final ) ] [ arg_min ] )
cnt_nearest [ : , 0 ] = all_found_tex line_polygons[ int ( region_final ) ] [ arg_min ] [ : , 0 ] + all_box_coord [ int ( region_final ) ] [ 2 ]
cnt_nearest [ : , 0 ] = all_found_tex t line_polygons[ int ( region_final ) ] [ arg_min ] [ : , 0 ] + all_box_coord [ int ( region_final ) ] [ 2 ]
cnt_nearest [ : , 1 ] = all_found_tex line_polygons[ int ( region_final ) ] [ arg_min ] [ : , 1 ] + all_box_coord [ int ( region_final ) ] [ 0 ]
cnt_nearest [ : , 1 ] = all_found_tex t line_polygons[ int ( region_final ) ] [ arg_min ] [ : , 1 ] + all_box_coord [ int ( region_final ) ] [ 0 ]
img_textlines = np . zeros ( ( text_regions_p . shape [ 0 ] , text_regions_p . shape [ 1 ] , 3 ) )
img_textlines = np . zeros ( ( text_regions_p . shape [ 0 ] , text_regions_p . shape [ 1 ] , 3 ) )
img_textlines = cv2 . fillPoly ( img_textlines , pts = [ cnt_nearest ] , color = ( 255 , 255 , 255 ) )
img_textlines = cv2 . fillPoly ( img_textlines , pts = [ cnt_nearest ] , color = ( 255 , 255 , 255 ) )
@ -391,8 +391,8 @@ def adhere_drop_capital_region_into_corresponding_textline(
contours_biggest [ : , 0 , 1 ] = contours_biggest [ : , 0 , 1 ] - all_box_coord [ int ( region_final ) ] [ 0 ]
contours_biggest [ : , 0 , 1 ] = contours_biggest [ : , 0 , 1 ] - all_box_coord [ int ( region_final ) ] [ 0 ]
contours_biggest = contours_biggest . reshape ( np . shape ( contours_biggest ) [ 0 ] , np . shape ( contours_biggest ) [ 2 ] )
contours_biggest = contours_biggest . reshape ( np . shape ( contours_biggest ) [ 0 ] , np . shape ( contours_biggest ) [ 2 ] )
all_found_tex line_polygons[ int ( region_final ) ] [ arg_min ] = contours_biggest
all_found_tex t line_polygons[ int ( region_final ) ] [ arg_min ] = contours_biggest
# all_found_tex line_polygons[int(region_final)][arg_min]=contours_biggest
# all_found_tex t line_polygons[int(region_final)][arg_min]=contours_biggest
except :
except :
pass
pass
@ -417,8 +417,8 @@ def adhere_drop_capital_region_into_corresponding_textline(
######plt.show()
######plt.show()
#####try:
#####try:
#####if len(contours_new_parent)==1:
#####if len(contours_new_parent)==1:
######print(all_found_tex line_polygons[j_cont][0])
######print(all_found_tex t line_polygons[j_cont][0])
#####cx_t,cy_t ,_, _, _ ,_,_= find_new_features_of_contours(all_found_tex line_polygons[j_cont])
#####cx_t,cy_t ,_, _, _ ,_,_= find_new_features_of_contours(all_found_tex t line_polygons[j_cont])
######print(all_box_coord[j_cont])
######print(all_box_coord[j_cont])
######print(cx_t)
######print(cx_t)
######print(cy_t)
######print(cy_t)
@ -431,9 +431,9 @@ def adhere_drop_capital_region_into_corresponding_textline(
#####arg_min=np.argmin(np.abs(y_lines-y_min_d[i_drop]) )
#####arg_min=np.argmin(np.abs(y_lines-y_min_d[i_drop]) )
######print(arg_min)
######print(arg_min)
#####cnt_nearest=np.copy(all_found_tex line_polygons[j_cont][arg_min])
#####cnt_nearest=np.copy(all_found_tex t line_polygons[j_cont][arg_min])
#####cnt_nearest[:,0]=all_found_tex line_polygons[j_cont][arg_min][:,0]+all_box_coord[j_cont][2]
#####cnt_nearest[:,0]=all_found_tex t line_polygons[j_cont][arg_min][:,0]+all_box_coord[j_cont][2]
#####cnt_nearest[:,1]=all_found_tex line_polygons[j_cont][arg_min][:,1]+all_box_coord[j_cont][0]
#####cnt_nearest[:,1]=all_found_tex t line_polygons[j_cont][arg_min][:,1]+all_box_coord[j_cont][0]
#####img_textlines=np.zeros((text_regions_p.shape[0],text_regions_p.shape[1],3))
#####img_textlines=np.zeros((text_regions_p.shape[0],text_regions_p.shape[1],3))
#####img_textlines=cv2.fillPoly(img_textlines,pts=[cnt_nearest],color=(255,255,255))
#####img_textlines=cv2.fillPoly(img_textlines,pts=[cnt_nearest],color=(255,255,255))
@ -454,7 +454,7 @@ def adhere_drop_capital_region_into_corresponding_textline(
#####contours_biggest[:,0,0]=contours_biggest[:,0,0]-all_box_coord[j_cont][2]
#####contours_biggest[:,0,0]=contours_biggest[:,0,0]-all_box_coord[j_cont][2]
#####contours_biggest[:,0,1]=contours_biggest[:,0,1]-all_box_coord[j_cont][0]
#####contours_biggest[:,0,1]=contours_biggest[:,0,1]-all_box_coord[j_cont][0]
#####all_found_tex line_polygons[j_cont][arg_min]=contours_biggest
#####all_found_tex t line_polygons[j_cont][arg_min]=contours_biggest
######print(contours_biggest)
######print(contours_biggest)
######plt.imshow(img_textlines[:,:,0])
######plt.imshow(img_textlines[:,:,0])
######plt.show()
######plt.show()
@ -462,7 +462,7 @@ def adhere_drop_capital_region_into_corresponding_textline(
#####pass
#####pass
#####except:
#####except:
#####pass
#####pass
return all_found_tex line_polygons
return all_found_tex t line_polygons
def filter_small_drop_capitals_from_no_patch_layout ( layout_no_patch , layout1 ) :
def filter_small_drop_capitals_from_no_patch_layout ( layout_no_patch , layout1 ) :