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@ -1672,7 +1672,9 @@ def find_number_of_columns_in_document(region_pre_p, num_col_classifier, tables,
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return num_col_fin, peaks_neg_fin_fin,matrix_of_lines_ch,splitter_y_new,separators_closeup_n
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def return_boxes_of_images_by_order_of_reading_new(splitter_y_new, regions_without_separators, matrix_of_lines_ch, num_col_classifier, erosion_hurts, tables):
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def return_boxes_of_images_by_order_of_reading_new(splitter_y_new, regions_without_separators, matrix_of_lines_ch, num_col_classifier, erosion_hurts, tables, right2left_readingorder):
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if right2left_readingorder:
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regions_without_separators = cv2.flip(regions_without_separators,1)
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boxes=[]
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peaks_neg_tot_tables = []
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@ -1763,6 +1765,13 @@ def return_boxes_of_images_by_order_of_reading_new(splitter_y_new, regions_witho
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cy_hor_diff=matrix_new[:,7][ (matrix_new[:,9]==0) ]
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arg_org_hor_some=matrix_new[:,0][ (matrix_new[:,9]==0) ]
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if right2left_readingorder:
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x_max_hor_some_new = regions_without_separators.shape[1] - x_min_hor_some
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x_min_hor_some_new = regions_without_separators.shape[1] - x_max_hor_some
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x_min_hor_some =list(np.copy(x_min_hor_some_new))
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x_max_hor_some =list(np.copy(x_max_hor_some_new))
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@ -2027,6 +2036,7 @@ def return_boxes_of_images_by_order_of_reading_new(splitter_y_new, regions_witho
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columns_not_covered_child_no_mother=np.sort(columns_not_covered_child_no_mother)
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ind_args=np.array(range(len(y_type_2)))
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@ -2335,254 +2345,21 @@ def return_boxes_of_images_by_order_of_reading_new(splitter_y_new, regions_witho
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#else:
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#boxes.append([ 0, regions_without_separators[:,:].shape[1] ,splitter_y_new[i],splitter_y_new[i+1]])
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return boxes, peaks_neg_tot_tables
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def return_boxes_of_images_by_order_of_reading_new_right2left(splitter_y_new, regions_without_separators, matrix_of_lines_ch, num_col_classifier, erosion_hurts, tables):
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boxes=[]
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peaks_neg_tot_tables = []
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for i in range(len(splitter_y_new)-1):
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#print(splitter_y_new[i],splitter_y_new[i+1])
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matrix_new=matrix_of_lines_ch[:,:][ (matrix_of_lines_ch[:,6]> splitter_y_new[i] ) & (matrix_of_lines_ch[:,7]< splitter_y_new[i+1] ) ]
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#print(len( matrix_new[:,9][matrix_new[:,9]==1] ))
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#print(matrix_new[:,8][matrix_new[:,9]==1],'gaddaaa')
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# check to see is there any vertical separator to find holes.
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if 1>0:#len( matrix_new[:,9][matrix_new[:,9]==1] )>0 and np.max(matrix_new[:,8][matrix_new[:,9]==1])>=0.1*(np.abs(splitter_y_new[i+1]-splitter_y_new[i] )):
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try:
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if erosion_hurts:
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num_col, peaks_neg_fin=find_num_col(regions_without_separators[int(splitter_y_new[i]):int(splitter_y_new[i+1]),:], num_col_classifier, tables, multiplier=6.)
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else:
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num_col, peaks_neg_fin=find_num_col(regions_without_separators[int(splitter_y_new[i]):int(splitter_y_new[i+1]),:],num_col_classifier, tables, multiplier=7.)
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except:
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peaks_neg_fin=[]
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num_col = 0
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try:
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peaks_neg_fin_org=np.copy(peaks_neg_fin)
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if (len(peaks_neg_fin)+1)<num_col_classifier or num_col_classifier==6:
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#print('burda')
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if len(peaks_neg_fin)==0:
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num_col, peaks_neg_fin=find_num_col(regions_without_separators[int(splitter_y_new[i]):int(splitter_y_new[i+1]),:],num_col_classifier, tables, multiplier=3.)
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peaks_neg_fin_early=[]
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peaks_neg_fin_early.append(0)
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#print(peaks_neg_fin,'peaks_neg_fin')
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for p_n in peaks_neg_fin:
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peaks_neg_fin_early.append(p_n)
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peaks_neg_fin_early.append(regions_without_separators.shape[1]-1)
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#print(peaks_neg_fin_early,'burda2')
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peaks_neg_fin_rev=[]
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for i_n in range(len(peaks_neg_fin_early)-1):
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#print(i_n,'i_n')
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#plt.plot(regions_without_separators[int(splitter_y_new[i]):int(splitter_y_new[i+1]),peaks_neg_fin_early[i_n]:peaks_neg_fin_early[i_n+1]].sum(axis=0) )
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#plt.show()
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try:
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num_col, peaks_neg_fin1=find_num_col(regions_without_separators[int(splitter_y_new[i]):int(splitter_y_new[i+1]),peaks_neg_fin_early[i_n]:peaks_neg_fin_early[i_n+1]],num_col_classifier,tables, multiplier=7.)
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except:
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peaks_neg_fin1=[]
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try:
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num_col, peaks_neg_fin2=find_num_col(regions_without_separators[int(splitter_y_new[i]):int(splitter_y_new[i+1]),peaks_neg_fin_early[i_n]:peaks_neg_fin_early[i_n+1]],num_col_classifier,tables, multiplier=5.)
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except:
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peaks_neg_fin2=[]
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if len(peaks_neg_fin1)>=len(peaks_neg_fin2):
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peaks_neg_fin=list(np.copy(peaks_neg_fin1))
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else:
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peaks_neg_fin=list(np.copy(peaks_neg_fin2))
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peaks_neg_fin=list(np.array(peaks_neg_fin)+peaks_neg_fin_early[i_n])
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if i_n!=(len(peaks_neg_fin_early)-2):
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peaks_neg_fin_rev.append(peaks_neg_fin_early[i_n+1])
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#print(peaks_neg_fin,'peaks_neg_fin')
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peaks_neg_fin_rev=peaks_neg_fin_rev+peaks_neg_fin
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if len(peaks_neg_fin_rev)>=len(peaks_neg_fin_org):
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peaks_neg_fin=list(np.sort(peaks_neg_fin_rev))
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num_col=len(peaks_neg_fin)
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if right2left_readingorder:
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peaks_neg_tot_tables_new = []
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if len(peaks_neg_tot_tables)>=1:
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for peaks_tab_ind in peaks_neg_tot_tables:
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peaks_neg_tot_tables_ind = regions_without_separators.shape[1] - np.array(peaks_tab_ind)
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peaks_neg_tot_tables_ind = list(peaks_neg_tot_tables_ind[::-1])
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peaks_neg_tot_tables_new.append(peaks_neg_tot_tables_ind)
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for i in range(len(boxes)):
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x_start_new = regions_without_separators.shape[1] - boxes[i][1]
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x_end_new = regions_without_separators.shape[1] - boxes[i][0]
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boxes[i][0] = x_start_new
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boxes[i][1] = x_end_new
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return boxes, peaks_neg_tot_tables_new
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else:
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peaks_neg_fin=list(np.copy(peaks_neg_fin_org))
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num_col=len(peaks_neg_fin)
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#print(peaks_neg_fin,'peaks_neg_fin')
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except:
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pass
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#num_col, peaks_neg_fin=find_num_col(regions_without_separators[int(splitter_y_new[i]):int(splitter_y_new[i+1]),:],multiplier=7.0)
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x_min_hor_some=matrix_new[:,2][ (matrix_new[:,9]==0) ]
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x_max_hor_some=matrix_new[:,3][ (matrix_new[:,9]==0) ]
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cy_hor_some=matrix_new[:,5][ (matrix_new[:,9]==0) ]
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cy_hor_diff=matrix_new[:,7][ (matrix_new[:,9]==0) ]
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arg_org_hor_some=matrix_new[:,0][ (matrix_new[:,9]==0) ]
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peaks_neg_tot=return_points_with_boundies(peaks_neg_fin,0, regions_without_separators[:,:].shape[1])
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peaks_neg_tot_tables.append(peaks_neg_tot)
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reading_order_type,x_starting,x_ending,y_type_2,y_diff_type_2,y_lines_without_mother,x_start_without_mother,x_end_without_mother,there_is_sep_with_child,y_lines_with_child_without_mother,x_start_with_child_without_mother,x_end_with_child_without_mother,new_main_sep_y=return_x_start_end_mothers_childs_and_type_of_reading_order(x_min_hor_some,x_max_hor_some,cy_hor_some,peaks_neg_tot,cy_hor_diff)
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y_lines_by_order=[]
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x_start_by_order=[]
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x_end_by_order=[]
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if len(x_starting)>0:
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all_columns = np.array(range(len(peaks_neg_tot)-1))
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columns_covered_by_lines_covered_more_than_2col=[]
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for dj in range(len(x_starting)):
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if set( list(np.array(range(x_starting[dj],x_ending[dj])) ) ) == set(all_columns):
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pass
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else:
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columns_covered_by_lines_covered_more_than_2col=columns_covered_by_lines_covered_more_than_2col+list(np.array(range(x_starting[dj],x_ending[dj])) )
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columns_covered_by_lines_covered_more_than_2col=list(set(columns_covered_by_lines_covered_more_than_2col))
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columns_not_covered=list( set(all_columns)-set(columns_covered_by_lines_covered_more_than_2col) )
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y_type_2=list(y_type_2)
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x_starting=list(x_starting)
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x_ending=list(x_ending)
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for lj in columns_not_covered:
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y_type_2.append(int(splitter_y_new[i]))
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x_starting.append(lj)
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x_ending.append(lj+1)
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##y_lines_by_order.append(int(splitter_y_new[i]))
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##x_start_by_order.append(0)
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#y_type_2.append(int(splitter_y_new[i]))
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#x_starting.append(x_starting[0])
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#x_ending.append(x_ending[0])
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if len(new_main_sep_y)>0:
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y_type_2.append(int(splitter_y_new[i]))
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x_starting.append(0)
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x_ending.append(len(peaks_neg_tot)-1)
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else:
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y_type_2.append(int(splitter_y_new[i]))
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x_starting.append(x_starting[0])
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x_ending.append(x_ending[0])
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y_type_2=np.array(y_type_2)
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x_starting=np.array(x_starting)
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x_ending=np.array(x_ending)
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else:
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all_columns=np.array(range(len(peaks_neg_tot)-1))
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columns_not_covered=list( set(all_columns) )
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y_type_2=list(y_type_2)
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x_starting=list(x_starting)
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x_ending=list(x_ending)
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for lj in columns_not_covered:
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y_type_2.append(int(splitter_y_new[i]))
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x_starting.append(lj)
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x_ending.append(lj+1)
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##y_lines_by_order.append(int(splitter_y_new[i]))
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##x_start_by_order.append(0)
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y_type_2=np.array(y_type_2)
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x_starting=np.array(x_starting)
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x_ending=np.array(x_ending)
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ind_args=np.array(range(len(y_type_2)))
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#ind_args=np.array(ind_args)
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#print(ind_args,'ind_args')
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for column in range(len(peaks_neg_tot)-1,0,-1):
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#print(column,'column')
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ind_args_in_col=ind_args[x_ending==column]
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ind_args_in_col=np.array(ind_args_in_col)
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#print(len(y_type_2))
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y_column=y_type_2[ind_args_in_col]
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x_start_column=x_starting[ind_args_in_col]
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x_end_column=x_ending[ind_args_in_col]
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ind_args_col_sorted=np.argsort(y_column)
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y_col_sort=y_column[ind_args_col_sorted]
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x_start_column_sort=x_start_column[ind_args_col_sorted]
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x_end_column_sort=x_end_column[ind_args_col_sorted]
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#print('babali4')
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for ii in range(len(y_col_sort)):
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#print('babali5')
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y_lines_by_order.append(y_col_sort[ii])
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x_start_by_order.append(x_start_column_sort[ii])
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x_end_by_order.append(x_end_column_sort[ii]-1)
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for il in range(len(y_lines_by_order)):
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y_copy=list( np.copy(y_lines_by_order) )
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x_start_copy=list( np.copy(x_start_by_order) )
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x_end_copy=list ( np.copy(x_end_by_order) )
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#print(y_copy,'y_copy')
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y_itself=y_copy.pop(il)
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x_start_itself=x_start_copy.pop(il)
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x_end_itself=x_end_copy.pop(il)
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#print(y_copy,'y_copy2')
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for column in range(x_end_itself+1-1,x_start_itself-1,-1):
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#print(column,'cols')
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y_in_cols=[]
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for yic in range(len(y_copy)):
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#print('burda')
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if y_copy[yic]>y_itself and column>=x_start_copy[yic] and column<=x_end_copy[yic]:
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y_in_cols.append(y_copy[yic])
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#print('burda2')
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#print(y_in_cols,'y_in_cols')
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if len(y_in_cols)>0:
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y_down=np.min(y_in_cols)
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else:
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y_down=[int(splitter_y_new[i+1])][0]
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#print(y_itself,'y_itself')
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boxes.append([peaks_neg_tot[column],peaks_neg_tot[column+1],y_itself,y_down])
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#else:
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#boxes.append([ 0, regions_without_separators[:,:].shape[1] ,splitter_y_new[i],splitter_y_new[i+1]])
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return boxes, peaks_neg_tot_tables
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