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@ -1056,14 +1056,15 @@ class textlineerkenner:
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return ang_int
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def do_work_of_slopes(self,q,poly,box_sub,boxes_per_process,textline_mask_tot,contours_per_process):
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def do_work_of_slopes(self,q,poly,box_sub,boxes_per_process,contours_sub,textline_mask_tot,contours_per_process):
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slope_biggest=0
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slopes_sub = []
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boxes_sub_new=[]
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poly_sub=[]
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contours_sub_per_p=[]
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for mv in range(len(boxes_per_process)):
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contours_sub_per_p.append(contours_per_process[mv])
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crop_img, _ = self.crop_image_inside_box(boxes_per_process[mv],
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np.repeat(textline_mask_tot[:, :, np.newaxis], 3, axis=2))
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crop_img=crop_img[:,:,0]
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@ -1101,18 +1102,21 @@ class textlineerkenner:
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boxes_sub_new.append(boxes_per_process[mv] )
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q.put(slopes_sub)
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poly.put(poly_sub)
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box_sub.put(boxes_sub_new )
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contours_sub.put(contours_sub_per_p)
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def get_slopes_and_deskew(self, contours,textline_mask_tot):
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slope_biggest=0#self.return_deskew_slop(img_int_p,sigma_des)
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num_cores = 1 # XXX cpu_count()
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num_cores = cpu_count()
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q = Queue()
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poly=Queue()
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box_sub=Queue()
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contours_sub=Queue()
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processes = []
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nh=np.linspace(0, len(self.boxes), num_cores+1)
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@ -1121,28 +1125,33 @@ class textlineerkenner:
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for i in range(num_cores):
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boxes_per_process=self.boxes[int(nh[i]):int(nh[i+1])]
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contours_per_process=contours[int(nh[i]):int(nh[i+1])]
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processes.append(Process(target=self.do_work_of_slopes, args=(q,poly,box_sub, boxes_per_process, textline_mask_tot, contours_per_process)))
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processes.append(Process(target=self.do_work_of_slopes, args=(q,poly,box_sub, boxes_per_process, contours_sub, textline_mask_tot, contours_per_process)))
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for i in range(num_cores):
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processes[i].start()
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self.slopes = []
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self.all_found_texline_polygons=[]
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all_found_text_regions=[]
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self.boxes=[]
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for i in range(num_cores):
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slopes_for_sub_process=q.get(True)
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boxes_for_sub_process=box_sub.get(True)
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polys_for_sub_process=poly.get(True)
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contours_for_subprocess=contours_sub.get(True)
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for j in range(len(slopes_for_sub_process)):
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self.slopes.append(slopes_for_sub_process[j])
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self.all_found_texline_polygons.append(polys_for_sub_process[j])
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self.boxes.append(boxes_for_sub_process[j])
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all_found_text_regions.append(contours_for_subprocess[j])
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for i in range(num_cores):
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processes[i].join()
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return all_found_text_regions
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def order_of_regions(self, textline_mask,contours_main):
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mada_n=textline_mask.sum(axis=1)
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@ -1441,33 +1450,23 @@ class textlineerkenner:
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t4=time.time()
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# get orders of each textregion. This method by now only works for one column documents.
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indexes_sorted, matrix_of_orders=self.order_of_regions(textline_mask_tot,contours)
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order_of_texts, id_of_texts=self.order_and_id_of_texts(contours ,matrix_of_orders ,indexes_sorted )
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##########
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gc.collect()
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# calculate the slope for deskewing for each box of text region.
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contours=self.get_slopes_and_deskew(contours,textline_mask_tot)
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gc.collect()
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t5=time.time()
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# just get the textline result for each box of text regions
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#self.get_textlines_for_each_textregions(textline_mask_tot)
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##########
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# calculate the slope for deskewing for each box of text region.
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self.get_slopes_and_deskew(contours,textline_mask_tot)
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# get orders of each textregion. This method by now only works for one column documents.
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indexes_sorted, matrix_of_orders=self.order_of_regions(textline_mask_tot,contours)
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order_of_texts, id_of_texts=self.order_and_id_of_texts(contours ,matrix_of_orders ,indexes_sorted )
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##########
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gc.collect()
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t6=time.time()
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# do deskewing for each box of text region.
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###self.deskew_textline_patches(contours,textline_mask_tot)
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self.get_all_image_patches_coordination(image_page)
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@ -1490,8 +1489,8 @@ class textlineerkenner:
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print( "time needed for page extraction = "+"{0:.2f}".format(t2-t1) )
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print( "time needed for text region extraction and get contours = "+"{0:.2f}".format(t3-t2) )
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print( "time needed for textlines = "+"{0:.2f}".format(t4-t3) )
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print( "time needed to get order of regions = "+"{0:.2f}".format(t5-t4) )
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print( "time needed to get slopes of regions (deskewing) = "+"{0:.2f}".format(t6-t5) )
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print( "time needed to get slopes of regions (deskewing) = "+"{0:.2f}".format(t5-t4) )
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print( "time needed to get order of regions = "+"{0:.2f}".format(t6-t5) )
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print( "time needed to implement deskewing = "+"{0:.2f}".format(t7-t6) )
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