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@ -171,17 +171,9 @@ class eynollah:
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if img.shape[1] < img_width_model:
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img = cv2.resize(img, (img_height_model, img.shape[0]), interpolation=cv2.INTER_NEAREST)
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margin = True
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if margin:
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kernel = np.ones((5, 5), np.uint8)
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margin = int(0 * img_width_model)
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width_mid = img_width_model - 2 * margin
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height_mid = img_height_model - 2 * margin
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img = img / float(255.0)
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img_h = img.shape[0]
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@ -203,7 +195,6 @@ class eynollah:
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else:
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index_x_d = i * width_mid
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index_x_u = index_x_d + img_width_model
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if j == 0:
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index_y_d = j * height_mid
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index_y_u = index_y_d + img_height_model
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@ -254,9 +245,6 @@ class eynollah:
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prediction_true = prediction_true.astype(int)
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del model_enhancement
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del session_enhancemnet
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return prediction_true
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def calculate_width_height_by_columns(self, img, num_col, width_early, label_p_pred):
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@ -1252,7 +1240,6 @@ class eynollah:
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id_indexer_l = 0
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if len(found_polygons_text_region) > 0:
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self.xml_reading_order(page, order_of_texts, id_of_texts, id_of_marginalia, found_polygons_marginals)
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for mm in range(len(found_polygons_text_region)):
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textregion = ET.SubElement(page, 'TextRegion')
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textregion.set('id', 'r%s' % id_indexer)
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@ -1282,9 +1269,9 @@ class eynollah:
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points_co += ','
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points_co += str(int((all_found_texline_polygons[mm][j][l][1] + page_coord[0]) / self.scale_y))
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else:
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points_co = points_co + str(int((all_found_texline_polygons[mm][j][l][0][0] + page_coord[2]) / self.scale_x))
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points_co = points_co + ','
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points_co = points_co + str(int((all_found_texline_polygons[mm][j][l][0][1] + page_coord[0]) / self.scale_y))
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points_co += str(int((all_found_texline_polygons[mm][j][l][0][0] + page_coord[2]) / self.scale_x))
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points_co += ','
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points_co += str(int((all_found_texline_polygons[mm][j][l][0][1] + page_coord[0]) / self.scale_y))
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elif curved_line and abs(slopes[mm]) > 45:
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if len(all_found_texline_polygons[mm][j][l]) == 2:
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points_co += str(int((all_found_texline_polygons[mm][j][l][0] + all_box_coord[mm][2] + page_coord[2]) / self.scale_x))
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@ -1298,7 +1285,6 @@ class eynollah:
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if l < len(all_found_texline_polygons[mm][j]) - 1:
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points_co += ' '
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coord.set('points', points_co)
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add_textequiv(textregion)
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for mm in range(len(found_polygons_marginals)):
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@ -2002,12 +1988,13 @@ class eynollah:
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text_regions_p = text_regions_p_1[:, :] # long_short_region[:,:]#self.get_regions_from_2_models(image_page)
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text_regions_p = np.array(text_regions_p)
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if num_col_classifier == 1 or num_col_classifier == 2:
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if num_col_classifier in (1, 2):
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try:
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regions_without_seperators = (text_regions_p[:, :] == 1) * 1
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regions_without_seperators = regions_without_seperators.astype(np.uint8)
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text_regions_p = get_marginals(rotate_image(regions_without_seperators, slope_deskew), text_regions_p, num_col_classifier, slope_deskew, kernel=self.kernel)
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except:
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except Exception as e:
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self.logger.error("exception %s", e)
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pass
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if self.plotter:
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Konstantin Baierer
4 years ago