diff --git a/qurator/eynollah/eynollah.py b/qurator/eynollah/eynollah.py index 2bfd91b..9d94523 100644 --- a/qurator/eynollah/eynollah.py +++ b/qurator/eynollah/eynollah.py @@ -1869,89 +1869,98 @@ class Eynollah: if np.abs(slope_deskew) >= SLOPE_THRESHOLD: contours_only_text, hir_on_text = return_contours_of_image(text_only) contours_only_text_parent = return_parent_contours(contours_only_text, hir_on_text) - areas_cnt_text = np.array([cv2.contourArea(contours_only_text_parent[j]) for j in range(len(contours_only_text_parent))]) - areas_cnt_text = areas_cnt_text / float(text_only.shape[0] * text_only.shape[1]) - self.logger.info('areas_cnt_text %s', areas_cnt_text) - contours_biggest = contours_only_text_parent[np.argmax(areas_cnt_text)] - contours_only_text_parent = [contours_only_text_parent[jz] for jz in range(len(contours_only_text_parent)) if areas_cnt_text[jz] > min_con_area] - areas_cnt_text_parent = [areas_cnt_text[jz] for jz in range(len(areas_cnt_text)) if areas_cnt_text[jz] > min_con_area] - - index_con_parents = np.argsort(areas_cnt_text_parent) - contours_only_text_parent = list(np.array(contours_only_text_parent)[index_con_parents]) - areas_cnt_text_parent = list(np.array(areas_cnt_text_parent)[index_con_parents]) - - cx_bigest_big, cy_biggest_big, _, _, _, _, _ = find_new_features_of_contours([contours_biggest]) - cx_bigest, cy_biggest, _, _, _, _, _ = find_new_features_of_contours(contours_only_text_parent) - - contours_only_text_d, hir_on_text_d = return_contours_of_image(text_only_d) - contours_only_text_parent_d = return_parent_contours(contours_only_text_d, hir_on_text_d) - - areas_cnt_text_d = np.array([cv2.contourArea(contours_only_text_parent_d[j]) for j in range(len(contours_only_text_parent_d))]) - areas_cnt_text_d = areas_cnt_text_d / float(text_only_d.shape[0] * text_only_d.shape[1]) - - contours_biggest_d = contours_only_text_parent_d[np.argmax(areas_cnt_text_d)] - index_con_parents_d=np.argsort(areas_cnt_text_d) - contours_only_text_parent_d=list(np.array(contours_only_text_parent_d)[index_con_parents_d] ) - areas_cnt_text_d=list(np.array(areas_cnt_text_d)[index_con_parents_d] ) - - cx_bigest_d_big, cy_biggest_d_big, _, _, _, _, _ = find_new_features_of_contours([contours_biggest_d]) - cx_bigest_d, cy_biggest_d, _, _, _, _, _ = find_new_features_of_contours(contours_only_text_parent_d) - try: - if len(cx_bigest_d) >= 5: - cx_bigest_d_last5 = cx_bigest_d[-5:] - cy_biggest_d_last5 = cy_biggest_d[-5:] - dists_d = [math.sqrt((cx_bigest_big[0] - cx_bigest_d_last5[j]) ** 2 + (cy_biggest_big[0] - cy_biggest_d_last5[j]) ** 2) for j in range(len(cy_biggest_d_last5))] - ind_largest = len(cx_bigest_d) -5 + np.argmin(dists_d) - else: - cx_bigest_d_last5 = cx_bigest_d[-len(cx_bigest_d):] - cy_biggest_d_last5 = cy_biggest_d[-len(cx_bigest_d):] - dists_d = [math.sqrt((cx_bigest_big[0]-cx_bigest_d_last5[j])**2 + (cy_biggest_big[0]-cy_biggest_d_last5[j])**2) for j in range(len(cy_biggest_d_last5))] - ind_largest = len(cx_bigest_d) - len(cx_bigest_d) + np.argmin(dists_d) - - cx_bigest_d_big[0] = cx_bigest_d[ind_largest] - cy_biggest_d_big[0] = cy_biggest_d[ind_largest] - except Exception as why: - self.logger.error(why) + + if len(contours_only_text_parent) > 0: + areas_cnt_text = np.array([cv2.contourArea(contours_only_text_parent[j]) for j in range(len(contours_only_text_parent))]) + areas_cnt_text = areas_cnt_text / float(text_only.shape[0] * text_only.shape[1]) + self.logger.info('areas_cnt_text %s', areas_cnt_text) + contours_biggest = contours_only_text_parent[np.argmax(areas_cnt_text)] + contours_only_text_parent = [contours_only_text_parent[jz] for jz in range(len(contours_only_text_parent)) if areas_cnt_text[jz] > min_con_area] + areas_cnt_text_parent = [areas_cnt_text[jz] for jz in range(len(areas_cnt_text)) if areas_cnt_text[jz] > min_con_area] + + index_con_parents = np.argsort(areas_cnt_text_parent) + contours_only_text_parent = list(np.array(contours_only_text_parent)[index_con_parents]) + areas_cnt_text_parent = list(np.array(areas_cnt_text_parent)[index_con_parents]) + + cx_bigest_big, cy_biggest_big, _, _, _, _, _ = find_new_features_of_contours([contours_biggest]) + cx_bigest, cy_biggest, _, _, _, _, _ = find_new_features_of_contours(contours_only_text_parent) + + contours_only_text_d, hir_on_text_d = return_contours_of_image(text_only_d) + contours_only_text_parent_d = return_parent_contours(contours_only_text_d, hir_on_text_d) + + areas_cnt_text_d = np.array([cv2.contourArea(contours_only_text_parent_d[j]) for j in range(len(contours_only_text_parent_d))]) + areas_cnt_text_d = areas_cnt_text_d / float(text_only_d.shape[0] * text_only_d.shape[1]) + + contours_biggest_d = contours_only_text_parent_d[np.argmax(areas_cnt_text_d)] + index_con_parents_d=np.argsort(areas_cnt_text_d) + contours_only_text_parent_d=list(np.array(contours_only_text_parent_d)[index_con_parents_d] ) + areas_cnt_text_d=list(np.array(areas_cnt_text_d)[index_con_parents_d] ) + + cx_bigest_d_big, cy_biggest_d_big, _, _, _, _, _ = find_new_features_of_contours([contours_biggest_d]) + cx_bigest_d, cy_biggest_d, _, _, _, _, _ = find_new_features_of_contours(contours_only_text_parent_d) + try: + if len(cx_bigest_d) >= 5: + cx_bigest_d_last5 = cx_bigest_d[-5:] + cy_biggest_d_last5 = cy_biggest_d[-5:] + dists_d = [math.sqrt((cx_bigest_big[0] - cx_bigest_d_last5[j]) ** 2 + (cy_biggest_big[0] - cy_biggest_d_last5[j]) ** 2) for j in range(len(cy_biggest_d_last5))] + ind_largest = len(cx_bigest_d) -5 + np.argmin(dists_d) + else: + cx_bigest_d_last5 = cx_bigest_d[-len(cx_bigest_d):] + cy_biggest_d_last5 = cy_biggest_d[-len(cx_bigest_d):] + dists_d = [math.sqrt((cx_bigest_big[0]-cx_bigest_d_last5[j])**2 + (cy_biggest_big[0]-cy_biggest_d_last5[j])**2) for j in range(len(cy_biggest_d_last5))] + ind_largest = len(cx_bigest_d) - len(cx_bigest_d) + np.argmin(dists_d) + + cx_bigest_d_big[0] = cx_bigest_d[ind_largest] + cy_biggest_d_big[0] = cy_biggest_d[ind_largest] + except Exception as why: + self.logger.error(why) - (h, w) = text_only.shape[:2] - center = (w // 2.0, h // 2.0) - M = cv2.getRotationMatrix2D(center, slope_deskew, 1.0) - M_22 = np.array(M)[:2, :2] - p_big = np.dot(M_22, [cx_bigest_big, cy_biggest_big]) - x_diff = p_big[0] - cx_bigest_d_big - y_diff = p_big[1] - cy_biggest_d_big - - contours_only_text_parent_d_ordered = [] - for i in range(len(contours_only_text_parent)): - p = np.dot(M_22, [cx_bigest[i], cy_biggest[i]]) - p[0] = p[0] - x_diff[0] - p[1] = p[1] - y_diff[0] - dists = [math.sqrt((p[0] - cx_bigest_d[j]) ** 2 + (p[1] - cy_biggest_d[j]) ** 2) for j in range(len(cx_bigest_d))] - contours_only_text_parent_d_ordered.append(contours_only_text_parent_d[np.argmin(dists)]) - # img2=np.zeros((text_only.shape[0],text_only.shape[1],3)) - # img2=cv2.fillPoly(img2,pts=[contours_only_text_parent_d[np.argmin(dists)]] ,color=(1,1,1)) - # plt.imshow(img2[:,:,0]) - # plt.show() + (h, w) = text_only.shape[:2] + center = (w // 2.0, h // 2.0) + M = cv2.getRotationMatrix2D(center, slope_deskew, 1.0) + M_22 = np.array(M)[:2, :2] + p_big = np.dot(M_22, [cx_bigest_big, cy_biggest_big]) + x_diff = p_big[0] - cx_bigest_d_big + y_diff = p_big[1] - cy_biggest_d_big + + contours_only_text_parent_d_ordered = [] + for i in range(len(contours_only_text_parent)): + p = np.dot(M_22, [cx_bigest[i], cy_biggest[i]]) + p[0] = p[0] - x_diff[0] + p[1] = p[1] - y_diff[0] + dists = [math.sqrt((p[0] - cx_bigest_d[j]) ** 2 + (p[1] - cy_biggest_d[j]) ** 2) for j in range(len(cx_bigest_d))] + contours_only_text_parent_d_ordered.append(contours_only_text_parent_d[np.argmin(dists)]) + # img2=np.zeros((text_only.shape[0],text_only.shape[1],3)) + # img2=cv2.fillPoly(img2,pts=[contours_only_text_parent_d[np.argmin(dists)]] ,color=(1,1,1)) + # plt.imshow(img2[:,:,0]) + # plt.show() + else: + contours_only_text_parent_d_ordered = [] + contours_only_text_parent_d = [] + else: contours_only_text, hir_on_text = return_contours_of_image(text_only) contours_only_text_parent = return_parent_contours(contours_only_text, hir_on_text) - - areas_cnt_text = np.array([cv2.contourArea(contours_only_text_parent[j]) for j in range(len(contours_only_text_parent))]) - areas_cnt_text = areas_cnt_text / float(text_only.shape[0] * text_only.shape[1]) - - contours_biggest = contours_only_text_parent[np.argmax(areas_cnt_text)] - contours_only_text_parent = [contours_only_text_parent[jz] for jz in range(len(contours_only_text_parent)) if areas_cnt_text[jz] > min_con_area] - areas_cnt_text_parent = [areas_cnt_text[jz] for jz in range(len(areas_cnt_text)) if areas_cnt_text[jz] > min_con_area] - - index_con_parents = np.argsort(areas_cnt_text_parent) - contours_only_text_parent = list(np.array(contours_only_text_parent)[index_con_parents]) - areas_cnt_text_parent = list(np.array(areas_cnt_text_parent)[index_con_parents]) - - cx_bigest_big, cy_biggest_big, _, _, _, _, _ = find_new_features_of_contours([contours_biggest]) - cx_bigest, cy_biggest, _, _, _, _, _ = find_new_features_of_contours(contours_only_text_parent) - self.logger.debug('areas_cnt_text_parent %s', areas_cnt_text_parent) - # self.logger.debug('areas_cnt_text_parent_d %s', areas_cnt_text_parent_d) - # self.logger.debug('len(contours_only_text_parent) %s', len(contours_only_text_parent_d)) + + if len(contours_only_text_parent) > 0: + areas_cnt_text = np.array([cv2.contourArea(contours_only_text_parent[j]) for j in range(len(contours_only_text_parent))]) + areas_cnt_text = areas_cnt_text / float(text_only.shape[0] * text_only.shape[1]) + + contours_biggest = contours_only_text_parent[np.argmax(areas_cnt_text)] + contours_only_text_parent = [contours_only_text_parent[jz] for jz in range(len(contours_only_text_parent)) if areas_cnt_text[jz] > min_con_area] + areas_cnt_text_parent = [areas_cnt_text[jz] for jz in range(len(areas_cnt_text)) if areas_cnt_text[jz] > min_con_area] + + index_con_parents = np.argsort(areas_cnt_text_parent) + contours_only_text_parent = list(np.array(contours_only_text_parent)[index_con_parents]) + areas_cnt_text_parent = list(np.array(areas_cnt_text_parent)[index_con_parents]) + + cx_bigest_big, cy_biggest_big, _, _, _, _, _ = find_new_features_of_contours([contours_biggest]) + cx_bigest, cy_biggest, _, _, _, _, _ = find_new_features_of_contours(contours_only_text_parent) + self.logger.debug('areas_cnt_text_parent %s', areas_cnt_text_parent) + # self.logger.debug('areas_cnt_text_parent_d %s', areas_cnt_text_parent_d) + # self.logger.debug('len(contours_only_text_parent) %s', len(contours_only_text_parent_d)) + else: + pass txt_con_org = get_textregion_contours_in_org_image(contours_only_text_parent, self.image, slope_first) boxes_text, _ = get_text_region_boxes_by_given_contours(contours_only_text_parent) boxes_marginals, _ = get_text_region_boxes_by_given_contours(polygons_of_marginals) diff --git a/qurator/eynollah/utils/__init__.py b/qurator/eynollah/utils/__init__.py index 74e985e..fb6b476 100644 --- a/qurator/eynollah/utils/__init__.py +++ b/qurator/eynollah/utils/__init__.py @@ -1560,7 +1560,11 @@ def find_number_of_columns_in_document(region_pre_p, num_col_classifier, pixel_l #regions_without_separators_tile=cv2.erode(regions_without_separators_tile,kernel,iterations = 3) # - num_col, peaks_neg_fin=find_num_col(regions_without_separators_tile,multiplier=7.0) + try: + num_col, peaks_neg_fin = find_num_col(regions_without_separators_tile,multiplier=7.0) + except: + num_col = 0 + peaks_neg_fin = [] if num_col>num_col_fin: num_col_fin=num_col