diff --git a/qurator/eynollah/eynollah.py b/qurator/eynollah/eynollah.py index a69854d..8c0979d 100644 --- a/qurator/eynollah/eynollah.py +++ b/qurator/eynollah/eynollah.py @@ -3919,6 +3919,8 @@ class Eynollah: con_ind = all_found_textline_polygons[j][ij] + area = cv2.contourArea(con_ind) + con_ind = con_ind.astype(np.float) x_differential = np.diff( con_ind[:,0,0]) @@ -3943,6 +3945,7 @@ class Eynollah: #print(y_max-y_min, x_max-x_min,(y_max-y_min)/(x_max-x_min), (x_max-x_min)/(y_max-y_min) ) + #print(area / (x_max-x_min)) ##if (y_max-y_min)<40: ##dilation_m1 = 5 ##dilation_m2 = int(dilation_m1/2.) +1 @@ -3950,20 +3953,26 @@ class Eynollah: ##dilation_m1 = 12 ##dilation_m2 = int(dilation_m1/2.) +1 - if (y_max-y_min) <= (x_max-x_min) and ((y_max-y_min)/(x_max-x_min))<0.15 and (x_max-x_min)>50: - dilation_m1 = int( (y_max-y_min) * 5/20.0 ) - elif (y_max-y_min) <= (x_max-x_min) and ((y_max-y_min)/(x_max-x_min))>=0.15 and ((y_max-y_min)/(x_max-x_min))<0.3 and (x_max-x_min)>50: - dilation_m1 = int( (y_max-y_min) * 2/20.0 ) - elif (y_max-y_min) <= (x_max-x_min) and ((y_max-y_min)/(x_max-x_min))>=0.3 and (x_max-x_min)>50: - dilation_m1 = int( (y_max-y_min) * 1/20.0 ) - elif (x_max-x_min) < (y_max-y_min) and ((x_max-x_min)/(y_max-y_min))<0.15 and (y_max-y_min)>50: - dilation_m1 = int( (x_max-x_min) * 5/20.0 ) - elif (x_max-x_min) < (y_max-y_min) and ((x_max-x_min)/(y_max-y_min))>=0.15 and ((x_max-x_min)/(y_max-y_min))<0.3 and (y_max-y_min)>50: - dilation_m1 = int( (x_max-x_min) * 2/20.0 ) - elif (x_max-x_min) < (y_max-y_min) and ((x_max-x_min)/(y_max-y_min))>=0.3 and (y_max-y_min)>50: - dilation_m1 = int( (x_max-x_min) * 1/20.0 ) + #########if (y_max-y_min) <= (x_max-x_min) and ((y_max-y_min)/(x_max-x_min))<0.15 and (x_max-x_min)>50: + #########dilation_m1 = int( (y_max-y_min) * 5/20.0 ) + #########elif (y_max-y_min) <= (x_max-x_min) and ((y_max-y_min)/(x_max-x_min))>=0.15 and ((y_max-y_min)/(x_max-x_min))<0.3 and (x_max-x_min)>50: + #########dilation_m1 = int( (y_max-y_min) * 2/20.0 ) + #########elif (y_max-y_min) <= (x_max-x_min) and ((y_max-y_min)/(x_max-x_min))>=0.3 and (x_max-x_min)>50: + #########dilation_m1 = int( (y_max-y_min) * 1/20.0 ) + #########elif (x_max-x_min) < (y_max-y_min) and ((x_max-x_min)/(y_max-y_min))<0.15 and (y_max-y_min)>50: + #########dilation_m1 = int( (x_max-x_min) * 5/20.0 ) + #########elif (x_max-x_min) < (y_max-y_min) and ((x_max-x_min)/(y_max-y_min))>=0.15 and ((x_max-x_min)/(y_max-y_min))<0.3 and (y_max-y_min)>50: + #########dilation_m1 = int( (x_max-x_min) * 2/20.0 ) + #########elif (x_max-x_min) < (y_max-y_min) and ((x_max-x_min)/(y_max-y_min))>=0.3 and (y_max-y_min)>50: + #########dilation_m1 = int( (x_max-x_min) * 1/20.0 ) + #########else: + #########dilation_m1 = int( (y_max-y_min) * 4/20.0 ) + + if (y_max-y_min) <= (x_max-x_min): + dilation_m1 = round(area / (x_max-x_min) * 0.35) else: - dilation_m1 = int( (y_max-y_min) * 4/20.0 ) + dilation_m1 = round(area / (y_max-y_min) * 0.35) + if dilation_m1>12: dilation_m1 = 12