@ -1300,7 +1300,7 @@ class eynollah:
img_int_p [ img_int_p > 0 ] = 1
# slope_for_all=self.return_deskew_slope_new(img_int_p,sigma_des)
slope_for_all = self . return_deskew_slop ( img_int_p , sigma_des )
slope_for_all = self . return_deskew_slop ( img_int_p , sigma_des , dir_of_all = self . dir_of_all , f_name = self . f_name )
if abs ( slope_for_all ) < 0.5 :
slope_for_all = [ slope_deskew ] [ 0 ]
@ -1311,7 +1311,7 @@ class eynollah:
except :
slope_for_all = 999
##slope_for_all=self.return_deskew_slop(img_int_p,sigma_des )
##slope_for_all=self.return_deskew_slop(img_int_p,sigma_des , dir_of_all=self.dir_of_all, f_name=self.f_name )
if slope_for_all == 999 :
slope_for_all = [ slope_deskew ] [ 0 ]
@ -1457,7 +1457,7 @@ class eynollah:
img_int_p [ img_int_p > 0 ] = 1
# slope_for_all=self.return_deskew_slope_new(img_int_p,sigma_des)
slope_for_all = self . return_deskew_slop ( img_int_p , sigma_des )
slope_for_all = self . return_deskew_slop ( img_int_p , sigma_des , dir_of_all = self . dir_of_all , f_name = self . f_name )
if abs ( slope_for_all ) < = 0.5 :
slope_for_all = [ slope_deskew ] [ 0 ]
@ -1465,7 +1465,7 @@ class eynollah:
except :
slope_for_all = 999
##slope_for_all=self.return_deskew_slop(img_int_p,sigma_des )
##slope_for_all=self.return_deskew_slop(img_int_p,sigma_des , dir_of_all=self.dir_of_all, f_name=self.f_name )
if slope_for_all == 999 :
slope_for_all = [ slope_deskew ] [ 0 ]
@ -1726,7 +1726,7 @@ class eynollah:
sigma = 2
try :
slope_xline = self . return_deskew_slop ( img_xline , sigma )
slope_xline = self . return_deskew_slop ( img_xline , sigma , dir_of_all = self . dir_of_all , f_name = self . f_name )
except :
slope_xline = 0
slopes_tile_wise . append ( slope_xline )
@ -1748,7 +1748,7 @@ class eynollah:
sigma = 3
try :
slope_xline = self . return_deskew_slop ( img_xline , sigma )
slope_xline = self . return_deskew_slop ( img_xline , sigma , dir_of_all = self . dir_of_all , f_name = self . f_name )
except :
slope_xline = 0
slopes_tile_wise . append ( slope_xline )
@ -1891,7 +1891,7 @@ class eynollah:
sigma = 2
try :
slope_xline = self . return_deskew_slop ( img_xline , sigma )
slope_xline = self . return_deskew_slop ( img_xline , sigma , dir_of_all = self . dir_of_all , f_name = self . f_name )
except :
slope_xline = 0
@ -2106,9 +2106,9 @@ class eynollah:
return slope
def return_deskew_slop ( self , img_patch_org , sigma_des , main_page = False ):
def return_deskew_slop ( self , img_patch_org , sigma_des , main_page = False , dir_of_all = None , f_name = None ):
if main_page and self . dir_of_all is not None :
if main_page and dir_of_all is not None :
plt . figure ( figsize = ( 70 , 40 ) )
plt . rcParams [ " font.size " ] = " 50 "
@ -2121,7 +2121,7 @@ class eynollah:
plt . yticks ( [ 0 , len ( gaussian_filter1d ( img_patch_org . sum ( axis = 1 ) , 3 ) ) ] )
plt . gca ( ) . invert_yaxis ( )
plt . savefig ( os . path . join ( self . dir_of_all , self . f_name + " _density_of_textline.png " ) )
plt . savefig ( os . path . join ( dir_of_all , f_name + " _density_of_textline.png " ) )
# print(np.max(img_patch_org.sum(axis=0)) ,np.max(img_patch_org.sum(axis=1)),'axislar')
# img_patch_org=resize_image(img_patch_org,int(img_patch_org.shape[0]*2.5),int(img_patch_org.shape[1]/2.5))
@ -2281,7 +2281,7 @@ class eynollah:
index_cor . append ( indexer )
indexer = indexer + 1
if self . dir_of_all is not None :
if dir_of_all is not None :
print ( " galdi? " )
plt . figure ( figsize = ( 60 , 30 ) )
plt . rcParams [ " font.size " ] = " 50 "
@ -2291,7 +2291,7 @@ class eynollah:
plt . plot ( angels [ np . argmax ( var_res ) ] , var_res [ np . argmax ( np . array ( var_res ) ) ] , " * " , markersize = 50 , label = " Angle of deskewing= " + str ( " {:.2f} " . format ( angels [ np . argmax ( var_res ) ] ) ) + r " $ \ degree$ " )
plt . legend ( loc = " best " )
plt . savefig ( os . path . join ( self . dir_of_all , self . f_name + " _rotation_angle.png " ) )
plt . savefig ( os . path . join ( dir_of_all , f_name + " _rotation_angle.png " ) )
try :
var_res = np . array ( var_res )
@ -2674,7 +2674,7 @@ class eynollah:
sigma_des = 1
crop_img [ crop_img > 0 ] = 1
slope_corresponding_textregion = self . return_deskew_slop ( crop_img , sigma_des )
slope_corresponding_textregion = self . return_deskew_slop ( crop_img , sigma_des , dir_of_all = self . dir_of_all , f_name = self . f_name )
except :
slope_corresponding_textregion = 999
@ -2698,7 +2698,7 @@ class eynollah:
def get_slopes_and_deskew ( self , contours , textline_mask_tot ) :
slope_biggest = 0 # self.return_deskew_slop(img_int_p,sigma_des )
slope_biggest = 0 # self.return_deskew_slop(img_int_p,sigma_des , dir_of_all=self.dir_of_all, f_name=self.f_name )
num_cores = cpu_count ( )
q = Queue ( )
@ -8356,8 +8356,8 @@ class eynollah:
sigma = 2
main_page_deskew = True
slope_deskew = self . return_deskew_slop ( cv2 . erode ( textline_mask_tot_ea , self . kernel , iterations = 2 ) , sigma , main_page_deskew )
slope_first = 0 # self.return_deskew_slop(cv2.erode(textline_mask_tot_ea, self.kernel, iterations=2),sigma )
slope_deskew = self . return_deskew_slop ( cv2 . erode ( textline_mask_tot_ea , self . kernel , iterations = 2 ) , sigma , main_page_deskew , dir_of_all = self . dir_of_all , f_name = self . f_name )
slope_first = 0 # self.return_deskew_slop(cv2.erode(textline_mask_tot_ea, self.kernel, iterations=2),sigma , dir_of_all=self.dir_of_all, f_name=self.f_name )
if self . dir_of_deskewed is not None :
self . save_deskewed_image ( slope_deskew )