def modify_init(u2d,v2d,k2d,om2d,eps2d,vis2d):
   
# set inlet field in entre domain
   u2d=np.repeat(u_bc_west[None,:], repeats=ni, axis=0)
   k2d=np.repeat(k_bc_west[None,:], repeats=ni, axis=0)
   om2d=np.repeat(om_bc_west[None,:], repeats=ni, axis=0)

   vis2d=k2d/om2d+viscos

   return u2d,v2d,k2d,om2d,vis2d,eps2d,dist

def modify_inlet():

   global y_rans,y_rans,u_rans,v_rans,k_rans,om_rans,uv_rans,k_bc_west,eps_bc_west,om_bc_west

   return u_bc_west,v_bc_west,k_bc_west,om_bc_west,eps_bc_west,u2d_face_w,convw

def modify_conv(convw,convs):

   convs[:,0,:]=0
   convs[:,-1,:]=0

   return convw,convs

def modify_u(su2d,sp2d):

   global file1

   su2d[0,:]= su2d[0,:]+convw[0,:]*u_bc_west
   sp2d[0,:]= sp2d[0,:]-convw[0,:]
   vist=vis2d[0,:,]-viscos
   su2d[0,:]=su2d[0,:]+vist*aw_bound*u_bc_west
   sp2d[0,:]=sp2d[0,:]-vist*aw_bound


   if iter == 0:
      print('u(5)=%7.3E,u(10)=%7.3E,u(20)=%7.3E,u(30)=%7.3E,u(40)=%7.3E,u(50)=%7.3E,u(60)=%7.3E'\
 %(u2d[ni-5,5],u2d[ni-5,10],u2d[ni-5,20],u2d[ni-5,30],u2d[ni-5,40],u2d[ni-5,50],u2d[ni-5,60]))

   if iter == 0:
      print('file1 opened')
      l1=[iter,u2d[ni-5,5],u2d[ni-5,10],u2d[ni-5,20],u2d[ni-5,30],u2d[ni-5,40],\
           u2d[ni-5,50],u2d[ni-5,60]]
      np.savetxt('u-time-history.dat', l1, newline=" ")
      file1=open('u-time-history.dat','a') #append
   else:
      print('file1 printed')
      file1.write("\n")
      l1=[iter,u2d[ni-5,5],u2d[ni-5,10],u2d[ni-5,20],u2d[ni-5,30],u2d[ni-5,40],\
           u2d[ni-5,50],u2d[ni-5,60]]
      np.savetxt(file1, l1, newline=" ")
#         file1.write("\n")

   return su2d,sp2d

def modify_v(su2d,sp2d):
   su2d[0,:]= su2d[0,:]+convw[0,:]*v_bc_west
   sp2d[0,:]= sp2d[0,:]-convw[0,:]
   vist=vis2d[0,:]-viscos
   su2d[0,:]=su2d[0,:]+vist*aw_bound*v_bc_west
   sp2d[0,:]=sp2d[0,:]-vist*aw_bound

   return su2d,sp2d

def modify_k(su2d,sp2d):

   su2d[0,:]= su2d[0,:]+np.maximum(convw[0,:],0)*k_bc_west
   sp2d[0,:]= sp2d[0,:]-convw[0,:]
   vist=vis2d[0,:]-viscos
   su2d[0,:]=su2d[0,:]+vist*aw_bound*k_bc_west
   sp2d[0,:]=sp2d[0,:]-vist*aw_bound


   return su2d,sp2d

def modify_om(su2d,sp2d):


   su2d[0,:]= su2d[0,:]+np.maximum(convw[0,:],0)*om_bc_west
   sp2d[0,:]= sp2d[0,:]-convw[0,:]
   vist=vis2d[0,:]-viscos
   su2d[0,:]=su2d[0,:]+vist*aw_bound*om_bc_west
   sp2d[0,:]=sp2d[0,:]-vist*aw_bound

   return su2d,sp2d

def modify_outlet(convw):

# inlet
   flow_in=np.sum(convw[0,:])
   flow_out=np.sum(convw[-1,:])
#  flow_out=np.sum(convw[-2,:])
   area_out=np.sum(areaw[-1,:])

   uinc=(flow_in-flow_out)/area_out
   ares=areaw[-1,:]
   convw[-1,:]=convw[-1,:]+uinc*ares
#  convw[-1,:]=convw[-2,:]+uinc*ares

   print('area_out',area_out)

   flow_out_new=np.sum(convw[-1,:])

   print(f"{'flow_in: '} {flow_in:.3e},{'  flow_out: '} {flow_out:.3e},{'  flow_out_new: '} {flow_out_new:.3e},{'  uinc: '} {uinc:.3e}")

   return convw

def fix_omega():

   aw2d[:,0]=0
   ae2d[:,0]=0
   as2d[:,0]=0
   an2d[:,0]=0
   ap2d[:,0]=1
   su2d[:,0]=om_bc_south

   return aw2d,ae2d,as2d,an2d,ap2d,su2d,sp2d

def modify_vis(vis2d):

   return vis2d


def fix_k():

   return aw2d,ae2d,as2d,an2d,ap2d,su2d,sp2d