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!Environment Canada - Atmospheric Science and Technology License/Disclaimer, 
!                     version 3; Last Modified: May 7, 2008.
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***s/r extrwnd_tl - TLM of extrwnd  
*
#include "model_macros_f.h"
*

      subroutine extrwnd_tl 1,7
*
      implicit none
*
*author M.Tanguay 
*
*revision
* v3_31 - Tanguay M.    - initial MPI version
*
*object
*     see id section
*	
*implicits
#include "glb_ld.cdk"
#include "lun.cdk"
#include "vth.cdk"
#include "vt1.cdk"
#include "vtw.cdk"
#include "vthm.cdk"
#include "vt1m.cdk"
#include "vtwm.cdk"
#include "schm.cdk"
#include "hzd.cdk"
*
*modules
      integer  vmmlod,vmmget,vmmuld
      external vmmlod,vmmget,vmmuld
*
      integer pnerr, pnlkey1(100), pnlod
      integer i, j, k
      real pt1,pt2
*
      if (Schm_xwvt3.ne.0) call gem_stop ('EXTRWND_TL not done since no T3',-1)
*
*     ------------------------
*     NOTE: TW = T2 work space
*     ------------------------
*
*     Get fields in memory
*     --------------------
      pnlkey1(1) = VMM_KEY(uth)
      pnlkey1(2) = VMM_KEY(ut1)
      pnlkey1(3) = VMM_KEY(utw)
      pnlkey1(4) = VMM_KEY(vth)
      pnlkey1(5) = VMM_KEY(vt1)
      pnlkey1(6) = VMM_KEY(vtw)
      pnlkey1(7) = VMM_KEY(psdth)
      pnlkey1(8) = VMM_KEY(psdt1)
      pnlkey1(9) = VMM_KEY(psdtw)
      pnlod = 9 
*
*     TRAJECTORY
*     ----------
      pnlkey1(pnlod+1) = VMM_KEY(uthm)
      pnlkey1(pnlod+2) = VMM_KEY(ut1m)
      pnlkey1(pnlod+3) = VMM_KEY(utwm)
      pnlkey1(pnlod+4) = VMM_KEY(vthm)
      pnlkey1(pnlod+5) = VMM_KEY(vt1m)
      pnlkey1(pnlod+6) = VMM_KEY(vtwm)
      pnlkey1(pnlod+7) = VMM_KEY(psdthm)
      pnlkey1(pnlod+8) = VMM_KEY(psdt1m)
      pnlkey1(pnlod+9) = VMM_KEY(psdtwm)
      pnlod = pnlod+9
*
      pnerr = vmmlod(pnlkey1,pnlod)
*
      pnerr = VMM_GET_VAR(uth)
      pnerr = VMM_GET_VAR(ut1)
      pnerr = VMM_GET_VAR(utw)
      pnerr = VMM_GET_VAR(vth)
      pnerr = VMM_GET_VAR(vt1)
      pnerr = VMM_GET_VAR(vtw)
      pnerr = VMM_GET_VAR(psdth)
      pnerr = VMM_GET_VAR(psdt1)
      pnerr = VMM_GET_VAR(psdtw)
*
*     TRAJECTORY
*     ----------
      pnerr = VMM_GET_VAR(uthm)
      pnerr = VMM_GET_VAR(ut1m)
      pnerr = VMM_GET_VAR(utwm)
      pnerr = VMM_GET_VAR(vthm)
      pnerr = VMM_GET_VAR(vt1m)
      pnerr = VMM_GET_VAR(vtwm)
      pnerr = VMM_GET_VAR(psdthm)
      pnerr = VMM_GET_VAR(psdt1m)
      pnerr = VMM_GET_VAR(psdtwm)
*
*     Filtering
*     ---------
*
*     TRAJECTORY
*     ----------
      if (Hzd_t1_1_L) call hzd_hoffld (ut1m,  LDIST_DIM, G_nk, 1)
      if (Hzd_t1_1_L) call hzd_hoffld (vt1m,  LDIST_DIM, G_nk, 2)
      if (Hzd_t1_1_L) call hzd_hoffld (psdt1m,LDIST_DIM, G_nk, 3)
*
*     TLM
*     --- 
      if (Hzd_t1_1_L) call hzd_hoffld (ut1,   LDIST_DIM, G_nk, 1)
      if (Hzd_t1_1_L) call hzd_hoffld (vt1,   LDIST_DIM, G_nk, 2)
      if (Hzd_t1_1_L) call hzd_hoffld (psdt1, LDIST_DIM, G_nk, 3)
*
*     -------------------------------------------------
*     WIND EXTRAPOLATION using 2 time levels: t1 and t2
*     -------------------------------------------------
      if ( Schm_xwvt3 .eq. 0 ) then
*
      pt1 =  1.5
      pt2 = -0.5
*
*     TRAJECTORY
*     ----------
      do k=1,l_nk
      do j=1,l_nj
      do i=1,l_ni
         uthm(i,j,k) = pt1*ut1m(i,j,k) + pt2*utwm(i,j,k)
      enddo
      enddo
      enddo
*
      do k=1,l_nk
      do j=1,l_njv
      do i=1,l_ni
         vthm(i,j,k) = pt1*vt1m(i,j,k) + pt2*vtwm(i,j,k)
      enddo
      enddo
      enddo
*
      do k=1,l_nk
      do j=1,l_nj
      do i=1,l_ni
         psdthm(i,j,k)= pt1*psdt1m(i,j,k)+ pt2*psdtwm(i,j,k)
      enddo
      enddo
      enddo
*
*     TLM
*     ---
      do k=1,l_nk
      do j=1,l_nj
      do i=1,l_niu
         uth(i,j,k) = pt1*ut1(i,j,k) + pt2*utw(i,j,k)
      enddo
      enddo
      enddo
*
      do k=1,l_nk
      do j=1,l_njv
      do i=1,l_ni
         vth(i,j,k) = pt1*vt1(i,j,k) + pt2*vtw(i,j,k)
      enddo
      enddo
      enddo
*
      do k=1,l_nk
      do j=1,l_nj
      do i=1,l_ni
         psdth(i,j,k)= pt1*psdt1(i,j,k)+ pt2*psdtw(i,j,k)
      enddo
      enddo
      enddo
*
      else
*
*     NOT DONE 
*
      endif
*
      pnerr = vmmuld(-1,0)
*
      return
      end