source: LMDZ6/trunk/libf/phylmd/dyn1d/mod_1D_cases_read2.F90 @ 4553

!
! $Id: mod_1D_cases_read.F90 2373 2015-10-13 17:28:01Z jyg $
!
MODULE mod_1D_cases_read2

!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!
  !Declarations specifiques au cas standard
  character*80 :: fich_cas
  ! Discr?tisation 
  integer nlev_cas, nt_cas


  !profils environnementaux
  real, allocatable::  plev_cas(:,:),plevh_cas(:)
  real, allocatable::  ap_cas(:),bp_cas(:)

  real, allocatable::  z_cas(:,:),zh_cas(:)
  real, allocatable::  t_cas(:,:),q_cas(:,:),qv_cas(:,:),ql_cas(:,:),qi_cas(:,:),rh_cas(:,:)
  real, allocatable::  th_cas(:,:),thv_cas(:,:),thl_cas(:,:),rv_cas(:,:)
  real, allocatable::  u_cas(:,:),v_cas(:,:),vitw_cas(:,:),omega_cas(:,:)

  !forcing
  real, allocatable::  ht_cas(:,:),vt_cas(:,:),dt_cas(:,:),dtrad_cas(:,:)
  real, allocatable::  hth_cas(:,:),vth_cas(:,:),dth_cas(:,:)
  real, allocatable::  hq_cas(:,:),vq_cas(:,:),dq_cas(:,:)
  real, allocatable::  hr_cas(:,:),vr_cas(:,:),dr_cas(:,:)
  real, allocatable::  hu_cas(:,:),vu_cas(:,:),du_cas(:,:)
  real, allocatable::  hv_cas(:,:),vv_cas(:,:),dv_cas(:,:)
  real, allocatable::  ug_cas(:,:),vg_cas(:,:)
  real, allocatable::  lat_cas(:),sens_cas(:),ts_cas(:),ps_cas(:),ustar_cas(:)
  real, allocatable::  uw_cas(:,:),vw_cas(:,:),q1_cas(:,:),q2_cas(:,:),tke_cas(:)

  !champs interpoles
  real, allocatable::  plev_prof_cas(:)
  real, allocatable::  t_prof_cas(:)
  real, allocatable::  theta_prof_cas(:)
  real, allocatable::  thl_prof_cas(:)
  real, allocatable::  thv_prof_cas(:)
  real, allocatable::  q_prof_cas(:)
  real, allocatable::  qv_prof_cas(:)
  real, allocatable::  ql_prof_cas(:)
  real, allocatable::  qi_prof_cas(:)
  real, allocatable::  rh_prof_cas(:)
  real, allocatable::  rv_prof_cas(:)
  real, allocatable::  u_prof_cas(:)
  real, allocatable::  v_prof_cas(:)        
  real, allocatable::  vitw_prof_cas(:)
  real, allocatable::  omega_prof_cas(:)
  real, allocatable::  ug_prof_cas(:)
  real, allocatable::  vg_prof_cas(:)
  real, allocatable::  ht_prof_cas(:)
  real, allocatable::  hth_prof_cas(:)
  real, allocatable::  hq_prof_cas(:)
  real, allocatable::  vt_prof_cas(:)
  real, allocatable::  vth_prof_cas(:)
  real, allocatable::  vq_prof_cas(:)
  real, allocatable::  dt_prof_cas(:)
  real, allocatable::  dth_prof_cas(:)
  real, allocatable::  dtrad_prof_cas(:)
  real, allocatable::  dq_prof_cas(:)
  real, allocatable::  hu_prof_cas(:)
  real, allocatable::  hv_prof_cas(:)
  real, allocatable::  vu_prof_cas(:)
  real, allocatable::  vv_prof_cas(:)
  real, allocatable::  du_prof_cas(:)
  real, allocatable::  dv_prof_cas(:)
  real, allocatable::  uw_prof_cas(:)
  real, allocatable::  vw_prof_cas(:)
  real, allocatable::  q1_prof_cas(:)
  real, allocatable::  q2_prof_cas(:)


  real lat_prof_cas,sens_prof_cas,ts_prof_cas,ps_prof_cas,ustar_prof_cas,tke_prof_cas
  real o3_cas,orog_cas,albedo_cas,emiss_cas,t_skin_cas,q_skin_cas,mom_rough,heat_rough,rugos_cas,sand_cas,clay_cas



CONTAINS

  SUBROUTINE read_1D_cas
    implicit none

#include "netcdf.inc"

    INTEGER nid,rid,ierr
    INTEGER ii,jj

    fich_cas='setup/cas.nc'
    print*,'fich_cas ',fich_cas
    ierr = NF_OPEN(fich_cas,NF_NOWRITE,nid)
    print*,'fich_cas,NF_NOWRITE,nid ',fich_cas,NF_NOWRITE,nid
    if (ierr.NE.NF_NOERR) then
       write(*,*) 'ERROR: GROS Pb opening forcings nc file '
       write(*,*) NF_STRERROR(ierr)
       stop ""
    endif
    !.......................................................................
    ierr=NF_INQ_DIMID(nid,'lat',rid)
    IF (ierr.NE.NF_NOERR) THEN
       print*, 'Oh probleme lecture dimension lat'
    ENDIF
    ierr=NF_INQ_DIMLEN(nid,rid,ii)
    print*,'OK1 nid,rid,lat',nid,rid,ii
    !.......................................................................
    ierr=NF_INQ_DIMID(nid,'lon',rid)
    IF (ierr.NE.NF_NOERR) THEN
       print*, 'Oh probleme lecture dimension lon'
    ENDIF
    ierr=NF_INQ_DIMLEN(nid,rid,jj)
    print*,'OK2 nid,rid,lat',nid,rid,jj
    !.......................................................................
    ierr=NF_INQ_DIMID(nid,'lev',rid)
    IF (ierr.NE.NF_NOERR) THEN
       print*, 'Oh probleme lecture dimension zz'
    ENDIF
    ierr=NF_INQ_DIMLEN(nid,rid,nlev_cas)
    print*,'OK3 nid,rid,nlev_cas',nid,rid,nlev_cas
    !.......................................................................
    ierr=NF_INQ_DIMID(nid,'time',rid)
    print*,'nid,rid',nid,rid
    nt_cas=0
    IF (ierr.NE.NF_NOERR) THEN
       stop 'probleme lecture dimension sens'
    ENDIF
    ierr=NF_INQ_DIMLEN(nid,rid,nt_cas)
    print*,'OK4 nid,rid,nt_cas',nid,rid,nt_cas

!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!
    !profils moyens:
    allocate(plev_cas(nlev_cas,nt_cas))        
    allocate(z_cas(nlev_cas,nt_cas))
    allocate(t_cas(nlev_cas,nt_cas),q_cas(nlev_cas,nt_cas),rh_cas(nlev_cas,nt_cas))
    allocate(th_cas(nlev_cas,nt_cas),rv_cas(nlev_cas,nt_cas))
    allocate(u_cas(nlev_cas,nt_cas))
    allocate(v_cas(nlev_cas,nt_cas))

    !forcing
    allocate(ht_cas(nlev_cas,nt_cas),vt_cas(nlev_cas,nt_cas),dt_cas(nlev_cas,nt_cas),dtrad_cas(nlev_cas,nt_cas))
    allocate(hq_cas(nlev_cas,nt_cas),vq_cas(nlev_cas,nt_cas),dq_cas(nlev_cas,nt_cas))
    allocate(hth_cas(nlev_cas,nt_cas),vth_cas(nlev_cas,nt_cas),dth_cas(nlev_cas,nt_cas))
    allocate(hr_cas(nlev_cas,nt_cas),vr_cas(nlev_cas,nt_cas),dr_cas(nlev_cas,nt_cas))
    allocate(hu_cas(nlev_cas,nt_cas),vu_cas(nlev_cas,nt_cas),du_cas(nlev_cas,nt_cas))
    allocate(hv_cas(nlev_cas,nt_cas),vv_cas(nlev_cas,nt_cas),dv_cas(nlev_cas,nt_cas))
    allocate(vitw_cas(nlev_cas,nt_cas))
    allocate(ug_cas(nlev_cas,nt_cas))
    allocate(vg_cas(nlev_cas,nt_cas))
    allocate(lat_cas(nt_cas),sens_cas(nt_cas),ts_cas(nt_cas),ps_cas(nt_cas),ustar_cas(nt_cas))
    allocate(uw_cas(nlev_cas,nt_cas),vw_cas(nlev_cas,nt_cas),q1_cas(nlev_cas,nt_cas),q2_cas(nlev_cas,nt_cas))


    !champs interpoles
    allocate(plev_prof_cas(nlev_cas))
    allocate(t_prof_cas(nlev_cas))
    allocate(q_prof_cas(nlev_cas))
    allocate(u_prof_cas(nlev_cas))
    allocate(v_prof_cas(nlev_cas))

    allocate(vitw_prof_cas(nlev_cas))
    allocate(ug_prof_cas(nlev_cas))
    allocate(vg_prof_cas(nlev_cas))
    allocate(ht_prof_cas(nlev_cas))
    allocate(hq_prof_cas(nlev_cas))
    allocate(hu_prof_cas(nlev_cas))
    allocate(hv_prof_cas(nlev_cas))
    allocate(vt_prof_cas(nlev_cas))
    allocate(vq_prof_cas(nlev_cas))
    allocate(vu_prof_cas(nlev_cas))
    allocate(vv_prof_cas(nlev_cas))
    allocate(dt_prof_cas(nlev_cas))
    allocate(dtrad_prof_cas(nlev_cas))
    allocate(dq_prof_cas(nlev_cas))
    allocate(du_prof_cas(nlev_cas))
    allocate(dv_prof_cas(nlev_cas))
    allocate(uw_prof_cas(nlev_cas))
    allocate(vw_prof_cas(nlev_cas))
    allocate(q1_prof_cas(nlev_cas))
    allocate(q2_prof_cas(nlev_cas))

    print*,'Allocations OK'
    call read_cas2(nid,nlev_cas,nt_cas                                       &
         ,z_cas,plev_cas,t_cas,q_cas,rh_cas,th_cas,rv_cas,u_cas,v_cas         &
         ,ug_cas,vg_cas,vitw_cas,du_cas,hu_cas,vu_cas,dv_cas,hv_cas,vv_cas    &
         ,dt_cas,dtrad_cas,ht_cas,vt_cas,dq_cas,hq_cas,vq_cas                 &
         ,dth_cas,hth_cas,vth_cas,dr_cas,hr_cas,vr_cas,sens_cas,lat_cas,ts_cas&
         ,ustar_cas,uw_cas,vw_cas,q1_cas,q2_cas)
    print*,'Read cas OK'


  END SUBROUTINE read_1D_cas
  !**********************************************************************************************
  SUBROUTINE read2_1D_cas
    implicit none

#include "netcdf.inc"

    INTEGER nid,rid,ierr
    INTEGER ii,jj

    fich_cas='setup/cas.nc'
    print*,'fich_cas ',fich_cas
    ierr = NF_OPEN(fich_cas,NF_NOWRITE,nid)
    print*,'fich_cas,NF_NOWRITE,nid ',fich_cas,NF_NOWRITE,nid
    if (ierr.NE.NF_NOERR) then
       write(*,*) 'ERROR: GROS Pb opening forcings nc file '
       write(*,*) NF_STRERROR(ierr)
       stop ""
    endif
    !.......................................................................
    ierr=NF_INQ_DIMID(nid,'lat',rid)
    IF (ierr.NE.NF_NOERR) THEN
       print*, 'Oh probleme lecture dimension lat'
    ENDIF
    ierr=NF_INQ_DIMLEN(nid,rid,ii)
    print*,'OK1 read2: nid,rid,lat',nid,rid,ii
    !.......................................................................
    ierr=NF_INQ_DIMID(nid,'lon',rid)
    IF (ierr.NE.NF_NOERR) THEN
       print*, 'Oh probleme lecture dimension lon'
    ENDIF
    ierr=NF_INQ_DIMLEN(nid,rid,jj)
    print*,'OK2 read2: nid,rid,lat',nid,rid,jj
    !.......................................................................
    ierr=NF_INQ_DIMID(nid,'nlev',rid)
    IF (ierr.NE.NF_NOERR) THEN
       print*, 'Oh probleme lecture dimension nlev'
    ENDIF
    ierr=NF_INQ_DIMLEN(nid,rid,nlev_cas)
    print*,'OK3 read2: nid,rid,nlev_cas',nid,rid,nlev_cas
    !.......................................................................
    ierr=NF_INQ_DIMID(nid,'time',rid)
    nt_cas=0
    IF (ierr.NE.NF_NOERR) THEN
       stop 'Oh probleme lecture dimension time'
    ENDIF
    ierr=NF_INQ_DIMLEN(nid,rid,nt_cas)
    print*,'OK4 read2: nid,rid,nt_cas',nid,rid,nt_cas

!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!
    !profils moyens:
    allocate(plev_cas(nlev_cas,nt_cas),plevh_cas(nlev_cas+1))        
    allocate(z_cas(nlev_cas,nt_cas),zh_cas(nlev_cas+1))
    allocate(ap_cas(nlev_cas+1),bp_cas(nt_cas+1))
    allocate(t_cas(nlev_cas,nt_cas),q_cas(nlev_cas,nt_cas),qv_cas(nlev_cas,nt_cas),ql_cas(nlev_cas,nt_cas), &
         qi_cas(nlev_cas,nt_cas),rh_cas(nlev_cas,nt_cas))
    allocate(th_cas(nlev_cas,nt_cas),thl_cas(nlev_cas,nt_cas),thv_cas(nlev_cas,nt_cas),rv_cas(nlev_cas,nt_cas))
    allocate(u_cas(nlev_cas,nt_cas),v_cas(nlev_cas,nt_cas),vitw_cas(nlev_cas,nt_cas),omega_cas(nlev_cas,nt_cas))

    !forcing
    allocate(ht_cas(nlev_cas,nt_cas),vt_cas(nlev_cas,nt_cas),dt_cas(nlev_cas,nt_cas),dtrad_cas(nlev_cas,nt_cas))
    allocate(hq_cas(nlev_cas,nt_cas),vq_cas(nlev_cas,nt_cas),dq_cas(nlev_cas,nt_cas))
    allocate(hth_cas(nlev_cas,nt_cas),vth_cas(nlev_cas,nt_cas),dth_cas(nlev_cas,nt_cas))
    allocate(hr_cas(nlev_cas,nt_cas),vr_cas(nlev_cas,nt_cas),dr_cas(nlev_cas,nt_cas))
    allocate(hu_cas(nlev_cas,nt_cas),vu_cas(nlev_cas,nt_cas),du_cas(nlev_cas,nt_cas))
    allocate(hv_cas(nlev_cas,nt_cas),vv_cas(nlev_cas,nt_cas),dv_cas(nlev_cas,nt_cas))
    allocate(ug_cas(nlev_cas,nt_cas))
    allocate(vg_cas(nlev_cas,nt_cas))
    allocate(lat_cas(nt_cas),sens_cas(nt_cas),ts_cas(nt_cas),ps_cas(nt_cas),ustar_cas(nt_cas),tke_cas(nt_cas))
    allocate(uw_cas(nlev_cas,nt_cas),vw_cas(nlev_cas,nt_cas),q1_cas(nlev_cas,nt_cas),q2_cas(nlev_cas,nt_cas))



    !champs interpoles
    allocate(plev_prof_cas(nlev_cas))
    allocate(t_prof_cas(nlev_cas))
    allocate(theta_prof_cas(nlev_cas))
    allocate(thl_prof_cas(nlev_cas))
    allocate(thv_prof_cas(nlev_cas))
    allocate(q_prof_cas(nlev_cas))
    allocate(qv_prof_cas(nlev_cas))
    allocate(ql_prof_cas(nlev_cas))
    allocate(qi_prof_cas(nlev_cas))
    allocate(rh_prof_cas(nlev_cas))
    allocate(rv_prof_cas(nlev_cas))
    allocate(u_prof_cas(nlev_cas))
    allocate(v_prof_cas(nlev_cas))
    allocate(vitw_prof_cas(nlev_cas))
    allocate(omega_prof_cas(nlev_cas))
    allocate(ug_prof_cas(nlev_cas))
    allocate(vg_prof_cas(nlev_cas))
    allocate(ht_prof_cas(nlev_cas))
    allocate(hth_prof_cas(nlev_cas))
    allocate(hq_prof_cas(nlev_cas))
    allocate(hu_prof_cas(nlev_cas))
    allocate(hv_prof_cas(nlev_cas))
    allocate(vt_prof_cas(nlev_cas))
    allocate(vth_prof_cas(nlev_cas))
    allocate(vq_prof_cas(nlev_cas))
    allocate(vu_prof_cas(nlev_cas))
    allocate(vv_prof_cas(nlev_cas))
    allocate(dt_prof_cas(nlev_cas))
    allocate(dth_prof_cas(nlev_cas))
    allocate(dtrad_prof_cas(nlev_cas))
    allocate(dq_prof_cas(nlev_cas))
    allocate(du_prof_cas(nlev_cas))
    allocate(dv_prof_cas(nlev_cas))
    allocate(uw_prof_cas(nlev_cas))
    allocate(vw_prof_cas(nlev_cas))
    allocate(q1_prof_cas(nlev_cas))
    allocate(q2_prof_cas(nlev_cas))

    print*,'Allocations OK'
    call read2_cas (nid,nlev_cas,nt_cas,                                                                     &
         ap_cas,bp_cas,z_cas,plev_cas,zh_cas,plevh_cas,t_cas,th_cas,thv_cas,thl_cas,qv_cas,                    &
         ql_cas,qi_cas,rh_cas,rv_cas,u_cas,v_cas,vitw_cas,omega_cas,ug_cas,vg_cas,du_cas,hu_cas,vu_cas,        &
         dv_cas,hv_cas,vv_cas,dt_cas,ht_cas,vt_cas,dq_cas,hq_cas,vq_cas,dth_cas,hth_cas,vth_cas,               &
         dr_cas,hr_cas,vr_cas,dtrad_cas,sens_cas,lat_cas,ts_cas,ps_cas,ustar_cas,tke_cas,                      &
         uw_cas,vw_cas,q1_cas,q2_cas,orog_cas,albedo_cas,emiss_cas,t_skin_cas,q_skin_cas,mom_rough,heat_rough, &
         o3_cas,rugos_cas,clay_cas,sand_cas)
    print*,'Read2 cas OK'
    do ii=1,nlev_cas
       print*,'apres read2_cas, plev_cas=',ii,plev_cas(ii,1)
    enddo


  END SUBROUTINE read2_1D_cas

  !**********************************************************************************************
  SUBROUTINE old_read_SCM_cas
    use netcdf, only: nf90_get_var
    implicit none

#include "netcdf.inc"
#include "date_cas.h"

    INTEGER nid,rid,ierr
    INTEGER ii,jj,timeid
    REAL, ALLOCATABLE :: time_val(:)

    fich_cas='cas.nc'
    print*,'fich_cas ',fich_cas
    ierr = NF_OPEN(fich_cas,NF_NOWRITE,nid)
    print*,'fich_cas,NF_NOWRITE,nid ',fich_cas,NF_NOWRITE,nid
    if (ierr.NE.NF_NOERR) then
       write(*,*) 'ERROR: GROS Pb opening forcings nc file '
       write(*,*) NF_STRERROR(ierr)
       stop ""
    endif
    !.......................................................................
    ierr=NF_INQ_DIMID(nid,'lat',rid)
    IF (ierr.NE.NF_NOERR) THEN
       print*, 'Oh probleme lecture dimension lat'
    ENDIF
    ierr=NF_INQ_DIMLEN(nid,rid,ii)
    print*,'OK1 read2: nid,rid,lat',nid,rid,ii
    !.......................................................................
    ierr=NF_INQ_DIMID(nid,'lon',rid)
    IF (ierr.NE.NF_NOERR) THEN
       print*, 'Oh probleme lecture dimension lon'
    ENDIF
    ierr=NF_INQ_DIMLEN(nid,rid,jj)
    print*,'OK2 read2: nid,rid,lat',nid,rid,jj
    !.......................................................................
    ierr=NF_INQ_DIMID(nid,'lev',rid)
    IF (ierr.NE.NF_NOERR) THEN
       print*, 'Oh probleme lecture dimension nlev'
    ENDIF
    ierr=NF_INQ_DIMLEN(nid,rid,nlev_cas)
    print*,'OK3 read2: nid,rid,nlev_cas',nid,rid,nlev_cas
    IF ( .NOT. ( nlev_cas > 10 .AND. nlev_cas < 1000 )) THEN
       print*,'Valeur de nlev_cas peu probable'
       STOP
    ENDIF
    !.......................................................................
    ierr=NF_INQ_DIMID(nid,'time',rid)
    nt_cas=0
    IF (ierr.NE.NF_NOERR) THEN
       stop 'Oh probleme lecture dimension time'
    ENDIF
    ierr=NF_INQ_DIMLEN(nid,rid,nt_cas)
    print*,'OK4 read2: nid,rid,nt_cas',nid,rid,nt_cas
    ! Lecture de l'axe des temps
    print*,'LECTURE DU TEMPS'
    ierr=NF_INQ_VARID(nid,'time',timeid)
    if(ierr/=NF_NOERR) then
       print *,'Variable time manquante dans cas.nc:'
       ierr=NF_NOERR
    else
       allocate(time_val(nt_cas))
       ierr = NF90_GET_VAR(nid,timeid,time_val)
       if(ierr/=NF_NOERR) then
          print *,'Pb a la lecture de time cas.nc: '
       endif
    endif
    IF (nt_cas>1) THEN
       pdt_cas=time_val(2)-time_val(1)
    ELSE
       pdt_cas=0.
    ENDIF


!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!
    !profils moyens:
    allocate(plev_cas(nlev_cas,nt_cas),plevh_cas(nlev_cas+1))        
    allocate(z_cas(nlev_cas,nt_cas),zh_cas(nlev_cas+1))
    allocate(ap_cas(nlev_cas+1),bp_cas(nt_cas+1))
    allocate(t_cas(nlev_cas,nt_cas),q_cas(nlev_cas,nt_cas),qv_cas(nlev_cas,nt_cas),ql_cas(nlev_cas,nt_cas), &
         qi_cas(nlev_cas,nt_cas),rh_cas(nlev_cas,nt_cas))
    allocate(th_cas(nlev_cas,nt_cas),thl_cas(nlev_cas,nt_cas),thv_cas(nlev_cas,nt_cas),rv_cas(nlev_cas,nt_cas))
    allocate(u_cas(nlev_cas,nt_cas),v_cas(nlev_cas,nt_cas),vitw_cas(nlev_cas,nt_cas),omega_cas(nlev_cas,nt_cas))

    !forcing
    allocate(ht_cas(nlev_cas,nt_cas),vt_cas(nlev_cas,nt_cas),dt_cas(nlev_cas,nt_cas),dtrad_cas(nlev_cas,nt_cas))
    allocate(hq_cas(nlev_cas,nt_cas),vq_cas(nlev_cas,nt_cas),dq_cas(nlev_cas,nt_cas))
    allocate(hth_cas(nlev_cas,nt_cas),vth_cas(nlev_cas,nt_cas),dth_cas(nlev_cas,nt_cas))
    allocate(hr_cas(nlev_cas,nt_cas),vr_cas(nlev_cas,nt_cas),dr_cas(nlev_cas,nt_cas))
    allocate(hu_cas(nlev_cas,nt_cas),vu_cas(nlev_cas,nt_cas),du_cas(nlev_cas,nt_cas))
    allocate(hv_cas(nlev_cas,nt_cas),vv_cas(nlev_cas,nt_cas),dv_cas(nlev_cas,nt_cas))
    allocate(ug_cas(nlev_cas,nt_cas))
    allocate(vg_cas(nlev_cas,nt_cas))
    allocate(lat_cas(nt_cas),sens_cas(nt_cas),ts_cas(nt_cas),ps_cas(nt_cas),ustar_cas(nt_cas),tke_cas(nt_cas))
    allocate(uw_cas(nlev_cas,nt_cas),vw_cas(nlev_cas,nt_cas),q1_cas(nlev_cas,nt_cas),q2_cas(nlev_cas,nt_cas))



    !champs interpoles
    allocate(plev_prof_cas(nlev_cas))
    allocate(t_prof_cas(nlev_cas))
    allocate(theta_prof_cas(nlev_cas))
    allocate(thl_prof_cas(nlev_cas))
    allocate(thv_prof_cas(nlev_cas))
    allocate(q_prof_cas(nlev_cas))
    allocate(qv_prof_cas(nlev_cas))
    allocate(ql_prof_cas(nlev_cas))
    allocate(qi_prof_cas(nlev_cas))
    allocate(rh_prof_cas(nlev_cas))
    allocate(rv_prof_cas(nlev_cas))
    allocate(u_prof_cas(nlev_cas))
    allocate(v_prof_cas(nlev_cas))
    allocate(vitw_prof_cas(nlev_cas))
    allocate(omega_prof_cas(nlev_cas))
    allocate(ug_prof_cas(nlev_cas))
    allocate(vg_prof_cas(nlev_cas))
    allocate(ht_prof_cas(nlev_cas))
    allocate(hth_prof_cas(nlev_cas))
    allocate(hq_prof_cas(nlev_cas))
    allocate(hu_prof_cas(nlev_cas))
    allocate(hv_prof_cas(nlev_cas))
    allocate(vt_prof_cas(nlev_cas))
    allocate(vth_prof_cas(nlev_cas))
    allocate(vq_prof_cas(nlev_cas))
    allocate(vu_prof_cas(nlev_cas))
    allocate(vv_prof_cas(nlev_cas))
    allocate(dt_prof_cas(nlev_cas))
    allocate(dth_prof_cas(nlev_cas))
    allocate(dtrad_prof_cas(nlev_cas))
    allocate(dq_prof_cas(nlev_cas))
    allocate(du_prof_cas(nlev_cas))
    allocate(dv_prof_cas(nlev_cas))
    allocate(uw_prof_cas(nlev_cas))
    allocate(vw_prof_cas(nlev_cas))
    allocate(q1_prof_cas(nlev_cas))
    allocate(q2_prof_cas(nlev_cas))

    print*,'Allocations OK'
    call old_read_SCM (nid,nlev_cas,nt_cas,                                                                     &
         ap_cas,bp_cas,z_cas,plev_cas,zh_cas,plevh_cas,t_cas,th_cas,thv_cas,thl_cas,qv_cas,                    &
         ql_cas,qi_cas,rh_cas,rv_cas,u_cas,v_cas,vitw_cas,omega_cas,ug_cas,vg_cas,du_cas,hu_cas,vu_cas,        &
         dv_cas,hv_cas,vv_cas,dt_cas,ht_cas,vt_cas,dq_cas,hq_cas,vq_cas,dth_cas,hth_cas,vth_cas,               &
         dr_cas,hr_cas,vr_cas,dtrad_cas,sens_cas,lat_cas,ts_cas,ps_cas,ustar_cas,tke_cas,                      &
         uw_cas,vw_cas,q1_cas,q2_cas,orog_cas,albedo_cas,emiss_cas,t_skin_cas,q_skin_cas,mom_rough,heat_rough, &
         o3_cas,rugos_cas,clay_cas,sand_cas)
    print*,'Read2 cas OK'
    do ii=1,nlev_cas
       print*,'apres read2_cas, plev_cas=',ii,plev_cas(ii,1)
    enddo


  END SUBROUTINE old_read_SCM_cas


!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!
  SUBROUTINE deallocate2_1D_cases
    !profils environnementaux:
    deallocate(plev_cas,plevh_cas)

    deallocate(z_cas,zh_cas)
    deallocate(ap_cas,bp_cas)
    deallocate(t_cas,q_cas,qv_cas,ql_cas,qi_cas,rh_cas)
    deallocate(th_cas,thl_cas,thv_cas,rv_cas)
    deallocate(u_cas,v_cas,vitw_cas,omega_cas)

    !forcing
    deallocate(ht_cas,vt_cas,dt_cas,dtrad_cas)
    deallocate(hq_cas,vq_cas,dq_cas)
    deallocate(hth_cas,vth_cas,dth_cas)
    deallocate(hr_cas,vr_cas,dr_cas)
    deallocate(hu_cas,vu_cas,du_cas)
    deallocate(hv_cas,vv_cas,dv_cas)
    deallocate(ug_cas)
    deallocate(vg_cas)
    deallocate(lat_cas,sens_cas,ts_cas,ps_cas,ustar_cas,tke_cas,uw_cas,vw_cas,q1_cas,q2_cas)

    !champs interpoles
    deallocate(plev_prof_cas)
    deallocate(t_prof_cas)
    deallocate(theta_prof_cas)
    deallocate(thl_prof_cas)
    deallocate(thv_prof_cas)
    deallocate(q_prof_cas)
    deallocate(qv_prof_cas)
    deallocate(ql_prof_cas)
    deallocate(qi_prof_cas)
    deallocate(rh_prof_cas)
    deallocate(rv_prof_cas)
    deallocate(u_prof_cas)
    deallocate(v_prof_cas)
    deallocate(vitw_prof_cas)
    deallocate(omega_prof_cas)
    deallocate(ug_prof_cas)
    deallocate(vg_prof_cas)
    deallocate(ht_prof_cas)
    deallocate(hq_prof_cas)
    deallocate(hu_prof_cas)
    deallocate(hv_prof_cas)
    deallocate(vt_prof_cas)
    deallocate(vq_prof_cas)
    deallocate(vu_prof_cas)
    deallocate(vv_prof_cas)
    deallocate(dt_prof_cas)
    deallocate(dtrad_prof_cas)
    deallocate(dq_prof_cas)
    deallocate(du_prof_cas)
    deallocate(dv_prof_cas)
    deallocate(t_prof_cas)
    deallocate(u_prof_cas)
    deallocate(v_prof_cas)
    deallocate(uw_prof_cas)
    deallocate(vw_prof_cas)
    deallocate(q1_prof_cas)
    deallocate(q2_prof_cas)

  END SUBROUTINE deallocate2_1D_cases


END MODULE mod_1D_cases_read2
!=====================================================================
subroutine read_cas2(nid,nlevel,ntime                          &
     ,zz,pp,temp,qv,rh,theta,rv,u,v,ug,vg,w,                   &
     du,hu,vu,dv,hv,vv,dt,dtrad,ht,vt,dq,hq,vq,                     &
     dth,hth,vth,dr,hr,vr,sens,flat,ts,ustar,uw,vw,q1,q2)

  !program reading forcing of the case study
  use netcdf, only: nf90_get_var
  implicit none
#include "netcdf.inc"

  integer ntime,nlevel

  real zz(nlevel,ntime)
  real pp(nlevel,ntime)
  real temp(nlevel,ntime),qv(nlevel,ntime),rh(nlevel,ntime)
  real theta(nlevel,ntime),rv(nlevel,ntime)
  real u(nlevel,ntime)
  real v(nlevel,ntime)
  real ug(nlevel,ntime)
  real vg(nlevel,ntime)
  real w(nlevel,ntime)
  real du(nlevel,ntime),hu(nlevel,ntime),vu(nlevel,ntime)
  real dv(nlevel,ntime),hv(nlevel,ntime),vv(nlevel,ntime)
  real dt(nlevel,ntime),ht(nlevel,ntime),vt(nlevel,ntime)
  real dtrad(nlevel,ntime)
  real dq(nlevel,ntime),hq(nlevel,ntime),vq(nlevel,ntime)
  real dth(nlevel,ntime),hth(nlevel,ntime),vth(nlevel,ntime)
  real dr(nlevel,ntime),hr(nlevel,ntime),vr(nlevel,ntime)
  real flat(ntime),sens(ntime),ts(ntime),ustar(ntime)
  real uw(nlevel,ntime),vw(nlevel,ntime),q1(nlevel,ntime),q2(nlevel,ntime),resul(nlevel,ntime),resul1(ntime)


  integer nid, ierr, ierr1,ierr2,rid,i
  integer nbvar3d
  parameter(nbvar3d=39)
  integer var3didin(nbvar3d)
  character*5 name_var(1:nbvar3d)
  data name_var/'zz','pp','temp','qv','rh','theta','rv','u','v','ug','vg','w','advu','hu','vu',&
       'advv','hv','vv','advT','hT','vT','advq','hq','vq','advth','hth','vth','advr','hr','vr',&
       'radT','uw','vw','q1','q2','sens','flat','ts','ustar'/


  do i=1,nbvar3d
     print *,'Dans read_cas2, on va lire ',nid,i,name_var(i)
  enddo
  do i=1,nbvar3d
     ierr=NF_INQ_VARID(nid,name_var(i),var3didin(i)) 
     print *,'ierr=',i,ierr,name_var(i),var3didin(i)
     if(ierr/=NF_NOERR) then
        print *,'Variable manquante dans cas.nc:',name_var(i)
     endif
  enddo
  do i=1,nbvar3d
     print *,'Dans read_cas2, on va lire ',var3didin(i),name_var(i)
     if(i.LE.35) then
        ierr = NF90_GET_VAR(nid,var3didin(i),resul, count = [1, 1, nlevel, ntime])
        print *,'Dans read_cas2, on a lu ',ierr,var3didin(i),name_var(i)
        if(ierr/=NF_NOERR) then
           print *,'Pb a la lecture de cas.nc: ',name_var(i)
           stop "getvarup"
        endif
     else
        print *,'Dans read_cas2, on a lu ',ierr,var3didin(i),name_var(i)
        ierr = NF90_GET_VAR(nid,var3didin(i),resul1, count = [1, 1, ntime])
        if(ierr/=NF_NOERR) then
           print *,'Pb a la lecture de cas.nc: ',name_var(i)
           stop "getvarup"
        endif
     endif
     select case(i)
     case(1) ; zz=resul
     case(2) ; pp=resul
     case(3) ; temp=resul
     case(4) ; qv=resul
     case(5) ; rh=resul
     case(6) ; theta=resul
     case(7) ; rv=resul
     case(8) ; u=resul
     case(9) ; v=resul
     case(10) ; ug=resul
     case(11) ; vg=resul
     case(12) ; w=resul
     case(13) ; du=resul
     case(14) ; hu=resul
     case(15) ; vu=resul
     case(16) ; dv=resul
     case(17) ; hv=resul
     case(18) ; vv=resul
     case(19) ; dt=resul
     case(20) ; ht=resul
     case(21) ; vt=resul
     case(22) ; dq=resul
     case(23) ; hq=resul
     case(24) ; vq=resul
     case(25) ; dth=resul
     case(26) ; hth=resul
     case(27) ; vth=resul
     case(28) ; dr=resul
     case(29) ; hr=resul
     case(30) ; vr=resul
     case(31) ; dtrad=resul
     case(32) ; uw=resul
     case(33) ; vw=resul
     case(34) ; q1=resul
     case(35) ; q2=resul
     case(36) ; sens=resul1
     case(37) ; flat=resul1
     case(38) ; ts=resul1
     case(39) ; ustar=resul1
     end select
  enddo

  return 
end subroutine read_cas2
!======================================================================
subroutine read2_cas(nid,nlevel,ntime,                                       &
     ap,bp,zz,pp,zzh,pph,temp,theta,thv,thl,qv,ql,qi,rh,rv,u,v,vitw,omega,ug,vg,&
     du,hu,vu,dv,hv,vv,dt,ht,vt,dq,hq,vq,                                    &
     dth,hth,vth,dr,hr,vr,dtrad,sens,flat,ts,ps,ustar,tke,uw,vw,q1,q2,       &
     orog_cas,albedo_cas,emiss_cas,t_skin_cas,q_skin_cas,mom_rough,          &
     heat_rough,o3_cas,rugos_cas,clay_cas,sand_cas)

  !program reading forcing of the case study
  use netcdf, only: nf90_get_var
  implicit none
#include "netcdf.inc"

  integer ntime,nlevel

  real ap(nlevel+1),bp(nlevel+1)
  real zz(nlevel,ntime),zzh(nlevel+1)
  real pp(nlevel,ntime),pph(nlevel+1)
  real temp(nlevel,ntime),qv(nlevel,ntime),ql(nlevel,ntime),qi(nlevel,ntime),rh(nlevel,ntime)
  real theta(nlevel,ntime),thv(nlevel,ntime),thl(nlevel,ntime),rv(nlevel,ntime)
  real u(nlevel,ntime),v(nlevel,ntime)
  real ug(nlevel,ntime),vg(nlevel,ntime)
  real vitw(nlevel,ntime),omega(nlevel,ntime)
  real du(nlevel,ntime),hu(nlevel,ntime),vu(nlevel,ntime)
  real dv(nlevel,ntime),hv(nlevel,ntime),vv(nlevel,ntime)
  real dt(nlevel,ntime),ht(nlevel,ntime),vt(nlevel,ntime)
  real dtrad(nlevel,ntime)
  real dq(nlevel,ntime),hq(nlevel,ntime),vq(nlevel,ntime)
  real dth(nlevel,ntime),hth(nlevel,ntime),vth(nlevel,ntime),hthl(nlevel,ntime)
  real dr(nlevel,ntime),hr(nlevel,ntime),vr(nlevel,ntime)
  real flat(ntime),sens(ntime),ustar(ntime)
  real uw(nlevel,ntime),vw(nlevel,ntime),q1(nlevel,ntime),q2(nlevel,ntime)
  real ts(ntime),ps(ntime),tke(ntime)
  real orog_cas,albedo_cas,emiss_cas,t_skin_cas,q_skin_cas,mom_rough,heat_rough,o3_cas,rugos_cas,clay_cas,sand_cas
  real apbp(nlevel+1),resul(nlevel,ntime),resul1(nlevel),resul2(ntime),resul3


  integer nid, ierr,ierr1,ierr2,rid,i
  integer nbvar3d
  parameter(nbvar3d=62)
  integer var3didin(nbvar3d),missing_var(nbvar3d)
  character*12 name_var(1:nbvar3d)
  data name_var/'coor_par_a','coor_par_b','height_h','pressure_h',&
       'w','omega','ug','vg','uadv','uadvh','uadvv','vadv','vadvh','vadvv','tadv','tadvh','tadvv',&
       'qadv','qadvh','qadvv','thadv','thadvh','thadvv','thladvh','radv','radvh','radvv','radcool','q1','q2','ustress','vstress', &
       'rh',&
       'height_f','pressure_f','temp','theta','thv','thl','qv','ql','qi','rv','u','v',&
       'sfc_sens_flx','sfc_lat_flx','ts','ps','ustar','tke',&
       'orog','albedo','emiss','t_skin','q_skin','mom_rough','heat_rough','o3','rugos','clay','sand'/
  do i=1,nbvar3d
     missing_var(i)=0.
  enddo

  !-----------------------------------------------------------------------
  do i=1,nbvar3d
     ierr=NF_INQ_VARID(nid,name_var(i),var3didin(i)) 
     if(ierr/=NF_NOERR) then
        print *,'Variable manquante dans cas.nc:',i,name_var(i)
        ierr=NF_NOERR
        missing_var(i)=1
     else
        !-----------------------------------------------------------------------
        if(i.LE.4) then     ! Lecture des coord pression en (nlevelp1,lat,lon)
           ierr = NF90_GET_VAR(nid,var3didin(i),apbp, count = [1, 1, nlevel + 1])
           print *,'read2_cas(apbp), on a lu ',i,name_var(i)
           if(ierr/=NF_NOERR) then
              print *,'Pb a la lecture de cas.nc: ',name_var(i)
              stop "getvarup"
           endif
           !-----------------------------------------------------------------------
        else if(i.gt.4.and.i.LE.45) then   ! Lecture des variables en (time,nlevel,lat,lon)
           ierr = NF90_GET_VAR(nid,var3didin(i),resul, count = [1, 1, nlevel, ntime])
           print *,'read2_cas(resul), on a lu ',i,name_var(i)
           if(ierr/=NF_NOERR) then
              print *,'Pb a la lecture de cas.nc: ',name_var(i)
              stop "getvarup"
           endif
           !-----------------------------------------------------------------------
        else if (i.gt.45.and.i.LE.51) then   ! Lecture des variables en (time,lat,lon)
           ierr = NF90_GET_VAR(nid,var3didin(i),resul2, count = [1, 1, ntime])
           print *,'read2_cas(resul2), on a lu ',i,name_var(i)
           if(ierr/=NF_NOERR) then
              print *,'Pb a la lecture de cas.nc: ',name_var(i)
              stop "getvarup"
           endif
           !-----------------------------------------------------------------------
        else     ! Lecture des constantes (lat,lon)
           ierr = NF90_GET_VAR(nid,var3didin(i),resul3)
           print *,'read2_cas(resul3), on a lu ',i,name_var(i)
           if(ierr/=NF_NOERR) then
              print *,'Pb a la lecture de cas.nc: ',name_var(i)
              stop "getvarup"
           endif
        endif
     endif
     !-----------------------------------------------------------------------
     select case(i)
     case(1) ; ap=apbp       ! donnees indexees en nlevel+1
     case(2) ; bp=apbp
     case(3) ; zzh=apbp
     case(4) ; pph=apbp
     case(5) ; vitw=resul    ! donnees indexees en nlevel,time
     case(6) ; omega=resul
     case(7) ; ug=resul
     case(8) ; vg=resul
     case(9) ; du=resul
     case(10) ; hu=resul
     case(11) ; vu=resul
     case(12) ; dv=resul
     case(13) ; hv=resul
     case(14) ; vv=resul
     case(15) ; dt=resul
     case(16) ; ht=resul
     case(17) ; vt=resul
     case(18) ; dq=resul
     case(19) ; hq=resul
     case(20) ; vq=resul
     case(21) ; dth=resul
     case(22) ; hth=resul
     case(23) ; vth=resul
     case(24) ; hthl=resul
     case(25) ; dr=resul
     case(26) ; hr=resul
     case(27) ; vr=resul
     case(28) ; dtrad=resul
     case(29) ; q1=resul
     case(30) ; q2=resul
     case(31) ; uw=resul
     case(32) ; vw=resul
     case(33) ; rh=resul
     case(34) ; zz=resul      ! donnees en time,nlevel pour profil initial
     case(35) ; pp=resul
     case(36) ; temp=resul
     case(37) ; theta=resul
     case(38) ; thv=resul
     case(39) ; thl=resul
     case(40) ; qv=resul
     case(41) ; ql=resul
     case(42) ; qi=resul
     case(43) ; rv=resul
     case(44) ; u=resul
     case(45) ; v=resul
     case(46) ; sens=resul2   ! donnees indexees en time
     case(47) ; flat=resul2
     case(48) ; ts=resul2
     case(49) ; ps=resul2
     case(50) ; ustar=resul2
     case(51) ; tke=resul2
     case(52) ; orog_cas=resul3      ! constantes
     case(53) ; albedo_cas=resul3
     case(54) ; emiss_cas=resul3
     case(55) ; t_skin_cas=resul3
     case(56) ; q_skin_cas=resul3
     case(57) ; mom_rough=resul3
     case(58) ; heat_rough=resul3
     case(59) ; o3_cas=resul3        
     case(60) ; rugos_cas=resul3
     case(61) ; clay_cas=resul3
     case(62) ; sand_cas=resul3
     end select
     resul=0.
     resul1=0.
     resul2=0.
     resul3=0.
  enddo
  !-----------------------------------------------------------------------


  return 
end subroutine read2_cas

!======================================================================
subroutine old_read_SCM(nid,nlevel,ntime,                                       &
     ap,bp,zz,pp,zzh,pph,temp,theta,thv,thl,qv,ql,qi,rh,rv,u,v,vitw,omega,ug,vg,&
     du,hu,vu,dv,hv,vv,dt,ht,vt,dq,hq,vq,                                    &
     dth,hth,vth,dr,hr,vr,dtrad,sens,flat,ts,ps,ustar,tke,uw,vw,q1,q2,       &
     orog_cas,albedo_cas,emiss_cas,t_skin_cas,q_skin_cas,mom_rough,          &
     heat_rough,o3_cas,rugos_cas,clay_cas,sand_cas)

  !program reading forcing of the case study
  use netcdf, only: nf90_get_var
  implicit none
#include "netcdf.inc"

  integer ntime,nlevel,k,t

  real ap(nlevel+1),bp(nlevel+1)
  real zz(nlevel,ntime),zzh(nlevel+1)
  real pp(nlevel,ntime),pph(nlevel+1)
  !profils initiaux
  real temp0(nlevel),qv0(nlevel),ql0(nlevel),qi0(nlevel),u0(nlevel),v0(nlevel),tke0(nlevel)
  real pp0(nlevel)    
  real temp(nlevel,ntime),qv(nlevel,ntime),ql(nlevel,ntime),qi(nlevel,ntime),rh(nlevel,ntime)
  real theta(nlevel,ntime),thv(nlevel,ntime),thl(nlevel,ntime),rv(nlevel,ntime)
  real u(nlevel,ntime),v(nlevel,ntime),tke(nlevel,ntime)
  real ug(nlevel,ntime),vg(nlevel,ntime)
  real vitw(nlevel,ntime),omega(nlevel,ntime)
  real du(nlevel,ntime),hu(nlevel,ntime),vu(nlevel,ntime)
  real dv(nlevel,ntime),hv(nlevel,ntime),vv(nlevel,ntime)
  real dt(nlevel,ntime),ht(nlevel,ntime),vt(nlevel,ntime)
  real dtrad(nlevel,ntime)
  real dq(nlevel,ntime),hq(nlevel,ntime),vq(nlevel,ntime)
  real dth(nlevel,ntime),hth(nlevel,ntime),vth(nlevel,ntime),hthl(nlevel,ntime)
  real dr(nlevel,ntime),hr(nlevel,ntime),vr(nlevel,ntime)
  real flat(ntime),sens(ntime),ustar(ntime)
  real uw(nlevel,ntime),vw(nlevel,ntime),q1(nlevel,ntime),q2(nlevel,ntime)
  real ts(ntime),ps(ntime)
  real orog_cas,albedo_cas,emiss_cas,t_skin_cas,q_skin_cas,mom_rough,heat_rough,o3_cas,rugos_cas,clay_cas,sand_cas
  real apbp(nlevel+1),resul(nlevel,ntime),resul1(nlevel),resul2(ntime),resul3


  integer nid, ierr,ierr1,ierr2,rid,i
  integer nbvar3d
  parameter(nbvar3d=70)
  integer var3didin(nbvar3d),missing_var(nbvar3d)
  character*13 name_var(1:nbvar3d)
  data name_var/'coor_par_a','coor_par_b','height_h','pressure_h',&
       'temp','qv','ql','qi','u','v','tke','pressure',&
       'w','omega','ug','vg','uadv','uadvh','uadvv','vadv','vadvh','vadvv','tadv','tadvh','tadvv',&
       'qvadv','qvadvh','qvadvv','thadv','thadvh','thadvv','thladvh','radv','radvh','radvv','radcool','q1','q2','ustress', &
       'vstress','rh',&
       'height_f','pressure_forc','tempt','theta','thv','thl','qvt','qlt','qit','rv','ut','vt','tket',&
       'sfc_sens_flx','sfc_lat_flx','ts','ps','ustar',&
       'orog','albedo','emiss','t_skin','q_skin','mom_rough','heat_rough','o3','rugos','clay','sand'/
  do i=1,nbvar3d
     missing_var(i)=0.
  enddo

  !-----------------------------------------------------------------------

  print*,'ON EST LA'
  do i=1,nbvar3d
     ierr=NF_INQ_VARID(nid,name_var(i),var3didin(i)) 
     if(ierr/=NF_NOERR) then
        print *,'Variable manquante dans cas.nc:',i,name_var(i)
        ierr=NF_NOERR
        missing_var(i)=1
     else
        !-----------------------------------------------------------------------
        if(i.LE.4) then     ! Lecture des coord pression en (nlevelp1,lat,lon)
           ierr = NF90_GET_VAR(nid,var3didin(i),apbp)
           print *,'read2_cas(apbp), on a lu ',i,name_var(i)
           if(ierr/=NF_NOERR) then
              print *,'Pb a la lecture de cas.nc: ',name_var(i)
              stop "getvarup"
           endif
           !-----------------------------------------------------------------------
        else if(i.gt.4.and.i.LE.12) then   ! Lecture des variables en (time,nlevel,lat,lon)
           ierr = NF90_GET_VAR(nid,var3didin(i),resul1)
           print *,'read2_cas(resul1), on a lu ',i,name_var(i)
           if(ierr/=NF_NOERR) then
              print *,'Pb a la lecture de cas.nc: ',name_var(i)
              stop "getvarup"
           endif
           print*,'Lecture de la variable #i ',i,name_var(i),minval(resul1),maxval(resul1)
           !-----------------------------------------------------------------------
        else if(i.gt.12.and.i.LE.54) then   ! Lecture des variables en (time,nlevel,lat,lon)
           ierr = NF90_GET_VAR(nid,var3didin(i),resul)
           print *,'read2_cas(resul), on a lu ',i,name_var(i)
           if(ierr/=NF_NOERR) then
              print *,'Pb a la lecture de cas.nc: ',name_var(i)
              stop "getvarup"
           endif
           print*,'Lecture de la variable #i ',i,name_var(i),minval(resul),maxval(resul)
           !-----------------------------------------------------------------------
        else if (i.gt.54.and.i.LE.65) then   ! Lecture des variables en (time,lat,lon)
           ierr = NF90_GET_VAR(nid,var3didin(i),resul2)
           print *,'read2_cas(resul2), on a lu ',i,name_var(i)
           if(ierr/=NF_NOERR) then
              print *,'Pb a la lecture de cas.nc: ',name_var(i)
              stop "getvarup"
           endif
           print*,'Lecture de la variable #i  ',i,name_var(i),minval(resul2),maxval(resul2)
           !-----------------------------------------------------------------------
        else     ! Lecture des constantes (lat,lon)
           ierr = NF90_GET_VAR(nid,var3didin(i),resul3)
           print *,'read2_cas(resul3), on a lu ',i,name_var(i)
           if(ierr/=NF_NOERR) then
              print *,'Pb a la lecture de cas.nc: ',name_var(i)
              stop "getvarup"
           endif
           print*,'Lecture de la variable #i ',i,name_var(i),resul3
        endif
     endif
     !-----------------------------------------------------------------------
     select case(i)
        !case(1) ; ap=apbp       ! donnees indexees en nlevel+1
        ! case(2) ; bp=apbp
     case(3) ; zzh=apbp
     case(4) ; pph=apbp
     case(5) ; temp0=resul1    ! donnees initiales
     case(6) ; qv0=resul1
     case(7) ; ql0=resul1
     case(8) ; qi0=resul1
     case(9) ; u0=resul1
     case(10) ; v0=resul1
     case(11) ; tke0=resul1
     case(12) ; pp0=resul1
     case(13) ; vitw=resul    ! donnees indexees en nlevel,time
     case(14) ; omega=resul
     case(15) ; ug=resul
     case(16) ; vg=resul
     case(17) ; du=resul
     case(18) ; hu=resul
     case(19) ; vu=resul
     case(20) ; dv=resul
     case(21) ; hv=resul
     case(22) ; vv=resul
     case(23) ; dt=resul
     case(24) ; ht=resul
     case(25) ; vt=resul
     case(26) ; dq=resul
     case(27) ; hq=resul
     case(28) ; vq=resul
     case(29) ; dth=resul
     case(30) ; hth=resul
     case(31) ; vth=resul
     case(32) ; hthl=resul
     case(33) ; dr=resul
     case(34) ; hr=resul
     case(35) ; vr=resul
     case(36) ; dtrad=resul
     case(37) ; q1=resul
     case(38) ; q2=resul
     case(39) ; uw=resul
     case(40) ; vw=resul
     case(41) ; rh=resul
     case(42) ; zz=resul      ! donnees en time,nlevel pour profil initial
     case(43) ; pp=resul
     case(44) ; temp=resul
     case(45) ; theta=resul
     case(46) ; thv=resul
     case(47) ; thl=resul
     case(48) ; qv=resul
     case(49) ; ql=resul
     case(50) ; qi=resul
     case(51) ; rv=resul
     case(52) ; u=resul
     case(53) ; v=resul
     case(54) ; tke=resul
     case(55) ; sens=resul2   ! donnees indexees en time
     case(56) ; flat=resul2
     case(57) ; ts=resul2
     case(58) ; ps=resul2
     case(59) ; ustar=resul2
     case(60) ; orog_cas=resul3      ! constantes
     case(61) ; albedo_cas=resul3
     case(62) ; emiss_cas=resul3
     case(63) ; t_skin_cas=resul3
     case(64) ; q_skin_cas=resul3
     case(65) ; mom_rough=resul3
     case(66) ; heat_rough=resul3
     case(67) ; o3_cas=resul3        
     case(68) ; rugos_cas=resul3
     case(69) ; clay_cas=resul3
     case(70) ; sand_cas=resul3
     end select
     resul=0.
     resul1=0.
     resul2=0.
     resul3=0.
  enddo
  print*,'Lecture de la variable APRES ,sens ',minval(sens),maxval(sens)
  print*,'Lecture de la variable APRES ,flat ',minval(flat),maxval(flat)

  !CR:ATTENTION EN ATTENTE DE REGLER LA QUESTION DU PAS DE TEMPS INITIAL
  do t=1,ntime
     do k=1,nlevel
        temp(k,t)=temp0(k)
        qv(k,t)=qv0(k)
        ql(k,t)=ql0(k)
        qi(k,t)=qi0(k)
        u(k,t)=u0(k)
        v(k,t)=v0(k)
        tke(k,t)=tke0(k)
     enddo
  enddo
  !-----------------------------------------------------------------------

  return 
end subroutine old_read_SCM
!======================================================================

!======================================================================
SUBROUTINE interp_case_time2(day,day1,annee_ref                &
     !    &         ,year_cas,day_cas,nt_cas,pdt_forc,nlev_cas      &
     ,nt_cas,nlev_cas                                       &
     ,ts_cas,ps_cas,plev_cas,t_cas,q_cas,u_cas,v_cas               &
     ,ug_cas,vg_cas,vitw_cas,du_cas,hu_cas,vu_cas           &
     ,dv_cas,hv_cas,vv_cas,dt_cas,ht_cas,vt_cas,dtrad_cas   &
     ,dq_cas,hq_cas,vq_cas,lat_cas,sens_cas,ustar_cas       &
     ,uw_cas,vw_cas,q1_cas,q2_cas                           &
     ,ts_prof_cas,plev_prof_cas,t_prof_cas,q_prof_cas       &
     ,u_prof_cas,v_prof_cas,ug_prof_cas,vg_prof_cas         &
     ,vitw_prof_cas,du_prof_cas,hu_prof_cas,vu_prof_cas     &
     ,dv_prof_cas,hv_prof_cas,vv_prof_cas,dt_prof_cas       &
     ,ht_prof_cas,vt_prof_cas,dtrad_prof_cas,dq_prof_cas    &
     ,hq_prof_cas,vq_prof_cas,lat_prof_cas,sens_prof_cas    &
     ,ustar_prof_cas,uw_prof_cas,vw_prof_cas,q1_prof_cas,q2_prof_cas)


  implicit none

  !---------------------------------------------------------------------------------------
  ! Time interpolation of a 2D field to the timestep corresponding to day
  !
  ! day: current julian day (e.g. 717538.2)
  ! day1: first day of the simulation
  ! nt_cas: total nb of data in the forcing 
  ! pdt_cas: total time interval (in sec) between 2 forcing data
  !---------------------------------------------------------------------------------------

#include "compar1d.h"
#include "date_cas.h"

  ! inputs:
  integer annee_ref
  integer nt_cas,nlev_cas
  real day, day1,day_cas
  real ts_cas(nt_cas),ps_cas(nt_cas)
  real plev_cas(nlev_cas,nt_cas)
  real t_cas(nlev_cas,nt_cas),q_cas(nlev_cas,nt_cas)
  real u_cas(nlev_cas,nt_cas),v_cas(nlev_cas,nt_cas)
  real ug_cas(nlev_cas,nt_cas),vg_cas(nlev_cas,nt_cas)
  real vitw_cas(nlev_cas,nt_cas)
  real du_cas(nlev_cas,nt_cas),hu_cas(nlev_cas,nt_cas),vu_cas(nlev_cas,nt_cas)
  real dv_cas(nlev_cas,nt_cas),hv_cas(nlev_cas,nt_cas),vv_cas(nlev_cas,nt_cas)
  real dt_cas(nlev_cas,nt_cas),ht_cas(nlev_cas,nt_cas),vt_cas(nlev_cas,nt_cas)
  real dtrad_cas(nlev_cas,nt_cas)
  real dq_cas(nlev_cas,nt_cas),hq_cas(nlev_cas,nt_cas),vq_cas(nlev_cas,nt_cas)
  real lat_cas(nt_cas)
  real sens_cas(nt_cas)
  real ustar_cas(nt_cas),uw_cas(nlev_cas,nt_cas),vw_cas(nlev_cas,nt_cas)
  real q1_cas(nlev_cas,nt_cas),q2_cas(nlev_cas,nt_cas)

  ! outputs:
  real plev_prof_cas(nlev_cas)
  real t_prof_cas(nlev_cas),q_prof_cas(nlev_cas)
  real u_prof_cas(nlev_cas),v_prof_cas(nlev_cas)
  real ug_prof_cas(nlev_cas),vg_prof_cas(nlev_cas)
  real vitw_prof_cas(nlev_cas)
  real du_prof_cas(nlev_cas),hu_prof_cas(nlev_cas),vu_prof_cas(nlev_cas)
  real dv_prof_cas(nlev_cas),hv_prof_cas(nlev_cas),vv_prof_cas(nlev_cas)
  real dt_prof_cas(nlev_cas),ht_prof_cas(nlev_cas),vt_prof_cas(nlev_cas)
  real dtrad_prof_cas(nlev_cas)
  real dq_prof_cas(nlev_cas),hq_prof_cas(nlev_cas),vq_prof_cas(nlev_cas)
  real lat_prof_cas,sens_prof_cas,ts_prof_cas,ustar_prof_cas
  real uw_prof_cas(nlev_cas),vw_prof_cas(nlev_cas),q1_prof_cas(nlev_cas),q2_prof_cas(nlev_cas)
  ! local:
  integer it_cas1, it_cas2,k
  real timeit,time_cas1,time_cas2,frac


  print*,'Check time',day1,day_ju_ini_cas,day_deb+1,pdt_cas

  ! On teste si la date du cas AMMA est correcte.
  ! C est pour memoire car en fait les fichiers .def
  ! sont censes etre corrects.
  ! A supprimer a terme (MPL 20150623)
  !     if ((forcing_type.eq.10).and.(1.eq.0)) then
  ! Check that initial day of the simulation consistent with AMMA case:
  !      if (annee_ref.ne.2006) then
  !       print*,'Pour AMMA, annee_ref doit etre 2006'
  !       print*,'Changer annee_ref dans run.def'
  !       stop
  !      endif
  !      if (annee_ref.eq.2006 .and. day1.lt.day_cas) then
  !       print*,'AMMA a debute le 10 juillet 2006',day1,day_cas
  !       print*,'Changer dayref dans run.def'
  !       stop
  !      endif
  !      if (annee_ref.eq.2006 .and. day1.gt.day_cas+1) then
  !       print*,'AMMA a fini le 11 juillet'
  !       print*,'Changer dayref ou nday dans run.def'
  !       stop
  !      endif
  !      endif

  ! Determine timestep relative to the 1st day:
  !       timeit=(day-day1)*86400.
  !       if (annee_ref.eq.1992) then
  !        timeit=(day-day_cas)*86400.
  !       else
  !        timeit=(day+61.-1.)*86400. ! 61 days between Nov01 and Dec31 1992
  !       endif
  timeit=(day-day_ju_ini_cas)*86400
  print *,'day=',day
  print *,'day_ju_ini_cas=',day_ju_ini_cas
  print *,'pdt_cas=',pdt_cas
  print *,'timeit=',timeit
  print *,'nt_cas=',nt_cas

  ! Determine the closest observation times:
  !       it_cas1=INT(timeit/pdt_cas)+1
  !       it_cas2=it_cas1 + 1
  !       time_cas1=(it_cas1-1)*pdt_cas
  !       time_cas2=(it_cas2-1)*pdt_cas

  it_cas1=INT(timeit/pdt_cas)+1
  IF (it_cas1 .EQ. nt_cas) THEN
     it_cas2=it_cas1 
  ELSE
     it_cas2=it_cas1 + 1
  ENDIF
  time_cas1=(it_cas1-1)*pdt_cas
  time_cas2=(it_cas2-1)*pdt_cas
  print *,'it_cas1,it_cas2,time_cas1,time_cas2=',it_cas1,it_cas2,time_cas1,time_cas2

  if (it_cas1 .gt. nt_cas) then
     write(*,*) 'PB-stop: day, day_ju_ini_cas,it_cas1, it_cas2, timeit: '            &
          ,day,day_ju_ini_cas,it_cas1,it_cas2,timeit
     stop
  endif

  ! time interpolation:
  IF (it_cas1 .EQ. it_cas2) THEN
     frac=0.
  ELSE
     frac=(time_cas2-timeit)/(time_cas2-time_cas1)
     frac=max(frac,0.0)
  ENDIF

  lat_prof_cas = lat_cas(it_cas2)                                       &
       -frac*(lat_cas(it_cas2)-lat_cas(it_cas1)) 
  sens_prof_cas = sens_cas(it_cas2)                                     &
       -frac*(sens_cas(it_cas2)-sens_cas(it_cas1))
  ts_prof_cas = ts_cas(it_cas2)                                         &
       -frac*(ts_cas(it_cas2)-ts_cas(it_cas1))
  ustar_prof_cas = ustar_cas(it_cas2)                                   &
       -frac*(ustar_cas(it_cas2)-ustar_cas(it_cas1))

  do k=1,nlev_cas
     plev_prof_cas(k) = plev_cas(k,it_cas2)                               &
          -frac*(plev_cas(k,it_cas2)-plev_cas(k,it_cas1))
     t_prof_cas(k) = t_cas(k,it_cas2)                               &
          -frac*(t_cas(k,it_cas2)-t_cas(k,it_cas1))
     q_prof_cas(k) = q_cas(k,it_cas2)                               &
          -frac*(q_cas(k,it_cas2)-q_cas(k,it_cas1))
     u_prof_cas(k) = u_cas(k,it_cas2)                               &
          -frac*(u_cas(k,it_cas2)-u_cas(k,it_cas1))
     v_prof_cas(k) = v_cas(k,it_cas2)                               &
          -frac*(v_cas(k,it_cas2)-v_cas(k,it_cas1))
     ug_prof_cas(k) = ug_cas(k,it_cas2)                               &
          -frac*(ug_cas(k,it_cas2)-ug_cas(k,it_cas1))
     vg_prof_cas(k) = vg_cas(k,it_cas2)                               &
          -frac*(vg_cas(k,it_cas2)-vg_cas(k,it_cas1))
     vitw_prof_cas(k) = vitw_cas(k,it_cas2)                               &
          -frac*(vitw_cas(k,it_cas2)-vitw_cas(k,it_cas1))
     du_prof_cas(k) = du_cas(k,it_cas2)                                   &
          -frac*(du_cas(k,it_cas2)-du_cas(k,it_cas1))
     hu_prof_cas(k) = hu_cas(k,it_cas2)                                   &
          -frac*(hu_cas(k,it_cas2)-hu_cas(k,it_cas1))
     vu_prof_cas(k) = vu_cas(k,it_cas2)                                   &
          -frac*(vu_cas(k,it_cas2)-vu_cas(k,it_cas1))
     dv_prof_cas(k) = dv_cas(k,it_cas2)                                   &
          -frac*(dv_cas(k,it_cas2)-dv_cas(k,it_cas1))
     hv_prof_cas(k) = hv_cas(k,it_cas2)                                   &
          -frac*(hv_cas(k,it_cas2)-hv_cas(k,it_cas1))
     vv_prof_cas(k) = vv_cas(k,it_cas2)                                   &
          -frac*(vv_cas(k,it_cas2)-vv_cas(k,it_cas1))
     dt_prof_cas(k) = dt_cas(k,it_cas2)                                   &
          -frac*(dt_cas(k,it_cas2)-dt_cas(k,it_cas1))
     ht_prof_cas(k) = ht_cas(k,it_cas2)                                   &
          -frac*(ht_cas(k,it_cas2)-ht_cas(k,it_cas1))
     vt_prof_cas(k) = vt_cas(k,it_cas2)                                   &
          -frac*(vt_cas(k,it_cas2)-vt_cas(k,it_cas1))
     dtrad_prof_cas(k) = dtrad_cas(k,it_cas2)                                   &
          -frac*(dtrad_cas(k,it_cas2)-dtrad_cas(k,it_cas1))
     dq_prof_cas(k) = dq_cas(k,it_cas2)                                   &
          -frac*(dq_cas(k,it_cas2)-dq_cas(k,it_cas1))
     hq_prof_cas(k) = hq_cas(k,it_cas2)                                   &
          -frac*(hq_cas(k,it_cas2)-hq_cas(k,it_cas1))
     vq_prof_cas(k) = vq_cas(k,it_cas2)                                   &
          -frac*(vq_cas(k,it_cas2)-vq_cas(k,it_cas1))
     uw_prof_cas(k) = uw_cas(k,it_cas2)                                   &
          -frac*(uw_cas(k,it_cas2)-uw_cas(k,it_cas1))
     vw_prof_cas(k) = vw_cas(k,it_cas2)                                   &
          -frac*(vw_cas(k,it_cas2)-vw_cas(k,it_cas1))
     q1_prof_cas(k) = q1_cas(k,it_cas2)                                   &
          -frac*(q1_cas(k,it_cas2)-q1_cas(k,it_cas1))
     q2_prof_cas(k) = q2_cas(k,it_cas2)                                   &
          -frac*(q2_cas(k,it_cas2)-q2_cas(k,it_cas1))
  enddo

  return
END SUBROUTINE interp_case_time2

!**********************************************************************************************
SUBROUTINE interp2_case_time(day,day1,annee_ref                           &
     !    &         ,year_cas,day_cas,nt_cas,pdt_forc,nlev_cas                         &
     ,nt_cas,nlev_cas                                                   &
     ,ts_cas,ps_cas,plev_cas,t_cas,theta_cas,thv_cas,thl_cas            &
     ,qv_cas,ql_cas,qi_cas,u_cas,v_cas                                  &
     ,ug_cas,vg_cas,vitw_cas,omega_cas,du_cas,hu_cas,vu_cas             &
     ,dv_cas,hv_cas,vv_cas,dt_cas,ht_cas,vt_cas,dtrad_cas               &
     ,dq_cas,hq_cas,vq_cas,dth_cas,hth_cas,vth_cas                      &
     ,lat_cas,sens_cas,ustar_cas                                        &
     ,uw_cas,vw_cas,q1_cas,q2_cas,tke_cas                               &
     !
     ,ts_prof_cas,plev_prof_cas,t_prof_cas,theta_prof_cas               &
     ,thv_prof_cas,thl_prof_cas,qv_prof_cas,ql_prof_cas,qi_prof_cas     &
     ,u_prof_cas,v_prof_cas,ug_prof_cas,vg_prof_cas                     &
     ,vitw_prof_cas,omega_prof_cas,du_prof_cas,hu_prof_cas,vu_prof_cas  &
     ,dv_prof_cas,hv_prof_cas,vv_prof_cas,dt_prof_cas                   &
     ,ht_prof_cas,vt_prof_cas,dtrad_prof_cas,dq_prof_cas                &
     ,hq_prof_cas,vq_prof_cas,dth_prof_cas,hth_prof_cas,vth_prof_cas    &
     ,lat_prof_cas,sens_prof_cas                                        &
     ,ustar_prof_cas,uw_prof_cas,vw_prof_cas,q1_prof_cas,q2_prof_cas,tke_prof_cas)


  implicit none

  !---------------------------------------------------------------------------------------
  ! Time interpolation of a 2D field to the timestep corresponding to day
  !
  ! day: current julian day (e.g. 717538.2)
  ! day1: first day of the simulation
  ! nt_cas: total nb of data in the forcing 
  ! pdt_cas: total time interval (in sec) between 2 forcing data
  !---------------------------------------------------------------------------------------

#include "compar1d.h"
#include "date_cas.h"

  ! inputs:
  integer annee_ref
  integer nt_cas,nlev_cas
  real day, day1,day_cas
  real ts_cas(nt_cas),ps_cas(nt_cas)
  real plev_cas(nlev_cas,nt_cas)
  real t_cas(nlev_cas,nt_cas),theta_cas(nlev_cas,nt_cas),thv_cas(nlev_cas,nt_cas),thl_cas(nlev_cas,nt_cas)
  real qv_cas(nlev_cas,nt_cas),ql_cas(nlev_cas,nt_cas),qi_cas(nlev_cas,nt_cas)
  real u_cas(nlev_cas,nt_cas),v_cas(nlev_cas,nt_cas)
  real ug_cas(nlev_cas,nt_cas),vg_cas(nlev_cas,nt_cas)
  real vitw_cas(nlev_cas,nt_cas),omega_cas(nlev_cas,nt_cas)
  real du_cas(nlev_cas,nt_cas),hu_cas(nlev_cas,nt_cas),vu_cas(nlev_cas,nt_cas)
  real dv_cas(nlev_cas,nt_cas),hv_cas(nlev_cas,nt_cas),vv_cas(nlev_cas,nt_cas)
  real dt_cas(nlev_cas,nt_cas),ht_cas(nlev_cas,nt_cas),vt_cas(nlev_cas,nt_cas)
  real dth_cas(nlev_cas,nt_cas),hth_cas(nlev_cas,nt_cas),vth_cas(nlev_cas,nt_cas)
  real dtrad_cas(nlev_cas,nt_cas)
  real dq_cas(nlev_cas,nt_cas),hq_cas(nlev_cas,nt_cas),vq_cas(nlev_cas,nt_cas)
  real lat_cas(nt_cas),sens_cas(nt_cas),tke_cas(nt_cas)
  real ustar_cas(nt_cas),uw_cas(nlev_cas,nt_cas),vw_cas(nlev_cas,nt_cas)
  real q1_cas(nlev_cas,nt_cas),q2_cas(nlev_cas,nt_cas)

  ! outputs:
  real plev_prof_cas(nlev_cas)
  real t_prof_cas(nlev_cas),theta_prof_cas(nlev_cas),thl_prof_cas(nlev_cas),thv_prof_cas(nlev_cas)
  real qv_prof_cas(nlev_cas),ql_prof_cas(nlev_cas),qi_prof_cas(nlev_cas)
  real u_prof_cas(nlev_cas),v_prof_cas(nlev_cas)
  real ug_prof_cas(nlev_cas),vg_prof_cas(nlev_cas)
  real vitw_prof_cas(nlev_cas),omega_prof_cas(nlev_cas)
  real du_prof_cas(nlev_cas),hu_prof_cas(nlev_cas),vu_prof_cas(nlev_cas)
  real dv_prof_cas(nlev_cas),hv_prof_cas(nlev_cas),vv_prof_cas(nlev_cas)
  real dt_prof_cas(nlev_cas),ht_prof_cas(nlev_cas),vt_prof_cas(nlev_cas)
  real dth_prof_cas(nlev_cas),hth_prof_cas(nlev_cas),vth_prof_cas(nlev_cas)
  real dtrad_prof_cas(nlev_cas)
  real dq_prof_cas(nlev_cas),hq_prof_cas(nlev_cas),vq_prof_cas(nlev_cas)
  real lat_prof_cas,sens_prof_cas,tke_prof_cas,ts_prof_cas,ustar_prof_cas
  real uw_prof_cas(nlev_cas),vw_prof_cas(nlev_cas),q1_prof_cas(nlev_cas),q2_prof_cas(nlev_cas)
  ! local:
  integer it_cas1, it_cas2,k
  real timeit,time_cas1,time_cas2,frac


  print*,'Check time',day1,day_ju_ini_cas,day_deb+1,pdt_cas
  !       do k=1,nlev_cas
  !       print*,'debut de interp2_case_time, plev_cas=',k,plev_cas(k,1)
  !       enddo

  ! On teste si la date du cas AMMA est correcte.
  ! C est pour memoire car en fait les fichiers .def
  ! sont censes etre corrects.
  ! A supprimer a terme (MPL 20150623)
  !     if ((forcing_type.eq.10).and.(1.eq.0)) then
  ! Check that initial day of the simulation consistent with AMMA case:
  !      if (annee_ref.ne.2006) then
  !       print*,'Pour AMMA, annee_ref doit etre 2006'
  !       print*,'Changer annee_ref dans run.def'
  !       stop
  !      endif
  !      if (annee_ref.eq.2006 .and. day1.lt.day_cas) then
  !       print*,'AMMA a debute le 10 juillet 2006',day1,day_cas
  !       print*,'Changer dayref dans run.def'
  !       stop
  !      endif
  !      if (annee_ref.eq.2006 .and. day1.gt.day_cas+1) then
  !       print*,'AMMA a fini le 11 juillet'
  !       print*,'Changer dayref ou nday dans run.def'
  !       stop
  !      endif
  !      endif

  ! Determine timestep relative to the 1st day:
  !       timeit=(day-day1)*86400.
  !       if (annee_ref.eq.1992) then
  !        timeit=(day-day_cas)*86400.
  !       else
  !        timeit=(day+61.-1.)*86400. ! 61 days between Nov01 and Dec31 1992
  !       endif
  timeit=(day-day_ju_ini_cas)*86400
  print *,'day=',day
  print *,'day_ju_ini_cas=',day_ju_ini_cas
  print *,'pdt_cas=',pdt_cas
  print *,'timeit=',timeit
  print *,'nt_cas=',nt_cas

  ! Determine the closest observation times:
  !       it_cas1=INT(timeit/pdt_cas)+1
  !       it_cas2=it_cas1 + 1
  !       time_cas1=(it_cas1-1)*pdt_cas
  !       time_cas2=(it_cas2-1)*pdt_cas

  it_cas1=INT(timeit/pdt_cas)+1
  IF (it_cas1 .EQ. nt_cas) THEN
     it_cas2=it_cas1 
  ELSE
     it_cas2=it_cas1 + 1
  ENDIF
  time_cas1=(it_cas1-1)*pdt_cas
  time_cas2=(it_cas2-1)*pdt_cas
  print *,'timeit,pdt_cas,nt_cas=',timeit,pdt_cas,nt_cas
  print *,'it_cas1,it_cas2,time_cas1,time_cas2=',it_cas1,it_cas2,time_cas1,time_cas2

  if (it_cas1 .gt. nt_cas) then 
     write(*,*) 'PB-stop: day, day_ju_ini_cas,it_cas1, it_cas2, timeit: '            &
          ,day,day_ju_ini_cas,it_cas1,it_cas2,timeit
     stop
  endif

  ! time interpolation:
  IF (it_cas1 .EQ. it_cas2) THEN
     frac=0.
  ELSE
     frac=(time_cas2-timeit)/(time_cas2-time_cas1)
     frac=max(frac,0.0)
  ENDIF

  lat_prof_cas = lat_cas(it_cas2)                                   &
       -frac*(lat_cas(it_cas2)-lat_cas(it_cas1)) 
  sens_prof_cas = sens_cas(it_cas2)                                 &
       -frac*(sens_cas(it_cas2)-sens_cas(it_cas1))
  tke_prof_cas = tke_cas(it_cas2)                                   &
       -frac*(tke_cas(it_cas2)-tke_cas(it_cas1))
  ts_prof_cas = ts_cas(it_cas2)                                     &
       -frac*(ts_cas(it_cas2)-ts_cas(it_cas1))
  ustar_prof_cas = ustar_cas(it_cas2)                               &
       -frac*(ustar_cas(it_cas2)-ustar_cas(it_cas1))

  do k=1,nlev_cas
     plev_prof_cas(k) = plev_cas(k,it_cas2)                           &     
          -frac*(plev_cas(k,it_cas2)-plev_cas(k,it_cas1))
     t_prof_cas(k) = t_cas(k,it_cas2)                                 &        
          -frac*(t_cas(k,it_cas2)-t_cas(k,it_cas1))
     print *,'k,frac,plev_cas1,plev_cas2=',k,frac,plev_cas(k,it_cas1),plev_cas(k,it_cas2)
     theta_prof_cas(k) = theta_cas(k,it_cas2)                         &                      
          -frac*(theta_cas(k,it_cas2)-theta_cas(k,it_cas1))
     thv_prof_cas(k) = thv_cas(k,it_cas2)                             &          
          -frac*(thv_cas(k,it_cas2)-thv_cas(k,it_cas1))
     thl_prof_cas(k) = thl_cas(k,it_cas2)                             &              
          -frac*(thl_cas(k,it_cas2)-thl_cas(k,it_cas1))
     qv_prof_cas(k) = qv_cas(k,it_cas2)                               &
          -frac*(qv_cas(k,it_cas2)-qv_cas(k,it_cas1))
     ql_prof_cas(k) = ql_cas(k,it_cas2)                               &
          -frac*(ql_cas(k,it_cas2)-ql_cas(k,it_cas1))
     qi_prof_cas(k) = qi_cas(k,it_cas2)                               &
          -frac*(qi_cas(k,it_cas2)-qi_cas(k,it_cas1))
     u_prof_cas(k) = u_cas(k,it_cas2)                                 &
          -frac*(u_cas(k,it_cas2)-u_cas(k,it_cas1))
     v_prof_cas(k) = v_cas(k,it_cas2)                                 &
          -frac*(v_cas(k,it_cas2)-v_cas(k,it_cas1))
     ug_prof_cas(k) = ug_cas(k,it_cas2)                               &
          -frac*(ug_cas(k,it_cas2)-ug_cas(k,it_cas1))
     vg_prof_cas(k) = vg_cas(k,it_cas2)                               &
          -frac*(vg_cas(k,it_cas2)-vg_cas(k,it_cas1))
     vitw_prof_cas(k) = vitw_cas(k,it_cas2)                           &
          -frac*(vitw_cas(k,it_cas2)-vitw_cas(k,it_cas1))
     omega_prof_cas(k) = omega_cas(k,it_cas2)                         &
          -frac*(omega_cas(k,it_cas2)-omega_cas(k,it_cas1))
     du_prof_cas(k) = du_cas(k,it_cas2)                               &
          -frac*(du_cas(k,it_cas2)-du_cas(k,it_cas1))
     hu_prof_cas(k) = hu_cas(k,it_cas2)                               &
          -frac*(hu_cas(k,it_cas2)-hu_cas(k,it_cas1))
     vu_prof_cas(k) = vu_cas(k,it_cas2)                               &
          -frac*(vu_cas(k,it_cas2)-vu_cas(k,it_cas1))
     dv_prof_cas(k) = dv_cas(k,it_cas2)                               &
          -frac*(dv_cas(k,it_cas2)-dv_cas(k,it_cas1))
     hv_prof_cas(k) = hv_cas(k,it_cas2)                               &
          -frac*(hv_cas(k,it_cas2)-hv_cas(k,it_cas1))
     vv_prof_cas(k) = vv_cas(k,it_cas2)                               &
          -frac*(vv_cas(k,it_cas2)-vv_cas(k,it_cas1))
     dt_prof_cas(k) = dt_cas(k,it_cas2)                               &
          -frac*(dt_cas(k,it_cas2)-dt_cas(k,it_cas1))
     ht_prof_cas(k) = ht_cas(k,it_cas2)                               &
          -frac*(ht_cas(k,it_cas2)-ht_cas(k,it_cas1))
     vt_prof_cas(k) = vt_cas(k,it_cas2)                               &
          -frac*(vt_cas(k,it_cas2)-vt_cas(k,it_cas1))
     dth_prof_cas(k) = dth_cas(k,it_cas2)                             &
          -frac*(dth_cas(k,it_cas2)-dth_cas(k,it_cas1))
     hth_prof_cas(k) = hth_cas(k,it_cas2)                             &
          -frac*(hth_cas(k,it_cas2)-hth_cas(k,it_cas1))
     vth_prof_cas(k) = vth_cas(k,it_cas2)                             &
          -frac*(vth_cas(k,it_cas2)-vth_cas(k,it_cas1))
     dtrad_prof_cas(k) = dtrad_cas(k,it_cas2)                         &
          -frac*(dtrad_cas(k,it_cas2)-dtrad_cas(k,it_cas1))
     dq_prof_cas(k) = dq_cas(k,it_cas2)                               &
          -frac*(dq_cas(k,it_cas2)-dq_cas(k,it_cas1))
     hq_prof_cas(k) = hq_cas(k,it_cas2)                               &
          -frac*(hq_cas(k,it_cas2)-hq_cas(k,it_cas1))
     vq_prof_cas(k) = vq_cas(k,it_cas2)                               &
          -frac*(vq_cas(k,it_cas2)-vq_cas(k,it_cas1))
     uw_prof_cas(k) = uw_cas(k,it_cas2)                                &
          -frac*(uw_cas(k,it_cas2)-uw_cas(k,it_cas1))
     vw_prof_cas(k) = vw_cas(k,it_cas2)                                &
          -frac*(vw_cas(k,it_cas2)-vw_cas(k,it_cas1))
     q1_prof_cas(k) = q1_cas(k,it_cas2)                                &
          -frac*(q1_cas(k,it_cas2)-q1_cas(k,it_cas1))
     q2_prof_cas(k) = q2_cas(k,it_cas2)                                &
          -frac*(q2_cas(k,it_cas2)-q2_cas(k,it_cas1))
  enddo

  return
END SUBROUTINE interp2_case_time

!**********************************************************************************************