source: LMDZ5/branches/LMDZ5_AR5/libf/cosp/phys_cosp.F90.prev @ 2281

! Simulateur COSP : Cfmip Observation Simulator Package
! ISCCP, Radar (QuickBeam), Lidar et Parasol (ACTSIM), MISR, RTTOVS
!Idelkadi Abderrahmane Aout-Septembre 2009

  subroutine phys_cosp( itap,dtime,freq_cosp,ecrit_mth,ecrit_day,ecrit_hf, &
                        overlaplmdz,Nptslmdz,Nlevlmdz,lon,lat, presnivs, &
                        ref_liq,ref_ice,fracTerLic,u_wind,v_wind,phi,ph,p,skt,t, &
                        sh,rh,tca,cca,mr_lsliq,mr_lsice,fl_lsrainI,fl_lssnowI, &
                        fl_ccrainI,fl_ccsnowI,mr_ozone,dtau_s,dem_s)

!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!
!!!! Inputs :
! itap,                                 !Increment de la physiq
! dtime,                                !Pas de temps physiq
! overlap,                              !Overlap type in SCOPS
! Npoints,                              !Nb de points de la grille physiq
! Nlevels,                              !Nb de niveaux verticaux
! Ncolumns,                             !Number of subcolumns
! lon,lat,                              !Longitudes et latitudes de la grille LMDZ
! ref_liq,ref_ice,                      !Rayons effectifs des particules liq et ice (en microm)
! fracTerLic,                               !Fraction terre a convertir en masque
! u_wind,v_wind,                        !Vents a 10m ???
! phi,                                  !Geopotentiel
! ph,                                   !pression pour chaque inter-couche
! p,                                    !Pression aux milieux des couches
! skt,t,                                !Temp au sol et temp 3D
! sh,                                   !Humidite specifique
! rh,                                   !Humidite relatif
! tca,                                  !Fraction nuageuse
! cca                                   !Fraction nuageuse convective
! mr_lsliq,                             !Liq Cloud water content
! mr_lsice,                             !Ice Cloud water content
! mr_ccliq,                             !Convective Cloud Liquid water content  
! mr_ccice,                             !Cloud ice water content
! fl_lsrain,                            !Large scale precipitation lic
! fl_lssnow,                            !Large scale precipitation ice
! fl_ccrain,                            !Convective precipitation lic
! fl_ccsnow,                            !Convective precipitation ice
! mr_ozone,                             !Concentration ozone (Kg/Kg)
! dem_s                                 !Cloud optical emissivity
! dtau_s                                !Cloud optical thickness
! emsfc_lw = 1.                         !Surface emissivity dans radlwsw.F90

!!! Outputs :
! calipso2D,                            !Lidar Low/heigh/Mean/Total-level Cloud Fraction
! calipso3D,                            !Lidar Cloud Fraction (532 nm)
! cfadlidar,                            !Lidar Scattering Ratio CFAD (532 nm)
! parasolrefl,                          !PARASOL-like mono-directional reflectance
! atb,                                  !Lidar Attenuated Total Backscatter (532 nm)
! betamol,                              !Lidar Molecular Backscatter (532 nm)
! cfaddbze,                             !Radar Reflectivity Factor CFAD (94 GHz)
! clcalipso2,                           !Cloud frequency of occurrence as seen by CALIPSO but not CloudSat
! dbze,                                 !Efective_reflectivity_factor
! cltlidarradar,                        !Lidar and Radar Total Cloud Fraction
! clMISR,                               !Cloud Fraction as Calculated by the MISR Simulator
! clisccp2,                             !Cloud Fraction as Calculated by the ISCCP Simulator
! boxtauisccp,                          !Optical Depth in Each Column as Calculated by the ISCCP Simulator
! boxptopisccp,                         !Cloud Top Pressure in Each Column as Calculated by the ISCCP Simulator
! tclisccp,                             !Total Cloud Fraction as Calculated by the ISCCP Simulator
! ctpisccp,                             !Mean Cloud Top Pressure as Calculated by the ISCCP Simulator
! tauisccp,                             !Mean Optical Depth as Calculated by the ISCCP Simulator
! albisccp,                             !Mean Cloud Albedo as Calculated by the ISCCP Simulator
! meantbisccp,                          !Mean all-sky 10.5 micron brightness temperature as calculated by the ISCCP Simulator
! meantbclrisccp                        !Mean clear-sky 10.5 micron brightness temperature as calculated by the ISCCP Simulator
!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!

  USE MOD_COSP_CONSTANTS
  USE MOD_COSP_TYPES
  USE MOD_COSP
  USE mod_phys_lmdz_para
  use ioipsl
  use iophy
 
  IMPLICIT NONE

  ! Local variables
  character(len=64)  :: cosp_input_nl='cosp_input_nl.txt'
  character(len=64)  :: cosp_output_nl='cosp_output_nl.txt'
  character(len=512), save :: finput ! Input file name
  character(len=512), save :: cmor_nl
  integer, save :: isccp_topheight,isccp_topheight_direction,overlap
  integer,save  :: Ncolumns     ! Number of subcolumns in SCOPS
  integer,parameter :: Ncollmdz=20
  integer, save :: Npoints      ! Number of gridpoints
  integer, save :: Nlevels      ! Number of levels
  Integer :: Nptslmdz,Nlevlmdz ! Nb de points issus de physiq.F
  integer, save :: Nlr          ! Number of levels in statistical outputs
  integer, save :: Npoints_it   ! Max number of gridpoints to be processed in one iteration
  integer :: i
  type(cosp_config),save :: cfg   ! Configuration options
  type(cosp_gridbox) :: gbx ! Gridbox information. Input for COSP
  type(cosp_subgrid) :: sgx     ! Subgrid outputs
  type(cosp_sgradar) :: sgradar ! Output from radar simulator
  type(cosp_sglidar) :: sglidar ! Output from lidar simulator
  type(cosp_isccp)   :: isccp   ! Output from ISCCP simulator
  type(cosp_misr)    :: misr    ! Output from MISR simulator
  type(cosp_vgrid)   :: vgrid   ! Information on vertical grid of stats
  type(cosp_radarstats) :: stradar ! Summary statistics from radar simulator
  type(cosp_lidarstats) :: stlidar ! Summary statistics from lidar simulator

  integer :: t0,t1,count_rate,count_max
  integer :: Nlon,Nlat,geomode
  real,save :: radar_freq,k2,ZenAng,co2,ch4,n2o,co,emsfc_lw
  integer,dimension(RTTOV_MAX_CHANNELS),save :: Channels
  real,dimension(RTTOV_MAX_CHANNELS),save :: Surfem
  integer, save :: surface_radar,use_mie_tables,use_gas_abs,do_ray,melt_lay
  integer, save :: Nprmts_max_hydro,Naero,Nprmts_max_aero,lidar_ice_type
  integer, save :: platform,satellite,Instrument,Nchannels
  logical, save :: use_vgrid,csat_vgrid,use_precipitation_fluxes,use_reff

! Declaration necessaires pour les sorties IOIPSL
  integer :: ii,idayref
  real    :: zjulian,zstoday,zstomth,zstohf,zout,ecrit_day,ecrit_hf,ecrit_mth
  integer :: nhori,nvert,nvertp,nvertisccp,nvertm,nvertcol
  integer, save :: nid_day_cosp,nid_mth_cosp,nid_hf_cosp
  logical, save :: debut_cosp=.true.
  integer :: itau_wcosp
  character(len=10),dimension(Ncollmdz) :: chcol=(/'c01','c02','c03','c04','c05','c06','c07','c08','c09','c10', &
                                                   'c11','c12','c13','c14','c15','c16','c17','c18','c19','c20'/)
  real,dimension(Ncollmdz) :: column_ax
  integer, save :: Nlevout

  include "dimensions.h"
  include "temps.h"  
  
!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!! Input variables from LMDZ-GCM
  integer                         :: overlaplmdz   !  overlap type: 1=max, 2=rand, 3=max/rand ! cosp input (output lmdz)
!  real,dimension(Npoints,Nlevels) :: height,phi,p,ph,T,sh,rh,tca,cca,mr_lsliq,mr_lsice,mr_ccliq,mr_ccice, &
  real,dimension(Nptslmdz,Nlevlmdz) :: height,phi,p,ph,T,sh,rh,tca,cca,mr_lsliq,mr_lsice,mr_ccliq,mr_ccice, & 
                                     fl_lsrain,fl_lssnow,fl_ccrain,fl_ccsnow,fl_lsgrpl, &
                                     zlev,mr_ozone,radliq,radice,dtau_s,dem_s
  real,dimension(Nptslmdz,Nlevlmdz) ::  fl_lsrainI,fl_lssnowI,fl_ccrainI,fl_ccsnowI
  real,dimension(Nptslmdz)        :: lon,lat,skt,fracTerLic,u_wind,v_wind
  real,dimension(Nlevlmdz)        :: presnivs
  real                            :: ref_liq,ref_ice 
  integer                         :: itap,k,ip
  real                            :: dtime,freq_cosp

!
   namelist/COSP_INPUT/cmor_nl,overlap,isccp_topheight,isccp_topheight_direction, &
              npoints,npoints_it,ncolumns,nlevels,use_vgrid,nlr,csat_vgrid,finput, &
              radar_freq,surface_radar,use_mie_tables, &
              use_gas_abs,do_ray,melt_lay,k2,Nprmts_max_hydro,Naero,Nprmts_max_aero, &
              lidar_ice_type,use_precipitation_fluxes,use_reff, &
              platform,satellite,Instrument,Nchannels, &
              Channels,Surfem,ZenAng,co2,ch4,n2o,co

!---------------- End of declaration of variables --------------
   

!+++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
! Read namelist with COSP inputs
!+++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++

 if (debut_cosp) then
! Lecture du namelist input 
  open(10,file=cosp_input_nl,status='old')
  read(10,nml=cosp_input)
  close(10)
! Clefs Outputs 
  call read_cosp_output_nl(cosp_output_nl,cfg)

    if ( (Ncollmdz.ne.Ncolumns).or.(Nptslmdz.ne.Npoints).or.(Nlevlmdz.ne.Nlevels) ) then
       print*,'Nb points Horiz, Vert, Sub-col passes par physiq.F = ', &
               Nptslmdz, Nlevlmdz, Ncollmdz
       print*,'Nb points Horiz, Vert, Sub-col lus dans namelist = ', &
               Npoints, Nlevels, Ncolumns
       print*,'Nb points Horiz, Vert, Sub-col passes par physiq.F est different de celui lu par namelist '
       call abort
    endif

    if (overlaplmdz.ne.overlap) then
       print*,'Attention overlaplmdz different de overlap lu dans namelist '
    endif
   print*,'Fin lecture Namelists, debut_cosp =',debut_cosp

  endif ! debut_cosp

  print*,'Debut phys_cosp itap,dtime,freq_cosp,ecrit_mth,ecrit_day,ecrit_hf ', &
          itap,dtime,freq_cosp,ecrit_mth,ecrit_day,ecrit_hf
!+++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
! Allocate local arrays
!+++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
!        call system_clock(t0,count_rate,count_max) !!! Only for testing purposes
        
        
!+++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
! Allocate memory for gridbox type
!+++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
        print *, 'Allocating memory for gridbox type...'
        print*,'Npoints,Nlevels,Ncolumns,N_HYDRO,Nprmts_max_hydro ',Npoints,Nlevels,Ncolumns,N_HYDRO,Nprmts_max_hydro 
  print*,' Cles sorties cosp :'
  print*,' Lradar_sim,Llidar_sim,Lisccp_sim,Lmisr_sim,Lrttov_sim', &
          cfg%Lradar_sim,cfg%Llidar_sim,cfg%Lisccp_sim,cfg%Lmisr_sim,cfg%Lrttov_sim
        call construct_cosp_gridbox(float(itap),radar_freq,surface_radar,use_mie_tables,use_gas_abs,do_ray,melt_lay,k2, &
                                    Npoints,Nlevels,Ncolumns,N_HYDRO,Nprmts_max_hydro,Naero,Nprmts_max_aero,Npoints_it, &
                                    lidar_ice_type,isccp_topheight,isccp_topheight_direction,overlap,emsfc_lw, &
                                    use_precipitation_fluxes,use_reff, &
                                    Platform,Satellite,Instrument,Nchannels,ZenAng, &
                                    channels(1:Nchannels),surfem(1:Nchannels),co2,ch4,n2o,co,gbx)
        
!+++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
! Here code to populate input structure
!+++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++

        print *, 'Populating input structure...'
        gbx%longitude = lon
        gbx%latitude = lat

        gbx%p = p !
        gbx%ph = ph
        gbx%zlev_half = phi/9.81

       do k = 1, Nlevels-1
       do ip = 1, Npoints
        zlev(ip,k) = phi(ip,k)/9.81 + (phi(ip,k+1)-phi(ip,k))/9.81 * (ph(ip,k)-ph(ip,k+1))/p(ip,k)
       enddo
       enddo
       do ip = 1, Npoints
        zlev(ip,Nlevels) = zlev(ip,Nlevels-1)+ 2.*(phi(ip,Nlevels)/9.81-zlev(ip,Nlevels-1))
       END DO
        gbx%zlev = zlev

        gbx%T = T
        gbx%q = rh*100.
        gbx%sh = sh
        gbx%cca = cca !convective_cloud_amount (1)
        gbx%tca = tca ! total_cloud_amount (1)
        gbx%psfc = ph(:,1) !pression de surface
        gbx%skt  = skt !Skin temperature (K)

        do ip = 1, Npoints
          if (fracTerLic(ip).ge.0.5) then
             gbx%land(ip) = 1.
          else
             gbx%land(ip) = 0.
          endif
        enddo
        gbx%mr_ozone  = mr_ozone !mass_fraction_of_ozone_in_air (kg/kg)
! A voir l equivalent LMDZ (u10m et v10m)
        gbx%u_wind  = u_wind !eastward_wind (m s-1)
        gbx%v_wind  = v_wind !northward_wind
! Attention
        gbx%sunlit  = 1

! A voir l equivalent LMDZ
  mr_ccliq = 0.0
  mr_ccice = 0.0
        gbx%mr_hydro(:,:,I_LSCLIQ) = mr_lsliq !mixing_ratio_large_scale_cloud_liquid (kg/kg)
        gbx%mr_hydro(:,:,I_LSCICE) = mr_lsice !mixing_ratio_large_scale_cloud_ic
        gbx%mr_hydro(:,:,I_CVCLIQ) = mr_ccliq !mixing_ratio_convective_cloud_liquid
        gbx%mr_hydro(:,:,I_CVCICE) = mr_ccice !mixing_ratio_convective_cloud_ice
! A revoir
        fl_lsrain = fl_lsrainI + fl_ccrainI
        fl_lssnow = fl_lssnowI + fl_ccsnowI
        gbx%rain_ls = fl_lsrain !flux_large_scale_cloud_rain (kg m^-2 s^-1)
        gbx%snow_ls = fl_lssnow !flux_large_scale_cloud_snow
!  A voir l equivalent LMDZ
        fl_lsgrpl=0.
        fl_ccsnow = 0.
        fl_ccrain = 0.
        gbx%grpl_ls = fl_lsgrpl  !flux_large_scale_cloud_graupel
        gbx%rain_cv = fl_ccrain  !flux_convective_cloud_rain
        gbx%snow_cv = fl_ccsnow  !flux_convective_cloud_snow

!Attention Teste
       do k = 1, Nlevels
        do ip = 1, Npoints
!     liquid particles :
         radliq(ip,k) = 12.0e-06
         if (k.le.3) radliq(ip,k) = 11.0e-06

!    ice particles :
        if ( (t(ip,k)-273.15).gt.-81.4 ) then
          radice(ip,k) = (0.71*(t(ip,k)-273.15)+61.29)*1e-6
        else
          radice(ip,k) = 3.5*1e-6
        endif
       END DO
      END DO
      gbx%Reff(:,:,I_LSCLIQ) = radliq
      gbx%Reff(:,:,I_LSCICE) = radice
      gbx%Reff(:,:,I_CVCLIQ) = radliq
      gbx%Reff(:,:,I_CVCICE) = radice

        ! ISCCP simulator
        gbx%dtau_s   = dtau_s
        print*,'dtau_s(1,:)=',gbx%dtau_s(1,:)
        gbx%dtau_c   = 0.
        gbx%dem_s    = dem_s
        print*,'dem_s(1,:)=',gbx%dem_s(1,:)
        gbx%dem_c    = 0.

! Surafce emissivity
       emsfc_lw = 1.
               
!+++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
        ! Define new vertical grid
!+++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
        print *, 'Defining new vertical grid...'
        call construct_cosp_vgrid(gbx,Nlr,use_vgrid,csat_vgrid,vgrid)

 if (debut_cosp) then
! Creer le fichier de sorie, definir les variable de sortie
  ! Axe verticale (Pa ou Km)
     Nlevout = vgrid%Nlvgrid
   
        do ii=1,Ncolumns
          column_ax(ii) = float(ii)
        enddo

     include "ini_histmthCOSP.h"
     include "ini_histdayCOSP.h"
     include "ini_histhfCOSP.h"

   print*,'Fin Initialisation des sorties COSP, debut_cosp =',debut_cosp 
   print*,'R_UNDEF=',R_UNDEF

   debut_cosp=.false.
  endif ! debut_cosp

!+++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
       ! Allocate memory for other types
!+++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
        print *, 'Allocating memory for other types...'
        call construct_cosp_subgrid(Npoints, Ncolumns, Nlevels, sgx)
        call construct_cosp_sgradar(cfg,Npoints,Ncolumns,Nlevels,N_HYDRO,sgradar)
        call construct_cosp_radarstats(cfg,Npoints,Ncolumns,vgrid%Nlvgrid,N_HYDRO,stradar)
        call construct_cosp_sglidar(cfg,Npoints,Ncolumns,Nlevels,N_HYDRO,PARASOL_NREFL,sglidar)
        call construct_cosp_lidarstats(cfg,Npoints,Ncolumns,vgrid%Nlvgrid,N_HYDRO,PARASOL_NREFL,stlidar)
        call construct_cosp_isccp(cfg,Npoints,Ncolumns,Nlevels,isccp)
        call construct_cosp_misr(cfg,Npoints,misr)
!+++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
        ! Call simulator
!+++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
        print *, 'Calling simulator...'
        call cosp(overlap,Ncolumns,cfg,vgrid,gbx,sgx,sgradar,sglidar,isccp,misr,stradar,stlidar)
         print*,'stlidar%lidarcld(1,:)=',stlidar%lidarcld(1,:)
!+++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
        ! Write outputs to CMOR-compliant NetCDF
!+++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++

! A traiter le cas ou l on a des valeurs indefinies
! Attention teste

! if(1.eq.0)then


   do k = 1,Nlevout
!     do ip = 1,Npoints
!     if(stlidar%lidarcld(ip,k).eq.R_UNDEF)then
!      stlidar%lidarcld(ip,k)=0.
!     endif
!     enddo


     do ii= 1,SR_BINS
      do ip = 1,Npoints
       if(stlidar%cfad_sr(ip,ii,k).eq.R_UNDEF)then
        stlidar%cfad_sr(ip,ii,k)=0.
       endif
      enddo
     enddo
   enddo   
   
  do ip = 1,Npoints
   do k = 1,Nlevlmdz 
     if(sglidar%beta_mol(ip,k).eq.R_UNDEF)then
      sglidar%beta_mol(ip,k)=0.
     endif
    
     do ii= 1,Ncolumns
       if(sglidar%beta_tot(ip,ii,k).eq.R_UNDEF)then
        sglidar%beta_tot(ip,ii,k)=0.
       endif  
     enddo

    enddo    !k = 1,Nlevlmdz
   enddo     !ip = 1,Npoints

   do k = 1,LIDAR_NCAT
    do ip = 1,Npoints
     if(stlidar%cldlayer(ip,k).eq.R_UNDEF)then
      stlidar%cldlayer(ip,k)=0.
     endif
    enddo
   enddo

! endif 

   do ip = 1,Npoints
    if(isccp%totalcldarea(ip).eq.-1.E+30)then
      isccp%totalcldarea(ip)=0.
    endif
    if(isccp%meanptop(ip).eq.-1.E+30)then
      isccp%meanptop(ip)=0.
    endif
    if(isccp%meantaucld(ip).eq.-1.E+30)then
      isccp%meantaucld(ip)=0.
    endif
    if(isccp%meanalbedocld(ip).eq.-1.E+30)then
      isccp%meanalbedocld(ip)=0.
    endif
    if(isccp%meantb(ip).eq.-1.E+30)then
      isccp%meantb(ip)=0.
    endif
    if(isccp%meantbclr(ip).eq.-1.E+30)then
      isccp%meantbclr(ip)=0.
    endif

    do k=1,7
     do ii=1,7
     if(isccp%fq_isccp(ip,ii,k).eq.-1.E+30)then
      isccp%fq_isccp(ip,ii,k)=0.
     endif
     enddo
    enddo

    do ii=1,Ncolumns
     if(isccp%boxtau(ip,ii).eq.-1.E+30)then
       isccp%boxtau(ip,ii)=0.
     endif
    enddo

    do ii=1,Ncolumns
     if(isccp%boxptop(ip,ii).eq.-1.E+30)then
       isccp%boxptop(ip,ii)=0.
     endif
    enddo
   enddo

  include "write_histmthCOSP.h"
  include "write_histdayCOSP.h"
  include "write_histhfCOSP.h"


!+++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
        ! Deallocate memory in derived types
!+++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
        print *, 'Deallocating memory...'
        call free_cosp_gridbox(gbx)
        call free_cosp_subgrid(sgx)
        call free_cosp_sgradar(sgradar)
        call free_cosp_radarstats(stradar)
        call free_cosp_sglidar(sglidar)
        call free_cosp_lidarstats(stlidar)
        call free_cosp_isccp(isccp)
        call free_cosp_misr(misr)
        call free_cosp_vgrid(vgrid)  
  
!+++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
  ! Time in s. Only for testing purposes
!  call system_clock(t1,count_rate,count_max)
!  print *,(t1-t0)*1.0/count_rate
    
end subroutine phys_cosp