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RIETTE Sébastien's avatar
Sébastien 24/11/2021 Merge AROME->COMMON ice4_fast_ri, ice4_rsrimcg_old
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
     PEZDIAG(JLON,JKE,YSPP_CONFIG%IEZDIAG_POS) = ZRADSN(JLON)
    ENDDO
   ENDIF
  ELSE
   DO JLON=KIDIA,KFDIA
    ZRADSN(JLON) = RADSN
   ENDDO
  ENDIF
  ! initialisation des humidite (dans le rayonnement, l'eau liquide nuageuse 
  ! et la glace sont donne par des hu par rapport au gaz.
  ! (qi/qa+qv pour ice par ex. C'est donc different de ri)
  DO JLEV=KTDIA,KLEV
    DO JLON=KIDIA,KFDIA 
       ZQICE(JLON,JLEV)= MAX(0.0_JPRB,&
        & (ZQIM(JLON,JLEV) + ZQSM(JLON,JLEV)*ZRADSN(JLON) + ZQGM(JLON,JLEV)*ZRADGR(JLON))/&
        & (1.0_JPRB-ZQIM(JLON,JLEV)-ZQCM(JLON,JLEV)-ZQRM(JLON,JLEV)&
        & -ZQGM(JLON,JLEV)-ZQSM(JLON,JLEV)-ZQHM(JLON,JLEV)))
       ZQLIQ(JLON,JLEV)=MAX(0.0_JPRB, ZQCM(JLON,JLEV)/&
        & (1.0_JPRB-ZQIM(JLON,JLEV)-ZQCM(JLON,JLEV)-ZQRM(JLON,JLEV)&
        & -ZQGM(JLON,JLEV)-ZQSM(JLON,JLEV)-ZQHM(JLON,JLEV)))
       ZQV(JLON,JLEV)=MAX(0.0_JPRB, ZQVM(JLON,JLEV)/&
        & (1.0_JPRB-ZQIM(JLON,JLEV)-ZQCM(JLON,JLEV)-ZQRM(JLON,JLEV)&
        & -ZQGM(JLON,JLEV)-ZQSM(JLON,JLEV)-ZQHM(JLON,JLEV)))
    ENDDO
  ENDDO

  ! store cloud water content for RTTOV
  IF (YIRAD%LGP) PQIRAD(KIDIA:KFDIA,:) = ZQICE(KIDIA:KFDIA,:)
  IF (YLRAD%LGP) PQLRAD(KIDIA:KFDIA,:) = ZQLIQ(KIDIA:KFDIA,:)

  ! Hannu Savijarvi diffuse -> direct albedo correction from hlradia,
  ! Assuming that SURFEX does not make difference between  
  ! dir/dif albedo as surfex/SURFEX/albedo_from_nir_vis.F90 defines
  ! PSCA_ALB(:,:) = PDIR_ALB(:,:)
  
! Albedo dans les intervalles, direct (parallel) et diffus (diffuse).
  IF (NSW==6.OR.NSW==1) THEN
    IF (LLMSE) THEN
      DO JSW=1,NSW
        ZALBP(KIDIA:KFDIA,JSW)=PGPAR(KIDIA:KFDIA,MALBDIR-1+JSW)
        ZALBD(KIDIA:KFDIA,JSW)=PGPAR(KIDIA:KFDIA,MALBSCA-1+JSW)
        IF (LHLRADUPD) THEN
          DO JLON=KIDIA,KFDIA
            ZSALBCOR=0.2_JPRB/(1._JPRB+PMU0(JLON))-0.12_JPRB
            ZALBP(JLON,JSW)=ZALBD(JLON,JSW)+ZSALBCOR
          ENDDO
        ENDIF
      ENDDO
    ELSEIF (LSFORCS) THEN
      DO JSW=1,NSW
        ZALBP(KIDIA:KFDIA,JSW)=RALB_FORC
        ZALBD(KIDIA:KFDIA,JSW)=RALB_FORC
!  direct>diffuse correction might be applied to RALB_FORC,too:
!              ZALBP(JLON,JSW)=RALB_FORC+ZSALBCOR
      ENDDO
    ELSE
     !pour pouvoir tourner sans la surface
      DO JSW=1,NSW
        ZALBP(KIDIA:KFDIA,JSW)=PALBIN(KIDIA:KFDIA)
        ZALBD(KIDIA:KFDIA,JSW)=PALBIN(KIDIA:KFDIA)
!              ZALBP(JLON,JSW)=PALBIN(JLON)+ZSALBCOR
      ENDDO
    ENDIF

  ! Spectral average albedo done with RSUN2 weights, 
  ! to be applied for HLRADIA, ACRANEB2 which use a single solar spectral band
    IF (LHLRADUPD) THEN
      ZALBP1(KIDIA:KFDIA)=0._JPRB
      ZALBD1(KIDIA:KFDIA)=0._JPRB
      DO JSW=1,NSW
        DO JLON=KIDIA,KFDIA
          ZALBP1(JLON)=ZALBP1(JLON)+RSUN2(JSW)*ZALBP(JLON,JSW)
          ZALBD1(JLON)=ZALBD1(JLON)+RSUN2(JSW)*ZALBD(JLON,JSW)
        ENDDO
      ENDDO
    ELSE
       ZALBP1(KIDIA:KFDIA)=PGPAR(KIDIA:KFDIA,MALBDIR)
       ZALBD1(KIDIA:KFDIA)=PGPAR(KIDIA:KFDIA,MALBSCA)
    ENDIF

  ELSE

    CALL ABOR1 ('ALBEDO FOR NSW/= 1 or 6 not defined in apl_arome')

  ENDIF

  ! all albedo operations

  IF (LLMSE) THEN
    ZEMIS(KIDIA:KFDIA)=PGPAR(KIDIA:KFDIA,MVEMIS)
    ZTSURF(KIDIA:KFDIA)=PGPAR(KIDIA:KFDIA,MVTS)
    ! protection for E Zone, Where surface scheme send back EMIS and T =0
    ! the protection in aro_ground_paramn is not sufficient !!! WHY ??
    DO JLON=KIDIA,KFDIA
      IF (ZEMIS(JLON)==0._JPRB) THEN
        ZEMIS(JLON)=1.0_JPRB
        ZTSURF(JLON)=288.0_JPRB
      ENDIF
    ENDDO
  ELSEIF (LSFORCS) THEN
    ZEMIS(KIDIA:KFDIA)=REMIS_FORC
  ELSE
    ZEMIS(KIDIA:KFDIA)=0.5_JPRB ! value 0.5 is suspicious
    ZTSURF(KIDIA:KFDIA)=ZTM(KIDIA:KFDIA,KLEV)
  ENDIF !LLMSE EMIS
  
  ! initialization of aerosols
  IF (LRAY.AND.NRAY == 2.AND.LRADFLEX.AND.LRSTAER) THEN

    ! old ("standard") aerosols for LRAY only
    ZAER(KIDIA:KFDIA,1:KTDIA-1,1)=0._JPRB
    DO JLEV=KTDIA-1,KLEV
      ZVETAH(JLEV)=STPREH(JLEV)/VP00
    ENDDO
    ZAEO=AERCS1*ZVETAH(KTDIA-1)+AERCS3*ZVETAH(KTDIA-1)**3+AERCS5*ZVETAH(KTDIA-1)**5
    DO JLEV=KTDIA,KLEV
      ZAEN=AERCS1*ZVETAH(JLEV)+AERCS3*ZVETAH(JLEV)**3+AERCS5*ZVETAH(JLEV)**5
      ZAER(KIDIA:KFDIA,JLEV,1)=ZAEN-ZAEO
      ZAEO=ZAEN
    ENDDO
    ZAER(KIDIA:KFDIA,1:KLEV,2:6)=0._JPRB
  
  ELSE
    
    IF (NAER >= 1 ) THEN
      IF(YSD_VAD%NUMFLDS >= 4) THEN
        CALL RADAER ( YDMODEL%YRML_PHY_RAD%YREAERD,YDERAD,YDPHY, KIDIA , KFDIA , KLON  , KLEV,&
         & PAPRSM,PAPRSFM,ZTM,ZTSURF,PAESEA,PAELAN,PAESOO,PAEDES,PAESUL,PAEVOL,ZAER,ZAERINDS)
      ELSE
        WRITE(NULOUT,*) 'YSD_VAD%NUMFLDS SHOULD BE >= 4, IT IS: ',YSD_VAD%NUMFLDS
        CALL ABOR1('APL_AROME: PB AEROSOLS!')
        ! NB : this abort excludes the use of radact. REK.
      ENDIF
    ENDIF

    IF (LRDUST) THEN
      ! We use the extinction coefficient explicitly solved by ARO_MNHDUST
      ZAER(KIDIA:KFDIA,1:KLEV,3) = ZAERD_(KIDIA:KFDIA,1:KLEV)
    ENDIF

  ENDIF
  ! end of old or new aerosols

  ! initialization of ozone
  IF (NOZOCL == 1) THEN
    ! as in IFS
    CALL RADOZC(KIDIA,KFDIA,KLON,KLEV,1,KLON,0,PAPRSM,PGEMU,ZROZ)
    DO JK=1,KLEV
      DO JLON=KIDIA,KFDIA
        ZQO3(JLON,JK)=ZROZ(JLON,JK)/PDELPM(JLON,JK)
      ENDDO
    ENDDO
  ELSEIF (NOZOCL == 2) THEN
    ! as in ARPEGE (from clim profiles)
    CALL SUOZON(KIDIA,KFDIA,KLON,KLEV,ZQO3,.FALSE.,PAPRSM,PRDELPM,LO3ABC,PVO3ABC)
  ENDIF

ELSE

  DO JSW=1,NSW
    ZALBP(KIDIA:KFDIA,JSW)=0._JPRB 
    ZALBD(KIDIA:KFDIA,JSW)=0._JPRB
  ENDDO

ENDIF
 !of preparation of input for LRAYFM, LRAY at every time step
 
 IF (LRAYFM) THEN
   ! Intermittent call to radiation interface
   IF (MOD(KSTEP,NRADFR) == 0) THEN 
     CALL RECMWF (YDGEOMETRY%YRDIMV, YDMODEL,         &
     & KIDIA   , KFDIA , KLON     , KLEV     ,           & 
     & ZALBD   , ZALBP , PAPRSM   , PAPRSFM  ,           &
     & PCLFS   , ZQO3  , ZAER     , PDELPM   , ZEMIS   , &
     & PMU0M   , ZQV   , ZQSAT    , ZQICE    , ZQLIQ   , &
     & ZQSM    , ZQRM  , PLSM     , ZTM      , ZTSURF  , &
     & PGP2DSPP, PEZDIAG,                                &
     & PEMTD   , PEMTU , PTRSO    , PFRTHC   , PFRTH   , & 
     & PFRSOC  , PFRSO , ZZS_FSWDIR, ZZS_FSWDIF, ZFSDNN  , &
     & ZFSDNV  , ZCTRSO, ZCEMTR   , ZTRSOD   , ZTRSODIR, &
     & ZTRSODIF, ZPIZA_DST_,ZCGA_DST_,ZTAUREL_DST_,ZAERINDS,&
     & PGELAM , PGEMU ,PGPAR , &
     & PMU0LU , ZALBD1 , ZFRSOLU)
   ELSE
     IF (LLMSE) THEN 
       DO JSW=1,NSW 
         ZTRSODIR(KIDIA:KFDIA,JSW)=PGPAR(KIDIA:KFDIA,MSWDIR+JSW-1)
         ZTRSODIF(KIDIA:KFDIA,JSW)=PGPAR(KIDIA:KFDIA,MSWDIF+JSW-1)
       ENDDO 
     ENDIF
     ZCTRSO(:,:)=0._JPRB
   ENDIF
   ! daand: radflex
   IF (LRADFLEX) THEN
     YLRADPROC => NEWINTPROC(YDPROCSET,'Radiation')
     ZFRSO => NEWINTFIELD(YLRADPROC,KLON,KLEV,'FRSO','H','F')
     ZFRTH => NEWINTFIELD(YLRADPROC,KLON,KLEV,'FRTH','H','F')
   ENDIF

    DO JLEV=1,KLEV
      ZTENT(KIDIA:KFDIA,JLEV)=0.0_JPRB
    ENDDO

   ZSUDU(KIDIA:KFDIA)=0.0_JPRB

   CALL RADHEAT&
   & (  YDERAD,YDERDI,YDMODEL%YRML_PHY_MF, KIDIA  , KFDIA  , KLON   , KLEV,&
   & PAPRSM  , ZEMIS  , PEMTD  , PMU0, ZQVM,&
   & ZTENT  , PTRSO  , ZTRSOD , ZTSURF   , PDT,&
   & ZTRSODIR,ZTRSODIF, ZALBD , ZALBP,&
   ! daand: radflex; replaced PFRSO and PRFTH by pointers
   & ZFRSO  , ZFRTH  , PFRSODS, PFRTHDS, ZCEMTR , ZCTRSO , PFRSOC , PFRTHC,&
   & ZSUDU  , ZSDUR  , ZDSRP  , ZZS_FSWDIR , ZZS_FSWDIF    ,&
   & PFRSOPS, ZFRSOFS, PFRSOPT )

  ! daand: radflex
  IF (LRADFLEX) THEN
    ! store for further calculations and diagnostics
    ! warning : pointers. REK
    PFRSO(:,:,1)=ZFRSO
    PFRTH(:,:,1)=ZFRTH
  ELSE
  ! daand: if LRADFLEX, the contribution to temperature is done by
  ! cptend_flex/cputqy
    ! update temperature tendency by radiative contribution
    DO JLEV=1,KLEV
      DO JLON = KIDIA, KFDIA
        PTENDT(JLON,JLEV)=PTENDT(JLON,JLEV)+ZTENT(JLON,JLEV)
      ENDDO
    ENDDO
  ENDIF

  DO JLON = KIDIA, KFDIA
    ! update sunshine duration [s]
    PSDUR(JLON)=PSDUR(JLON)+ZSDUR(JLON)*TSTEP
    ! Estimate of the direct normal irradiance, with securities
    IF (PMU0(JLON) > 3.0E-02_JPRB) THEN
      PFRSDNI(JLON)=MAX(0.0_JPRB,PFRSOPS(JLON)/PMU0(JLON))
    ELSE
      PFRSDNI(JLON)=MAX(0.0_JPRB,PFRSOPS(JLON))
    ENDIF
  ENDDO 

  IF( MOD(KSTEP+1,NPRINTFR)==0) THEN
    WRITE(NULOUT,*)'sous apl_arome apres rayonnement ZTENT=',ZTENT(NPTP,30:41)
    IF (LLMSE) THEN
      DO JSW=1, NSW
        WRITE(NULOUT,*)'ZSFSWDIR ZSFSWDIF ZFSDNN ZFSDNV PFRSO',&
         & ZZS_FSWDIR(NPTP,JSW),ZZS_FSWDIF(NPTP,JSW),ZFSDNN(NPTP), ZFSDNV(NPTP),PFRSO(NPTP,KLEV,1)
        WRITE(NULOUT,*)'ZALBD ZALBP',ZALBD(NPTP,JSW),ZALBP(NPTP,JSW)
      ENDDO
    ENDIF
    WRITE(NULOUT,*)ZFSDNN(NPTP),ZFSDNV(NPTP)
    WRITE (NULOUT,*)'TSURF EMIS ZFRTH',ZTSURF(NPTP),ZEMIS(NPTP),PFRTHDS(NPTP)
  ENDIF

  IF (LFLEXDIA) THEN
    IF (LDDH_OMP) THEN
      CALL NEW_ADD_FIELD_3D(YDMODEL%YRML_DIAG%YRMDDH,PFRSO(:,:,1),'FCTRAYSO',YDDDH)
      CALL NEW_ADD_FIELD_3D(YDMODEL%YRML_DIAG%YRMDDH,PFRTH(:,:,1),'FCTRAYTH',YDDDH)
    ELSE
      CALL ADD_FIELD_3D(YLDDH,PFRSO(:,:,1),'FCTRAYSO','F','ARP',.TRUE.,.TRUE.)
      CALL ADD_FIELD_3D(YLDDH,PFRTH(:,:,1),'FCTRAYTH','F','ARP',.TRUE.,.TRUE.)
    ENDIF
  ENDIF

ELSE

  PFRSOC(KIDIA:KFDIA,0:1)=0.0_JPRB
  PFRTHC(KIDIA:KFDIA,0:1)=0.0_JPRB

ENDIF  ! LRAYFM

!     ------------------------------------------------------------------
!     NEBULOSITE (CONVECTIVE+STRATIFORME) A TROIS NIVEAUX.
!     DIAGNOSTIC OF THREE LEVELS (CONVECTIVE+STRATIFORM) CLOUDINESS.

! protect cloudiness from being 0 or 1 (needed for ACRANEB2 and ACNPART)
DO JLEV=KTDIA,KLEV
  DO JLON=KIDIA,KFDIA
    ZNEB0(JLON,JLEV)=MAX(ZEPSNEB,MIN(1._JPRB-ZEPSNEB,PCLFS(JLON,JLEV)))
  ENDDO
ENDDO

! decorrelation depth for cloud overlaps

IF (LRNUEXP) THEN
  DO JLON=KIDIA,KFDIA
    ZDECRD(JLON)=RDECRD1+RDECRD2*EXP(-((ASIN(PGEMU(JLON))-RDECRD3*RDECLI)/RDECRD4)**2)
  ENDDO
ENDIF

! calculate high, medium, low and total cloud cover
CALL ACNPART(YDMODEL%YRML_PHY_MF,KIDIA,KFDIA,KLON,NTNEBU,KLEV,&
 & PAPHIM,PAPHIFM,PAPRSFM,ZDECRD,ZNEB0,&
 & PCLCH,PCLCM,PCLCL,PCLCT,ZCLCT_RAD)

IF (LRAY.AND.NRAY == 2.AND.LRADFLEX) THEN

  ! -------------------------
  ! ACRANEB2 radiation scheme
  ! -------------------------

!+++ The next input preparations are redundant:

  ! initialization of cloud ice, cloud liquid and specific humidity
  ! (with respect to moist air, i.e. excluding hydrometeors)
  DO JLEV=KTDIA,KLEV
    DO JLON=KIDIA,KFDIA
      ZQICE(JLON,JLEV)=MAX(0.0_JPRB, ZQIM(JLON,JLEV)/&
       & (1.0_JPRB-ZQIM(JLON,JLEV)-ZQCM(JLON,JLEV)-ZQRM(JLON,JLEV)&
       & -ZQGM(JLON,JLEV)-ZQSM(JLON,JLEV)-ZQHM(JLON,JLEV)))
      ZQLIQ(JLON,JLEV)=MAX(0.0_JPRB, ZQCM(JLON,JLEV)/&
       & (1.0_JPRB-ZQIM(JLON,JLEV)-ZQCM(JLON,JLEV)-ZQRM(JLON,JLEV)&
       & -ZQGM(JLON,JLEV)-ZQSM(JLON,JLEV)-ZQHM(JLON,JLEV)))
      ZQV(JLON,JLEV)=MAX(0.0_JPRB, ZQVM(JLON,JLEV)/&
       & (1.0_JPRB-ZQIM(JLON,JLEV)-ZQCM(JLON,JLEV)-ZQRM(JLON,JLEV)&
       & -ZQGM(JLON,JLEV)-ZQSM(JLON,JLEV)-ZQHM(JLON,JLEV)))
    ENDDO
  ENDDO

  ! store cloud water content for RTTOV
  IF (YIRAD%LGP) PQIRAD(KIDIA:KFDIA,:) = ZQICE(KIDIA:KFDIA,:)
  IF (YLRAD%LGP) PQLRAD(KIDIA:KFDIA,:) = ZQLIQ(KIDIA:KFDIA,:)

  ! initialization of ozone
  IF (NOZOCL == 1) THEN
    ! as in IFS
    CALL RADOZC(KIDIA,KFDIA,KLON,KLEV,1,KLON,0,PAPRSM,PGEMU,ZROZ)
    DO JK=1,KLEV
      DO JLON=KIDIA,KFDIA
        ZQO3(JLON,JK)=ZROZ(JLON,JK)/PDELPM(JLON,JK)
      ENDDO
    ENDDO
  ELSEIF (NOZOCL == 2) THEN
    ! as in ARPEGE (from clim profiles)
    CALL SUOZON(KIDIA,KFDIA,KLON,KLEV,ZQO3,.FALSE.,PAPRSM,PRDELPM,LO3ABC,PVO3ABC)
  ENDIF

  ! initialization of aerosols
  IF (LRAY.AND.NRAY == 2.AND.LRADFLEX.AND.LRSTAER) THEN

    ZAER(KIDIA:KFDIA,1:KTDIA-1,1)=0._JPRB
    ! old ("standard") aerosols
    DO JLEV=KTDIA-1,KLEV
      ZVETAH(JLEV)=STPREH(JLEV)/VP00
    ENDDO
    ZAEO=AERCS1*ZVETAH(KTDIA-1)+AERCS3*ZVETAH(KTDIA-1)**3+AERCS5*ZVETAH(KTDIA-1)**5
    DO JLEV=KTDIA,KLEV
      ZAEN=AERCS1*ZVETAH(JLEV)+AERCS3*ZVETAH(JLEV)**3+AERCS5*ZVETAH(JLEV)**5
      ZAER(KIDIA:KFDIA,JLEV,1)=ZAEN-ZAEO
      ZAEO=ZAEN
    ENDDO
    ZAER(KIDIA:KFDIA,1:KLEV,2:6)=0._JPRB
  
  ELSE

    IF (NAER >= 1) THEN
      IF (YSD_VAD%NUMFLDS >= 4) THEN
        ! initialisation of aerosols as in ARPEGE (from clim files)
        CALL RADAER (YDMODEL%YRML_PHY_RAD%YREAERD,YDERAD,YDPHY, KIDIA , KFDIA , KLON  , KLEV,&
         & PAPRSM,PAPRSFM,ZTM,ZTSURF,PAESEA,PAELAN,PAESOO,PAEDES,PAESUL,PAEVOL,ZAER,ZAERINDS)
      ELSE
        CALL ABOR1('APL_AROME: PB AEROSOLS!')
        ! NB : this abort excludes the use of radact. REK.
      ENDIF
    ENDIF

    IF (LRDUST) THEN
      ! We uses the extinction coefficient explicitely solved by ARO_MNHDUST
      ZAER(KIDIA:KFDIA,1:KLEV,3) = ZAERD_(KIDIA:KFDIA,1:KLEV)
    ENDIF

  ENDIF ! (LRAY.AND.NRAY == 2.AND.LRADFLEX.AND.LRSTAER) THEN

  ! get diffuse and direct surface albedo, emissivity and temperature
  IF (.NOT.LHLRADUPD) THEN
    ZALBD1(KIDIA:KFDIA)=PGPAR(KIDIA:KFDIA,MALBSCA)
    ZALBP1(KIDIA:KFDIA)=PGPAR(KIDIA:KFDIA,MALBDIR)
  ENDIF
  ZEMIS  (KIDIA:KFDIA)=PGPAR(KIDIA:KFDIA,MVEMIS)
  ZTSURF (KIDIA:KFDIA)=PGPAR(KIDIA:KFDIA,MVTS)
  DO JLON=KIDIA,KFDIA
    ! protection of E-zone (not to have zero emissivity and T_surf there)
    IF (ZEMIS(JLON) == 0._JPRB) THEN
      ZEMIS (JLON)=  1._JPRB
      ZTSURF(JLON)=288._JPRB
    ENDIF
  ENDDO

!+++ End of redundant input preparations for ACRANEB

  ! initialization of CO2(+), differs from IFS radiation scheme!
  ZQCO2(KIDIA:KFDIA,1:KLEV)=QCO2

  ! daand: radflex
  YLRADPROC => NEWINTPROC(YDPROCSET,'Radiation')
  ZFRSO => NEWINTFIELD(YLRADPROC,KLON,KLEV, 'FRSO','H','F')
  ZFRTH => NEWINTFIELD(YLRADPROC,KLON,KLEV, 'FRTH','H','F')

  ! call radiation scheme
  IJN=KLON
  CALL ACRANEB2(YDERDI,YDRIP,YDMODEL%YRML_PHY_MF,&
   & KIDIA,KFDIA,KLON,NTRADI,KLEV,IJN,KSTEP,KNFRRC,&
   & PAPRSM,PAPRSFM,PCPM,PRM,PDELPM,ZNEB0,&
   & ZQV,ZQCO2,ZQICE,ZQLIQ,ZQO3,PTM,&
   & ZALBD1,ZALBP1,ZEMIS,PGELAM,PGEMU,PMU0,PMU0LU,ZTSURF, &
   & ZDECRD,ZCLCT_RAD,&
   & PGDEOSI,PGUEOSI,PGMU0,PGMU0_MIN,PGMU0_MAX,&
   & PGDEOTI,PGDEOTI2,PGUEOTI,PGUEOTI2,PGEOLT,PGEOXT,&
   & PGRPROX,PGMIXP,PGFLUXC,PGRSURF,PSDUR,&
   & ZFRSO,ZFRTH,&
   & PFRSOC,PFRTHC,ZFRSODS,PFRSOPS,ZFRSOLU,PFRTHDS,ZAER)

  ! daand: radflex
  ! store for further calculations and diagnostics
  ! warning : pointers. REK
  PFRSO(:,:,1)=ZFRSO
  PFRTH(:,:,1)=ZFRTH

  ! extract surface fluxes
  DO JLON=KIDIA,KFDIA
    PFRSODS(JLON)=ZFRSODS(JLON)+PFRSOPS(JLON)  ! downward surface sw flux
  ENDDO

  IF (LLMSE) THEN
    IF (LHLRADUPD) THEN
      DO JSW = 1,NSW
        DO JLON=KIDIA,KFDIA
          ZZS_FSWDIR(JLON,JSW) = PFRSOPS(JLON)*RSUN2(JSW)
          ZZS_FSWDIF(JLON,JSW) = ZFRSODS(JLON)*RSUN2(JSW)
         ENDDO
      ENDDO
    ELSE
      ZZS_FSWDIR(KIDIA:KFDIA,1)=PFRSOPS(KIDIA:KFDIA) ! direct surface swdn flux
      ZZS_FSWDIF(KIDIA:KFDIA,1)=ZFRSODS(KIDIA:KFDIA) ! diffuse surface swdn flux
    ENDIF
  ENDIF

  ! Estimate of the direct normal irradiance, with securities
  PFRSDNI(KIDIA:KFDIA)=PFRSOPS(KIDIA:KFDIA)
  DO JLON = KIDIA, KFDIA
    IF (PMU0(JLON) > 3.0E-02_JPRB) THEN
      PFRSDNI(JLON)=PFRSOPS(JLON)/PMU0(JLON)
    ENDIF
  ENDDO
  DO JLON = KIDIA, KFDIA
    PFRSDNI(JLON)=MAX(0.0_JPRB,PFRSDNI(JLON))
  ENDDO

  IF (LFLEXDIA) THEN
    IF (LDDH_OMP) THEN
      CALL NEW_ADD_FIELD_3D(YDMODEL%YRML_DIAG%YRMDDH,PFRSO(:,:,1),'FCTRAYSO',YDDDH)
      CALL NEW_ADD_FIELD_3D(YDMODEL%YRML_DIAG%YRMDDH,PFRTH(:,:,1),'FCTRAYSO',YDDDH)
    ELSE
      CALL ADD_FIELD_3D(YLDDH,PFRSO(:,:,1),'FCTRAYSO','F','ARP',.TRUE.,.TRUE.)
      CALL ADD_FIELD_3D(YLDDH,PFRTH(:,:,1),'FCTRAYTH','F','ARP',.TRUE.,.TRUE.)
    ENDIF
  ENDIF

ENDIF

IF (.NOT.(LRAY.AND.NRAY == 2.AND.LRADFLEX).AND..NOT.LRAYFM) THEN
  DO JSW = 1,NSW
    ZZS_FSWDIR(KIDIA:KFDIA,JSW) = 0._JPRB
    ZZS_FSWDIF(KIDIA:KFDIA,JSW) = 0._JPRB
  ENDDO
  PFRSOPS(KIDIA:KFDIA)=0._JPRB
ENDIF

IF (LFLEXDIA) THEN
  CALL ARO_STARTBU( KIDIA, KFDIA, KLEV, NRR,NGFL_EXT,ZRHODJM__(:,1:KLEV),&
   & ZUS__(:,1:KLEV), ZVS__(:,1:KLEV), ZWS__(:,1:KLEV), ZTHS__(:,1:KLEV), &
   & ZRS_, ZTKES_, YDDDH,YDMODEL%YRML_DIAG%YRLDDH,YDMODEL%YRML_DIAG%YRMDDH)
ENDIF


!    ------------------------------------------------------------------
!     7 - CONVECTION. 
!     --------------------------------------------------------------------

IF(LKFBCONV) THEN

  ! No swapp needed becaus IN and OUT are not needed simultaneously

  CALL BRI2ACCONV(YDMODEL%YRML_PHY_MF,YDGEOMETRY%YREGEO,KIDIA,KFDIA,KFDIA,KLEV,PGM(KIDIA:KFDIA),&
   & ZPABSM__(:,1:KLEV),ZZZ_F_, ZTM(KIDIA:KFDIA,:), ZRM_(:,:,1),ZRM_(:,:,2), ZRM_(:,:,4), &
   & ZRHODREFM__(:,1:KLEV), ZUM__(:,1:KLEV),ZVM__(:,1:KLEV), ZWM__(:,1:KLEV),ZMFS_,&
   & ZCVTENDT_, ZCVTENDRV_,ZCVTENDRC_, ZCVTENDRI_,ZCVTENDPR_, ZCVTENDPRS_ &
   & )

  IF(MOD(KSTEP+1,NPRINTFR)==0) THEN
    WRITE(NULOUT,*)"Pluie conv au sol", ZCVTENDPR_(NPTP), &
     & MAXVAL(ZCVTENDPR_(KIDIA:KFDIA)) ,MINVAL(ZCVTENDPR_(KIDIA:KFDIA))
  ENDIF

  DO JLEV = 1,KLEV
    DO JLON = KIDIA, KFDIA
      PTENDT(JLON,JLEV)=PTENDT(JLON,JLEV) + ZCVTENDT_(JLON,JLEV)
      PTENDR(JLON,JLEV,1) = PTENDR(JLON,JLEV,1) + ZCVTENDRV_(JLON,JLEV)*ZQDM(JLON,JLEV)  
      PTENDR(JLON,JLEV,2) = PTENDR(JLON,JLEV,2) + ZCVTENDRC_(JLON,JLEV)*ZQDM(JLON,JLEV)  
      PTENDR(JLON,JLEV,4) = PTENDR(JLON,JLEV,4) + ZCVTENDRI_(JLON,JLEV)*ZQDM(JLON,JLEV)  
      ZRS_(JLON,JLEV,1)=ZRS_(JLON,JLEV,1)+ZCVTENDRV_(JLON,JLEV)
      ZRS_(JLON,JLEV,2)=ZRS_(JLON,JLEV,2)+ZCVTENDRC_(JLON,JLEV)
      ZRS_(JLON,JLEV,4)=ZRS_(JLON,JLEV,4)+ZCVTENDRI_(JLON,JLEV)
      ZTHS__(JLON,JLEV)=ZTHS__(JLON,JLEV)+ZCVTENDT_(JLON,JLEV)*(RATM/PAPRSFM(JLON,JLEV))**(RD/RCPD)  
    ENDDO
  ENDDO
  DO JLON =KIDIA, KFDIA
    ZINPRR_(JLON)=ZINPRR_(JLON)+ZCVTENDPR_(JLON)-ZCVTENDPRS_(JLON)
    ZACPRR_(JLON)=ZACPRR_(JLON)+(ZCVTENDPR_(JLON)-ZCVTENDPRS_(JLON))*PDT
    ZINPRS_(JLON)=ZINPRS_(JLON)+ZCVTENDPRS_(JLON)
    ZACPRS_(JLON)=ZACPRS_(JLON)+ZCVTENDPRS_(JLON)*PDT
  ENDDO
  ! avance temporelle et inversion niveau pour ZMFS_
  ! on utilise PSIGS pour le flux de masse pour la condensation sous maille 
  ! car PSIGS n est utilise que si LOSIGMAS=T
  IF (LOSUBG_COND.AND..NOT.LOSIGMAS) THEN
    PSIGS(KIDIA:KFDIA,1:KLEV)=ZMFS_(KIDIA:KFDIA,1:KLEV)
  ENDIF
  IF(MOD(KSTEP+1,NPRINTFR)==0) THEN
    WRITE(NULOUT,*)"aps CONV, TENRV, TENRC, TENRI"
    DO JLEV=1,KLEV
      WRITE(NULOUT,*)PTENDR(NPTP,JLEV,1),PTENDR(NPTP,JLEV,2),PTENDR(NPTP,JLEV,4)
    ENDDO
  ENDIF
  CALL ARO_CONVBU(KFDIA,KLEV,NRR,ZRHODJM__(:,1:KLEV),ZRS_,ZTHS__(:,1:KLEV), &
   & YDDDH, YDMODEL%YRML_DIAG%YRLDDH, YDMODEL%YRML_DIAG%YRMDDH)

ENDIF

!    ------------------------------------------------------------------
!     8 - SURFACE. 
!     --------------------------------------------------------------------

IF (LLMSE) THEN
! A loop around SURFEX in order to test OpenMP

  SURFEX_LOOP : DO ISURFEX = 1, NSURFEX_ITER

! Initialisations 

  DO JLON=KIDIA,KFDIA
    ZZS_(JLON)=POROG(JLON)*ZINVG 
  ENDDO
  DO JLEV = 1,KLEV
    DO JLON=KIDIA,KFDIA
      ZDEPTH_HEIGHT_(JLON,JLEV)=ZZZ_F_(JLON,JLEV)-ZZS_(JLON)  
    ENDDO
  ENDDO
  IF (MINVAL(ZDEPTH_HEIGHT_(KIDIA:KFDIA,IKB)) <= 0._JPRB) THEN
    DO JLON=KIDIA,KFDIA
      IF (ZDEPTH_HEIGHT_(JLON,IKB) <= 0._JPRB) THEN
        WRITE (NULOUT,*)'sous apl_arome pb height en', JLON,ZAPHIFM(JLON,KLEV),POROG(JLON)
      ENDIF
    ENDDO
  ENDIF
  ! Can't use a section of pointer. An explicit copy shows, by the way, that a copy is needed
  ! because data is not contiguous. REK
  ZSVMB_(KIDIA:KFDIA,1:NGFL_EXT)=ZSVM_(KIDIA:KFDIA,IKB,1:NGFL_EXT)

  IF (LSURFEX_CRITICAL) THEN

!$OMP CRITICAL (ARO_GROUND_PARAM_LOCK)

    IF (LLMSE_PARAM) THEN
      CALL ARO_GROUND_PARAM( KBL,KGPCOMP,&
       & KFDIA,KIDIA,KFDIA,KSTEP,&
       & NRR,NSW,NGFL_EXT,NDGUNG, NDGUXG, NDLUNG, NDLUXG,LSURFEX_KFROM,&
       & LMPA,CCOUPLING,LDXFUMSE,&
       & NINDAT,ZRHGMT,ZSTATI,RSOVR,RCODEC,RSIDEC,&
       & PINDX(KIDIA:KFDIA),PINDY(KIDIA:KFDIA),&
       & ZUM__(:,IKB),&
       & ZVM__(:,IKB),&
       & ZTM(KIDIA:KFDIA,KLEV),ZRM_(:,IKB,1),&
       & ZSVMB_,&
       & RCARDI,ZRHODREFM__(:,IKB),&
       & ZPABSM__(:,IKB),PAPRSM(KIDIA:KFDIA,KLEV),&
       & ZDTMSE,ZDEPTH_HEIGHT_(:,IKB),ZZS_, XZSEPS,&
       & PMU0(KIDIA:KFDIA),PMU0N(KIDIA:KFDIA),PGELAM(KIDIA:KFDIA),&
       & PGEMU(KIDIA:KFDIA),XSW_BANDS,&
       & ZINPRR_NOTINCR_,ZINPRS_NOTINCR_,&
       & ZINPRG_NOTINCR_,&
       & PFRTHDS(KIDIA:KFDIA),ZZS_FSWDIF(KIDIA:KFDIA,1:NSW),&
       & ZZS_FSWDIR(KIDIA:KFDIA,1:NSW),&
       & ZCFAQ_, ZCFATH_, ZCFAU_,ZCFBQ_, ZCFBTH_, ZCFBU_,ZCFBV_,&
       & ZSFTH_,ZSFRV_,&
       & ZSFSV_,ZSFCO2_,&
       & ZSFU_,ZSFV_,&
       & ZALBP(KIDIA:KFDIA,1:NSW),ZALBD(KIDIA:KFDIA,1:NSW),&
       & ZEMIS(KIDIA:KFDIA),ZTSURF(KIDIA:KFDIA),PFRTH(KIDIA:KFDIA,KLEV,1))

    ENDIF

    IF (LRCO2) THEN
      ZSFSV_(KIDIA:KFDIA,NSV_CO2)= ZSFCO2_(KIDIA:KFDIA)
!print*,' FLUX CO2 =', MINVAL(ZSFSV_(KIDIA:KFDIA,NSV_CO2)),&
!                    & MAXVAL(ZSFSV_(KIDIA:KFDIA,NSV_CO2))
    ENDIF

!!!!! TEST DDH ATTENTION
!ZSFRV_(KIDIA:KFDIA) = 0._JPRB

    IF (LLMSE_DIAG) THEN

      CALL ARO_GROUND_DIAG( KBL, KGPCOMP,&
       & KFDIA,KIDIA,KFDIA,KLEV, IKL,&
       & NDGUNG, NDGUXG, NDLUNG, NDLUXG, LSURFEX_KFROM,&
       & ZZS_,ZSFRV_,&
       & ZUM__(:,IKTB:IKTE),&
       & ZVM__(:,IKTB:IKTE),&
       & ZDEPTH_HEIGHT_(:,IKTB:IKTE),&
       & PFRTH(KIDIA:KFDIA,KLEV,1),PFRSO(KIDIA:KFDIA,KLEV,1),&
       & PINDX(KIDIA:KFDIA),PINDY(KIDIA:KFDIA),&
       & ZQS(KIDIA:KFDIA),ZGZ0_,ZGZ0H_,&
       & PTCLS(KIDIA:KFDIA),PQCLS(KIDIA:KFDIA),PHUCLS(KIDIA:KFDIA),&
       & PUCLS(KIDIA:KFDIA),PVCLS(KIDIA:KFDIA),&
       & PNUCLS(KIDIA:KFDIA),PNVCLS(KIDIA:KFDIA),&
       & PFCLL(KIDIA:KFDIA,1),PFCLN(KIDIA:KFDIA,1),&
       & PFEVL(KIDIA:KFDIA,1),PFEVN(KIDIA:KFDIA,1),&
       & ZSSO_STDEV_, PSPSG(KIDIA:KFDIA),&
       & ZBUDTH_, ZBUDSO_,&
       & ZFCLL_, ZTOWNS_,&
       & ZCD_                         )
      CALL ARO_GROUND_DIAG_2ISBA( KBL, KGPCOMP, &
       & KFDIA, KIDIA, KFDIA, &
       & NDGUNG, NDGUXG, NDLUNG, NDLUXG, LSURFEX_KFROM, &
       & PINDX(KIDIA:KFDIA), PINDY(KIDIA:KFDIA), &
       & PLSM, ZDUMMY1, ZDUMMY1, ZDUMMY1, ZTSURF(KIDIA:KFDIA), PSPSG(KIDIA:KFDIA), &
       & ZDUMMY1(KIDIA:KFDIA), ZDUMMY1(KIDIA:KFDIA), ZDUMMY1(KIDIA:KFDIA), &
       & ZDUMMY1(KIDIA:KFDIA), ZDUMMY1(KIDIA:KFDIA), ZDUMMY1(KIDIA:KFDIA), &
       & ZDUMMY1(KIDIA:KFDIA), PSPSGR(KIDIA:KFDIA), ZDUMMY1 )

    ENDIF
 
!$OMP END CRITICAL (ARO_GROUND_PARAM_LOCK)
  ELSE

    IF (LLMSE_PARAM) THEN

      CALL ARO_GROUND_PARAM( KBL,KGPCOMP,&
       & KFDIA,KIDIA,KFDIA,KSTEP,&
       & NRR,NSW,NGFL_EXT,NDGUNG, NDGUXG, NDLUNG, NDLUXG,LSURFEX_KFROM,&
       & LMPA,CCOUPLING,LDXFUMSE,&
       & NINDAT,ZRHGMT,ZSTATI,RSOVR,RCODEC,RSIDEC,&
       & PINDX(KIDIA:KFDIA),PINDY(KIDIA:KFDIA),&
       & ZUM__(:,IKB),&
       & ZVM__(:,IKB),&
       & ZTM(KIDIA:KFDIA,KLEV),ZRM_(:,IKB,1),&
       & ZSVMB_,&
       & RCARDI,ZRHODREFM__(:,IKB),&
       & ZPABSM__(:,IKB),PAPRSM(KIDIA:KFDIA,KLEV),&
       & ZDTMSE,ZDEPTH_HEIGHT_(:,IKB),ZZS_, XZSEPS,&
       & PMU0(KIDIA:KFDIA),PMU0N(KIDIA:KFDIA),PGELAM(KIDIA:KFDIA),&
       & PGEMU(KIDIA:KFDIA),XSW_BANDS,&
       & ZINPRR_NOTINCR_,ZINPRS_NOTINCR_,&
       & ZINPRG_NOTINCR_,&
       & PFRTHDS(KIDIA:KFDIA),ZZS_FSWDIF(KIDIA:KFDIA,1:NSW),&
       & ZZS_FSWDIR(KIDIA:KFDIA,1:NSW),&
       & ZCFAQ_, ZCFATH_, ZCFAU_,ZCFBQ_, ZCFBTH_, ZCFBU_,ZCFBV_,&
       & ZSFTH_,ZSFRV_,&
       & ZSFSV_,ZSFCO2_,&
       & ZSFU_,ZSFV_,&
       & ZALBP(KIDIA:KFDIA,1:NSW),ZALBD(KIDIA:KFDIA,1:NSW),&
       & ZEMIS(KIDIA:KFDIA),ZTSURF(KIDIA:KFDIA),PFRTH(KIDIA:KFDIA,KLEV,1))

    ENDIF

    IF (LRCO2) THEN
      ZSFSV_(KIDIA:KFDIA,NSV_CO2)= ZSFCO2_(KIDIA:KFDIA)
!print*,' FLUX CO2 =', MINVAL(ZSFSV_(KIDIA:KFDIA,NSV_CO2)),&
!                    & MAXVAL(ZSFSV_(KIDIA:KFDIA,NSV_CO2))
    ENDIF

!!!!! TEST DDH ATTENTION
!ZSFRV_(KIDIA:KFDIA) = 0._JPRB

    IF (LLMSE_DIAG) THEN

      CALL ARO_GROUND_DIAG( KBL, KGPCOMP,&
       & KFDIA,KIDIA,KFDIA,KLEV, IKL,&
       & NDGUNG, NDGUXG, NDLUNG, NDLUXG, LSURFEX_KFROM,&
       & ZZS_,ZSFRV_,&
       & ZUM__(:,IKTB:IKTE),&
       & ZVM__(:,IKTB:IKTE),&
       & ZDEPTH_HEIGHT_(:,IKTB:IKTE),&
       & PFRTH(KIDIA:KFDIA,KLEV,1),PFRSO(KIDIA:KFDIA,KLEV,1),&
       & PINDX(KIDIA:KFDIA),PINDY(KIDIA:KFDIA),&
       & ZQS(KIDIA:KFDIA),ZGZ0_,ZGZ0H_,&
       & PTCLS(KIDIA:KFDIA),PQCLS(KIDIA:KFDIA),PHUCLS(KIDIA:KFDIA),&
       & PUCLS(KIDIA:KFDIA),PVCLS(KIDIA:KFDIA),&
       & PNUCLS(KIDIA:KFDIA),PNVCLS(KIDIA:KFDIA),&
       & PFCLL(KIDIA:KFDIA,1),PFCLN(KIDIA:KFDIA,1),&
       & PFEVL(KIDIA:KFDIA,1),PFEVN(KIDIA:KFDIA,1),&
       & ZSSO_STDEV_, PSPSG(KIDIA:KFDIA),&
       & ZBUDTH_, ZBUDSO_,&
       & ZFCLL_, ZTOWNS_,&
       & ZCD_                         )

      CALL ARO_GROUND_DIAG_2ISBA( KBL, KGPCOMP, &
       & KFDIA, KIDIA, KFDIA, &
       & NDGUNG, NDGUXG, NDLUNG, NDLUXG, LSURFEX_KFROM, &
       & PINDX(KIDIA:KFDIA), PINDY(KIDIA:KFDIA), &
       & PLSM, ZDUMMY1, ZDUMMY1, ZDUMMY1, ZTSURF(KIDIA:KFDIA), PSPSG(KIDIA:KFDIA), &
       & ZDUMMY1(KIDIA:KFDIA), ZDUMMY1(KIDIA:KFDIA), ZDUMMY1(KIDIA:KFDIA), &
       & ZDUMMY1(KIDIA:KFDIA), ZDUMMY1(KIDIA:KFDIA), ZDUMMY1(KIDIA:KFDIA), &
       & ZDUMMY1(KIDIA:KFDIA), PSPSGR(KIDIA:KFDIA), ZDUMMY1 )
 
    ENDIF

  ENDIF

  ENDDO SURFEX_LOOP

!* Compute PBL-diagnostics

   ZCAPE(:)=0._JPRB
   ZDCAPE(:)=0._JPRB   
   CALL ACCLDIA(YDXFU,YDPHY,YDMODEL%YRML_PHY_MF%YRPHY2,YDTOPH, KIDIA,KFDIA,KLON,KLEV,PUCLS,&
    & PVCLS,PUM(:,1:KLEV),PVM(:,1:KLEV), ZCAPE,ZDCAPE,ZTKEM(:,1:KLEV),PAPHIFM(:,1:KLEV),POROG,&
    & PUGST,PVGST,PPBLH,ICLPH)

   PPBLH(KIDIA:KFDIA)=MIN(XMAXLM,MAX(XMINLM,PPBLH(KIDIA:KFDIA))) 

   CALL ACVISIH(YDVISI,KIDIA,KFDIA,KLON,KTDIA,KLEV,PAPHIM,PAPHIFM,PAPRSFM,&
    & ZTM,ZRHM,ZQCM,ZQIM,ZQRM,ZQSM,ZQGM,PVISICLD, PVISIHYDRO,PMXCLWC)

ELSE

  ZSFSV_(KIDIA:KFDIA,:)=0._JPRB

ENDIF    !  <== End block "IF (LMSE)"

!*            IDEALIZED TURBULENT SURFACE FLUXES FOR SQUALL LINE CASE
!                --------------------------------------------------------

IF (LSQUALL.AND.LTURB) THEN
  ! on n'a besoin que d'un flux sur V (U est nul). 
  DO JLON=KIDIA,KFDIA
    IF (ABS(ZVM__(JLON,IKB)) <= 1.E-12) THEN
      ZSFV_(JLON)=0._JPRB
    ELSE
      ZSFV_(JLON)=-(ZVM__(JLON,IKB))**2 *&
       & (0.4_JPRB  /(LOG(ZZZ_F_(JLON,IKB)/0.2_JPRB) ) )**2&
       & *ZVM__(JLON,IKB)/ABS(ZVM__(JLON,IKB))  
    ENDIF
  ENDDO
ENDIF

!    ------------------------------------------------------------------
!    9.  Shallow Mass Flux Mixing
!    ------------------------------------------------------------------


IF (LMFSHAL) THEN
  IF (CMF_UPDRAFT=='DUAL') THEN
    ! Updraft computation from EDMF/ECMWF dual proposal
    ! Version May 2007
    !
    ! The following routine  are using arrays with the vertical Arpege/IFS fashion (as in the radiation scheme)

    IDRAFT = 2 ! beginning of the loop for MF tendency equation
               ! only 2 and 3 are used for tendency computation in ARO_SHALLOW_MF
    INDRAFT=3   ! 1 for test, 2 for dry, 3 for wet

    IF (KMAXDRAFT < INDRAFT) THEN
      CALL ABOR1('APL_AROME : KMAXDRAFT TOO SMALL !')
    ENDIF

    DO JLON = KIDIA, KFDIA
      ZZS_FTH_(JLON)=-1._JPRB*ZSFTH_(JLON)*(PAPRSM(JLON,KLEV)*ZINVATM)**(ZRSCP)
      ZZS_FRV_(JLON)=-1._JPRB*ZSFRV_(JLON)
    ENDDO
    ZZS_FU_(KIDIA:KFDIA)=ZSFU_(KIDIA:KFDIA)
    ZZS_FV_(KIDIA:KFDIA)=ZSFV_(KIDIA:KFDIA)

    !  IF LHARATU=TRUE then TKE at t-dt is needed as input for vdfexcuhl so fill ZTKEEDMF with t-1 value  from PTKEM

    IF (LHARATU) THEN
      DO JLEV=1,KLEV
        ZTKEEDMF(KIDIA:KFDIA,JLEV)=ZTKEM(KIDIA:KFDIA,JLEV)
        ZLENGTH_M(KIDIA:KFDIA,JLEV)=0.01_JPRB
        ZLENGTH_H(KIDIA:KFDIA,JLEV)=0.01_JPRB
      ENDDO
      IF (MAXVAL(ZTKEM(KIDIA:KFDIA,1:KLEV)) > 3300._JPRB) THEN
        DO JLEV=1, KLEV
          DO JLON = KIDIA, KFDIA
            IF (ZTKEM(JLON,JLEV) > 3300._JPRB) THEN
              WRITE (NULOUT,*) 'TKE > 3300 ! '
            ENDIF
          ENDDO
        ENDDO
      ENDIF
    ENDIF

    CALL VDFHGHTHL(YDMODEL%YRML_PHY_G%YRVDF,YDMODEL%YRML_PHY_SLIN%YREPHLI, &
     & YDMODEL%YRML_PHY_EC%YRECUMF,YDMODEL%YRML_PHY_EC%YREPHY,YDPARAR, &
     & KSTEP,KIDIA,KFDIA,KLON,KLEV,INDRAFT,&
     & PDT, PUM, PVM,&
     & ZTM,ZQVM,ZQCM,ZQIM,PCLFS,&
     & PAPRSM, PAPRSFM, ZAPHIFM,ZAPHIM,&
     & ZZS_FTH_,ZZS_FRV_,ZZS_FU_,ZZS_FV_,&
     & ZMF_UP,ZTHETAL_UP,ZQT_UP,ZTHTV_UP,ZQC_UP,ZQI_UP,&
     & ZU_UP, ZV_UP,&
     & PGP2DSPP, NGFL_EZDIAG, PEZDIAG, &
     & ZTENDQVUP,ZTENDTUP,ZSURFPREP,ZSURFSNOW, &
     & ZUPGENL,ZUPGENN, ZCLFR, &
     & ZLENGTH_M, ZLENGTH_H, ZTKEEDMF)

    !  tendtup, tendqvup  tendencies for non-conserved AROME
    !  variables due to updraft precipitation/snow (and its evaporation)
    DO JLEV = 2 ,KLEV
      DO JLON = KIDIA,KFDIA
        PTENDT(JLON,JLEV)=PTENDT(JLON,JLEV) + ZTENDTUP(JLON,JLEV)
        PTENDR(JLON,JLEV,1)=PTENDR(JLON,JLEV,1) + ZTENDQVUP(JLON,JLEV)
      ENDDO
    ENDDO
    
    IF(LTOTPREC)THEN
      !Add rain and snow tendencies from the sub-grid scheme to tendencies and sources,
      !at all vertical levels, instead of diagnosing only surface precip. 
      ZSURFPREP(KIDIA:KFDIA)=0.0_JPRB
      ZSURFSNOW(KIDIA:KFDIA)=0.0_JPRB
      DO JLEV= 1, KLEV
        DO JLON = KIDIA, KFDIA
          !Add rain and snow to sources:
          ZRS_(JLON,JLEV,3)=ZRS_(JLON,JLEV,3)+ZUPGENL(JLON,JLEV)
          ZRS_(JLON,JLEV,5)=ZRS_(JLON,JLEV,5)+ZUPGENN(JLON,JLEV)
          ZTHS__(JLON,JLEV)=ZTHS__(JLON,JLEV)+ZTENDTUP(JLON,JLEV)*(RATM/&
           & PAPRSFM(JLON,JLEV))**(RD/RCPD)
          !Update rain/snow tendencies:
          PTENDR(JLON,JLEV,3)=PTENDR(JLON,JLEV,3)+ZUPGENL(JLON,JLEV)
          PTENDR(JLON,JLEV,5)=PTENDR(JLON,JLEV,5)+ZUPGENN(JLON,JLEV)
        ENDDO
      ENDDO 
    ENDIF

  ELSE
    IDRAFT=3 ! only a wet updraft
    INDRAFT=1
    ZSURFPREP(KIDIA:KFDIA)=0._JPRB
    ZSURFSNOW(KIDIA:KFDIA)=0._JPRB
  ENDIF

  DO JDRAFT=IDRAFT,3

    ! No need to swapp because IN and OUT are never needed simultaneously

    !!! Call mass fluxes computations
    ! If CMF_UPDRAFT='DUAL', the updraft characteritics are already computed and will be passed as inputs of SHALLOW_MF
    ! if not, they will be computed in SHALLOW_MF itself (from Méso-NH type routines)

    ! JDRAFT=2 : dry updraft
    ! JDRAFT=3 : wet updraft

    IF (CMF_UPDRAFT=='DUAL') THEN
      ! Goes from one of the updraft from the IFS level world to the Méso-NH level world
      ! go from q to r)
      DO JLEV = 1,KLEV
        DO JLON = KIDIA,KFDIA
          ZMF_UP__(JLON,JLEV) = ZMF_UP(JLON,JLEV,JDRAFT)
          ZZU_UP_(JLON,JLEV) = ZU_UP(JLON,JLEV,JDRAFT)
          ZZV_UP_(JLON,JLEV) = ZV_UP(JLON,JLEV,JDRAFT)
          ZTHETAL_UP_(JLON,JLEV) = ZTHETAL_UP(JLON,JLEV,JDRAFT)
          ZTHETAV_UP_(JLON,JLEV) = ZTHTV_UP(JLON,JLEV,JDRAFT)
          ZRT_UP_(JLON,JLEV)  = ZQT_UP(JLON,JLEV,JDRAFT)/(1.-ZQT_UP(JLON,JLEV,JDRAFT))
          ZRC_UP_(JLON,JLEV)  = ZQC_UP(JLON,JLEV,JDRAFT)/(1.-ZQT_UP(JLON,JLEV,JDRAFT))
          ZRI_UP_(JLON,JLEV)  = ZQI_UP(JLON,JLEV,JDRAFT)/(1.-ZQT_UP(JLON,JLEV,JDRAFT))
        ENDDO
      ENDDO
      ZZW_UP_(KIDIA:KFDIA,1:IKT)=0._JPRB
      ZZFRAC_UP_(KIDIA:KFDIA,1:IKT)=0._JPRB
      IF (LHARATU) THEN
        DO JLEV = 1,KLEV
          DO JLON = KIDIA,KFDIA
            ZLENGTHM__(JLON,JLEV) = MAX(0.01_JPRB,ZLENGTH_M(JLON,JLEV))
            ZLENGTHH__(JLON,JLEV) = MAX(0.01_JPRB,ZLENGTH_H(JLON,JLEV))
            ! TKE should be bigger than a minimum value:
            ZTKEEDMFS(JLON,JLEV) = MAX(ZTKEEDMF(JLON,JLEV),PPTKEMIN)*ZINVDT
          ENDDO
        ENDDO
      ENDIF
    ENDIF
    IF(MOD(KSTEP+1,NPRINTFR)==0) THEN
      WRITE(NULOUT,*)"apres surface zsfth zsfrv",ZSFTH_(NPTP),ZSFRV_(NPTP)
    ENDIF

    DO JLEV = 1, KLEV 
      ZRC_MF_(KIDIA:KFDIA,JLEV)=0._JPRB
      ZRI_MF_(KIDIA:KFDIA,JLEV)=0._JPRB
      ZCF_MF_(KIDIA:KFDIA,JLEV)=0._JPRB
    ENDDO

    IF (JDRAFT == IDRAFT) THEN
      ! Fill the sum at the first iteration
      ZARG_FLXZTHVMF_ => ZFLXZTHVMF_SUM__(:,1:KLEV)
    ELSE
      ! increment
      ZARG_FLXZTHVMF_ => ZFLXZTHVMF_(:,1:KLEV)
    ENDIF

    CALL ARO_SHALLOW_MF (KKL=IKL, KLON=KFDIA,KLEV=KLEV,KRR=NRR,KRRL=NRRL,&
     & KRRI=NRRI,KSV=NGFL_EXT,HMF_UPDRAFT=CMF_UPDRAFT, HMF_CLOUD=CMF_CLOUD,&
     & HFRAC_ICE=CFRAC_ICE_SHALLOW_MF,&
     & OMIXUV=LMIXUV, ONOMIXLG=.FALSE.,KSV_LGBEG=0,KSV_LGEND=0,&
     & KTCOUNT=KSTEP+1, PTSTEP=ZDT,&
     & PZZ=ZZZ_,PZZF=ZZZ_F_,&
     & PDZZF=ZDZZ_F_,&
     & PRHODJ=ZRHODJM__(:,1:KLEV),&
     & PRHODREF=ZRHODREFM__(:,1:KLEV),&
     & PPABSM=ZPABSM__(:,1:KLEV),&
     & PEXNM=ZEXNREFM_,&
     & PSFTH=ZSFTH_,PSFRV=ZSFRV_,&
     & PTHM=ZTHM__(:,1:KLEV),PRM=ZRM_,&
     & PUM=ZUM__(:,1:KLEV),PVM=ZVM__(:,1:KLEV),&
     & PTKEM=ZTKEM__(:,1:KLEV),PSVM=ZSVM_,&
     & PDUDT_MF=ZMFUS_,PDVDT_MF=ZMFVS_,&
     & PDTHLDT_MF=ZTHLS_,PDRTDT_MF=ZRTS_,&
     & PDSVDT_MF=ZSVXXX_,&
     & PSIGMF=ZSIGMF_,PRC_MF=ZRC_MF_,&
     & PRI_MF=ZRI_MF_,&
     & PCF_MF=ZCF_MF_,PFLXZTHVMF=ZARG_FLXZTHVMF_,&
     & PTHL_UP=ZTHETAL_UP_,PRT_UP= ZRT_UP_,&
     & PRV_UP=ZZRV_UP_,&
     & PRC_UP=ZRC_UP_,PRI_UP=ZRI_UP_,&
     & PU_UP=ZZU_UP_,PV_UP=ZZV_UP_,&
     & PTHV_UP=ZTHETAV_UP_,PW_UP=ZZW_UP_,&
     & PFRAC_UP=ZZFRAC_UP_,PEMF=ZMF_UP__(:,1:KLEV))

    IF (JDRAFT > IDRAFT) THEN
      ! Add increment
      ZFLXZTHVMF_SUM__(KIDIA:KFDIA,1:KLEV)=ZFLXZTHVMF_SUM__(KIDIA:KFDIA,1:KLEV)+ZFLXZTHVMF_(KIDIA:KFDIA,1:KLEV)
    ENDIF

    ! traitement des sorties pour repasser dans le monde Aladin

    IF ((CMF_CLOUD=='DIRE'.OR.CMF_CLOUD=='BIGA').AND.JDRAFT==3) THEN
      ! sauvegarde pour le schema de nuage
      DO JLEV = 1,KLEV
        PEZDIAG(KIDIA:KFDIA,JLEV,1)=ZRC_MF_(KIDIA:KFDIA,JLEV)
        PEZDIAG(KIDIA:KFDIA,JLEV,3)=ZRI_MF_(KIDIA:KFDIA,JLEV)
        PEZDIAG(KIDIA:KFDIA,JLEV,2)=ZCF_MF_(KIDIA:KFDIA,JLEV)
      ENDDO
    ENDIF
    DO JLEV = 1,KLEV
      DO JLON = KIDIA,KFDIA
        ZUS__(JLON,JLEV)=ZUS__(JLON,JLEV)+ZMFUS_(JLON,JLEV)
        ZVS__(JLON,JLEV)=ZVS__(JLON,JLEV)+ZMFVS_(JLON,JLEV)
        ZTHS__(JLON,JLEV)=ZTHS__(JLON,JLEV)+ZTHLS_(JLON,JLEV)
        ZRS_(JLON,JLEV,1)=ZRS_(JLON,JLEV,1)+ZRTS_(JLON,JLEV)
        !calcul de tendance et inversion des niveaux pour le vent horizontal
        PTENDU(JLON,JLEV)=PTENDU(JLON,JLEV)+ZMFUS_(JLON,JLEV)
        PTENDV(JLON,JLEV)=PTENDV(JLON,JLEV)+ZMFVS_(JLON,JLEV)
        !conversion de la tendance de theta en tendance de T et inversion niveau
        PTENDT(JLON,JLEV)=PTENDT(JLON,JLEV)+ZTHLS_(JLON,JLEV)*ZEXNREFM_(JLON,JLEV)
        ZTENDT(JLON,JLEV)=ZTENDT(JLON,JLEV)+ZTHLS_(JLON,JLEV)
        !inversion niveaux tendances des ri et conversion en qi en multipliant par qd
        PTENDR(JLON,JLEV,1) = PTENDR(JLON,JLEV,1)+ZRTS_(JLON,JLEV)*ZQDM(JLON,JLEV)
      ENDDO
    ENDDO

  ENDDO ! JDRAFT

ENDIF ! LMFSHAL


!    ------------------------------------------------------------------
!     10 - TURBULENCE.
!     --------------------------------------------------------------------

IF (LTURB) THEN

  ! Swapp because IN and OUT might be needed simultaneously (though commented out)
  CALL SWAP_LIMAS

  ! Swapp because IN and OUT will be needed simultaneously
  CALL SWAP_SVS
  ! well let's keep the copy, though for now  OUT=IN anyway.
  IF (NGFL_EXT /=0 ) THEN
    ZSVSIN_(KIDIA:KFDIA,1:KLEV,1:NGFL_EXT)=ZSVS_(KIDIA:KFDIA,1:KLEV,1:NGFL_EXT)
  ENDIF

  !prints
  IF(MOD(KSTEP+1,NPRINTFR)==0) THEN
    WRITE(NULOUT,*)'avant d entrer dans turb sous apl_arome U'
    WRITE(NULOUT,*)MAXVAL(ZUM__(:,IKB)), MINVAL(ZUM__(:,IKB))
    WRITE(NULOUT,*)'avant d entrer dans turb sous apl_arome V'
    WRITE(NULOUT,*)MAXVAL(ZVM__(:,IKB)), MINVAL(ZVM__(:,IKB))
    WRITE(NULOUT,*)'avant d entrer dans turb sous apl_arome W'
    WRITE(NULOUT,*)MAXVAL(ZWM__(:,IKB)), MINVAL(ZWM__(:,IKB))
    WRITE(NULOUT,*)'avant d entrer dans turb sous apl_arome TKE'
    WRITE(NULOUT,*)MAXVAL(ZTKEM__(:,IKB)), MINVAL(ZTKEM__(:,IKB))
    DO JLEV=1,KLEV
      WRITE(NULOUT,*)JLEV,ZUM__(NPTP,JLEV),ZVM__(NPTP,JLEV),ZWM__(NPTP,JLEV),ZTKEM__(NPTP,JLEV)
    ENDDO
    WRITE(NULOUT,*)'u v w tke a S'
    DO JLEV=1,KLEV
      WRITE(NULOUT,*)JLEV,ZUS__(NPTP,JLEV),ZVS__(NPTP,JLEV),ZWS__(NPTP,JLEV),ZTKES_(NPTP,JLEV)
    ENDDO
    WRITE(NULOUT,*)'ZTHS__ avant turb'
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