module phyetat0_mod implicit none contains subroutine phyetat0 (startphy_file, & ngrid,nlayer,fichnom,tab0,Lmodif,nsoil,nq, & day_ini,time,tsurf,tsoil, & emis,q2,qsurf,therm_inertia) ! ,cloudfrac,totcloudfrac,hice, & ! rnat,pctsrf_sic) ! ,tslab,tsea_ice,sea_ice) !AF24 ! to use 'getin_p' use ioipsl_getin_p_mod, only: getin_p !! use write_field_phy, only: Writefield_phy !! use comsoil_h, only: nsoilmx use tabfi_mod, only: tabfi USE tracer_h, ONLY: noms USE surfdat_h, only: phisfi, albedodat, zmea, zstd, zsig, zgam, zthe use iostart, only: nid_start, open_startphy, close_startphy, & get_field, get_var, inquire_field, & inquire_dimension, inquire_dimension_length use callkeys_mod, only: surfalbedo,surfemis, callsoil implicit none !====================================================================== ! Arguments: ! --------- ! inputs: logical,intent(in) :: startphy_file ! .true. if reading start file integer,intent(in) :: ngrid integer,intent(in) :: nlayer character*(*),intent(in) :: fichnom ! "startfi.nc" file integer,intent(in) :: tab0 integer,intent(in) :: Lmodif integer,intent(in) :: nsoil ! # of soil layers integer,intent(in) :: nq integer,intent(out) :: day_ini real,intent(out) :: time ! outputs: real,intent(out) :: tsurf(ngrid) ! surface temperature real,intent(out) :: tsoil(ngrid,nsoil) ! soil temperature real,intent(out) :: emis(ngrid) ! surface emissivity real,intent(out) :: q2(ngrid,nlayer+1) ! real,intent(out) :: qsurf(ngrid,nq) ! tracers on surface real,intent(out) :: therm_inertia(ngrid,nsoilmx) ! thermal inertia ! real n2ice(ngrid) ! n2 ice cover !====================================================================== ! Local variables: ! INTEGER radpas ! REAL n2_ppm ! REAL solaire real xmin,xmax ! to display min and max of a field ! INTEGER ig,iq,lmax INTEGER nid, nvarid INTEGER ierr, i, nsrf ! integer isoil ! INTEGER length ! PARAMETER (length=100) CHARACTER*7 str7 CHARACTER*2 str2 CHARACTER*1 yes ! REAL p_rad,p_omeg,p_g,p_cpp,p_mugaz,p_daysec,thermal_inertia_if_no_startfi INTEGER nqold ! flag which identifies if 'startfi.nc' file is using old names (qsurf01,...) ! logical :: oldtracernames=.false. integer :: count character(len=30) :: txt ! to store some text INTEGER :: indextime=1 ! index of selected time, default value=1 logical :: found character(len=8) :: modname="phyetat0" ! ! ALLOCATE ARRAYS IN surfdat_h ! IF (.not. ALLOCATED(albedodat)) ALLOCATE(albedodat(ngrid)) IF (.not. ALLOCATED(phisfi)) ALLOCATE(phisfi(ngrid)) IF (.not. ALLOCATED(zmea)) ALLOCATE(zmea(ngrid)) IF (.not. ALLOCATED(zstd)) ALLOCATE(zstd(ngrid)) IF (.not. ALLOCATED(zsig)) ALLOCATE(zsig(ngrid)) IF (.not. ALLOCATED(zgam)) ALLOCATE(zgam(ngrid)) IF (.not. ALLOCATED(zthe)) ALLOCATE(zthe(ngrid)) if (startphy_file) then ! open physics initial state file: call open_startphy(fichnom) ! possibility to modify tab_cntrl in tabfi write(*,*) write(*,*) 'TABFI in phyeta0: Lmodif=',Lmodif," tab0=",tab0 call tabfi (ngrid,nid_start,Lmodif,tab0,day_ini,lmax,p_rad, & p_omeg,p_g,p_cpp,p_mugaz,p_daysec,time) else ! "academic" initialization of planetary parameters via tabfi call tabfi (ngrid,0,0,0,day_ini,lmax,p_rad, & p_omeg,p_g,p_cpp,p_mugaz,p_daysec,time) endif ! of if (startphy_file) if (startphy_file) then ! Load surface geopotential: call get_field("phisfi",phisfi,found) if (.not.found) then call abort_physic(modname,"Failed loading ",1) endif else phisfi(:)=0. endif ! of if (startphy_file) write(*,*) "phyetat0: surface geopotential range:", & minval(phisfi), maxval(phisfi) if (startphy_file) then ! Load bare ground albedo: call get_field("albedodat",albedodat,found) if (.not.found) then call abort_physic(modname,"Failed loading ",1) endif else ! If no startfi file, use parameter surfalbedo in def file surfalbedo=0.5 call getin_p("surfalbedo",surfalbedo) print*,"surfalbedo",surfalbedo albedodat(:)=surfalbedo endif ! of if (startphy_file) write(*,*) "phyetat0: Bare ground albedo range:", & minval(albedodat), maxval(albedodat) ! ZMEA if (startphy_file) then call get_field("ZMEA",zmea,found) if (.not.found) then call abort_physic(modname,"Failed loading ",1) endif else zmea(:)=0. endif ! of if (startphy_file) write(*,*) "phyetat0: range:", & minval(zmea), maxval(zmea) ! ZSTD if (startphy_file) then call get_field("ZSTD",zstd,found) if (.not.found) then call abort_physic(modname,"Failed loading ",1) endif else zstd(:)=0. endif ! of if (startphy_file) write(*,*) "phyetat0: range:", & minval(zstd), maxval(zstd) ! ZSIG if (startphy_file) then call get_field("ZSIG",zsig,found) if (.not.found) then call abort_physic(modname,"Failed loading ",1) endif else zsig(:)=0. endif ! of if (startphy_file) write(*,*) "phyetat0: range:", & minval(zsig), maxval(zsig) ! ZGAM if (startphy_file) then call get_field("ZGAM",zgam,found) if (.not.found) then call abort_physic(modname,"Failed loading ",1) endif else zgam(:)=0. endif ! of if (startphy_file) write(*,*) "phyetat0: range:", & minval(zgam), maxval(zgam) ! ZTHE if (startphy_file) then call get_field("ZTHE",zthe,found) if (.not.found) then call abort_physic(modname,"Failed loading ",1) endif else zthe(:)=0. endif ! of if (startphy_file) write(*,*) "phyetat0: range:", & minval(zthe), maxval(zthe) ! Surface temperature : if (startphy_file) then call get_field("tsurf",tsurf,found,indextime) if (.not.found) then call abort_physic(modname,"Failed loading ",1) endif else tsurf(:)=0. ! will be updated afterwards in physiq ! endif ! of if (startphy_file) write(*,*) "phyetat0: Surface temperature range:", & minval(tsurf), maxval(tsurf) ! Surface emissivity if (startphy_file) then call get_field("emis",emis,found,indextime) if (.not.found) then call abort_physic(modname,"Failed loading ",1) endif else ! If no startfi file, use parameter surfemis in def file surfemis=1.0 call getin_p("surfemis",surfemis) print*,"surfemis",surfemis emis(:)=surfemis endif ! of if (startphy_file) write(*,*) "phyetat0: Surface emissivity range:", & minval(emis), maxval(emis) ! !AF24 removed ocean stuff ! pbl wind variance if (startphy_file) then call get_field("q2",q2,found,indextime) if (.not.found) then call abort_physic(modname,"Failed loading ",1) endif else q2(:,:)=0. endif ! of if (startphy_file) write(*,*) "phyetat0: PBL wind variance range:", & minval(q2), maxval(q2) ! tracer on surface if (nq.ge.1) then do iq=1,nq txt=noms(iq) if (startphy_file) then call get_field(txt,qsurf(:,iq),found,indextime) if (.not.found) then write(*,*) "phyetat0: Failed loading <",trim(txt),">" write(*,*) " ",trim(txt)," is set to zero" qsurf(:,iq) = 0. endif else qsurf(:,iq)=0. endif ! of if (startphy_file) write(*,*) "phyetat0: Surface tracer <",trim(txt),"> range:", & minval(qsurf(:,iq)), maxval(qsurf(:,iq)) enddo! of do iq=1,nq endif ! of if (nq.ge.1) !!call WriteField_phy("in_phyetat0_qsurf",qsurf(1:ngrid,igcm_h2o_gas),1) if (startphy_file) then ! Call to soil_settings, in order to read soil temperatures, ! as well as thermal inertia and volumetric heat capacity if (callsoil) then call soil_settings(nid_start,ngrid,nsoil,tsurf,tsoil,indextime) endif else thermal_inertia_if_no_startfi=400 ! default value call getin_p("thermal_inertia_if_no_startfi",thermal_inertia_if_no_startfi) therm_inertia(:,:) = thermal_inertia_if_no_startfi !AF24 endif ! of if (startphy_file) ! ! close file: ! if (startphy_file) call close_startphy end subroutine phyetat0 end module phyetat0_mod