diff --git a/model/src/wav_comp_nuopc.F90 b/model/src/wav_comp_nuopc.F90 index 78e6bfc07..fbf9450b0 100644 --- a/model/src/wav_comp_nuopc.F90 +++ b/model/src/wav_comp_nuopc.F90 @@ -234,6 +234,7 @@ subroutine InitializeAdvertise(gcomp, importState, exportState, clock, rc) ! local variables character(len=CL) :: logmsg logical :: isPresent, isSet + logical :: aux_flds_to_cmeps character(len=CL) :: cvalue character(len=*), parameter :: subname=trim(modName)//':(InitializeAdvertise) ' !------------------------------------------------------------------------------- @@ -369,7 +370,18 @@ subroutine InitializeAdvertise(gcomp, importState, exportState, clock, rc) write(logmsg,'(A,l)') trim(subname)//': Wave wav_coupling_to_cice setting is ',wav_coupling_to_cice call ESMF_LogWrite(trim(logmsg), ESMF_LOGMSG_INFO) - call advertise_fields(importState, exportState, flds_scalar_name, rc) + ! Determine if auxiliary fields will be sent to cmeps for use in mediator history output + aux_flds_to_cmeps = .false. + call NUOPC_CompAttributeGet(gcomp, name='histaux_wav2med_file1_enabled', value=cvalue, isPresent=isPresent, & + isSet=isSet, rc=rc) + if (ChkErr(rc,__LINE__,u_FILE_u)) return + if (isPresent .and. isSet) then + read(cvalue,*) aux_flds_to_cmeps + end if + write(logmsg,'(A,l)') trim(subname)//': Wave aux_flds_to_cmeps is ',aux_flds_to_cmeps + call ESMF_LogWrite(trim(logmsg), ESMF_LOGMSG_INFO) + + call advertise_fields(importState, exportState, flds_scalar_name, aux_flds_to_cmeps, rc) if (ChkErr(rc,__LINE__,u_FILE_u)) return call ESMF_LogWrite(trim(subname)//' done', ESMF_LOGMSG_INFO) @@ -609,7 +621,7 @@ subroutine InitializeRealize(gcomp, importState, exportState, clock, rc) if (ChkErr(rc,__LINE__,u_FILE_u)) return endif ! Determine time attributes for history output - call ESMF_TimeGet( esmfTime, timeString=time_origin, calendar=calendar, rc=rc ) + call ESMF_TimeGet( startTime, timeString=time_origin, calendar=calendar, rc=rc ) if (ChkErr(rc,__LINE__,u_FILE_u)) return time_origin = 'seconds since '//time_origin(1:10)//' '//time_origin(12:19) !call ESMF_ClockGet(clock, calendar=calendar) diff --git a/model/src/wav_import_export.F90 b/model/src/wav_import_export.F90 index 0291a5680..c8e27b9fa 100644 --- a/model/src/wav_import_export.F90 +++ b/model/src/wav_import_export.F90 @@ -86,11 +86,12 @@ module wav_import_export !! !> @author mvertens@ucar.edu, Denise.Worthen@noaa.gov !> @date 01-05-2022 - subroutine advertise_fields(importState, ExportState, flds_scalar_name, rc) + subroutine advertise_fields(importState, ExportState, flds_scalar_name, aux_flds_to_cmeps, rc) ! input/output variables type(ESMF_State) :: importState type(ESMF_State) :: exportState character(len=*) , intent(in) :: flds_scalar_name + logical , intent(in) :: aux_flds_to_cmeps integer , intent(out) :: rc ! local variables @@ -149,6 +150,17 @@ subroutine advertise_fields(importState, ExportState, flds_scalar_name, rc) call fldlist_add(fldsFrWav_num, fldsFrWav, 'Sw_pstokes_x', ungridded_lbound=1, ungridded_ubound=3) call fldlist_add(fldsFrWav_num, fldsFrWav, 'Sw_pstokes_y', ungridded_lbound=1, ungridded_ubound=3) + if (aux_flds_to_cmeps) then + ! fields to mediator added only for averged time history capability in mediator history files + call fldlist_add(fldsFrWav_num, fldsFrWav, 'Sw_hs') + call fldlist_add(fldsFrWav_num, fldsFrWav, 'Sw_wlm') + call fldlist_add(fldsFrWav_num, fldsFrWav, 'Sw_thm') + call fldlist_add(fldsFrWav_num, fldsFrWav, 'Sw_thp0') + call fldlist_add(fldsFrWav_num, fldsFrWav, 'Sw_fp0') + call fldlist_add(fldsFrWav_num, fldsFrWav, 'Sw_u') + call fldlist_add(fldsFrWav_num, fldsFrWav, 'Sw_v') + end if + ! AA TODO: In the above fldlist_add calls, we are passing hardcoded ungridded_ubound values (3) because, USSPF(2) ! is not initialized yet. It is set during w3init which gets called at a later phase (realize). A permanent solution ! will be implemented soon based on receiving USSP and USSPF from the coupler instead of the mod_def file. This will @@ -580,7 +592,7 @@ subroutine export_fields (gcomp, rc) !--------------------------------------------------------------------------- use wav_kind_mod, only : R8 => SHR_KIND_R8 - use w3adatmd , only : USSX, USSY, USSP + use w3adatmd , only : USSX, USSY, USSP, HS, WLM, THM, THP0, FP0, TUSX, TUSY use w3adatmd , only : w3seta use w3idatmd , only : w3seti use w3wdatmd , only : va, w3setw @@ -604,6 +616,7 @@ subroutine export_fields (gcomp, rc) real(R8) :: fillvalue = zero ! special missing value #endif type(ESMF_State) :: exportState + type(ESMF_State) :: importState ! needed if aux history is output by cmeps integer :: n, jsea, isea, ix, iy, ib real(r8), pointer :: z0rlen(:) @@ -620,6 +633,18 @@ subroutine export_fields (gcomp, rc) real(r8), pointer :: sw_vstokes(:) real(r8), pointer :: sw_hstokes(:) + real(r8), pointer :: sw_hs(:) + real(r8), pointer :: sw_wlm(:) + real(r8), pointer :: sw_thm(:) + real(r8), pointer :: sw_thp0(:) + real(r8), pointer :: sw_fp0(:) + real(r8), pointer :: sw_u(:) + real(r8), pointer :: sw_v(:) + real(r8), pointer :: sw_tusx(:) + real(r8), pointer :: sw_tusy(:) + real(r8), pointer :: sa_u(:) + real(r8), pointer :: sa_v(:) + ! d2 is location, d1 is frequency - nwav_elev_spectrum frequencies will be used real(r8), pointer :: wave_elevation_spectrum(:,:) @@ -633,7 +658,7 @@ subroutine export_fields (gcomp, rc) if (dbug_flag > 5) call ESMF_LogWrite(trim(subname)//' called', ESMF_LOGMSG_INFO) ! Get export state - call NUOPC_ModelGet(gcomp, exportState=exportState, rc=rc) + call NUOPC_ModelGet(gcomp, exportState=exportState, importState=importState, rc=rc) if (ChkErr(rc,__LINE__,u_FILE_u)) return #ifndef W3_CESMCOUPLED @@ -775,6 +800,147 @@ subroutine export_fields (gcomp, rc) end if endif + ! ----------------------------------------------- + ! for time averaged otuput to CMEPS auxiliary history file(s) + ! ----------------------------------------------- + + ! Significant wave height + if (state_fldchk(exportState, 'Sw_hs')) then + call state_getfldptr(exportState, 'Sw_hs', sw_hs, rc=rc) + if (ChkErr(rc,__LINE__,u_FILE_u)) return + sw_hs(:) = fillvalue + do jsea=1, nseal_cpl + call init_get_isea(isea, jsea) + ix = mapsf(isea,1) + iy = mapsf(isea,2) + if (mapsta(iy,ix) == 1) then + sw_hs(jsea) = HS(jsea) + else + sw_hs(jsea) = 0. + endif + enddo + end if + + ! Mean wave length + if (state_fldchk(exportState, 'Sw_wlm')) then + call state_getfldptr(exportState, 'Sw_wlm', sw_wlm, rc=rc) + if (ChkErr(rc,__LINE__,u_FILE_u)) return + sw_wlm(:) = fillvalue + do jsea=1, nseal_cpl + call init_get_isea(isea, jsea) + ix = mapsf(isea,1) + iy = mapsf(isea,2) + if (mapsta(iy,ix) == 1) then + sw_wlm(jsea) = WLM(jsea) + else + sw_wlm(jsea) = 0. + endif + enddo + end if + + ! Mean wave direction + if (state_fldchk(exportState, 'Sw_thm')) then + call state_getfldptr(exportState, 'Sw_thm', sw_thm, rc=rc) + if (ChkErr(rc,__LINE__,u_FILE_u)) return + sw_thm(:) = fillvalue + do jsea=1, nseal_cpl + call init_get_isea(isea, jsea) + ix = mapsf(isea,1) + iy = mapsf(isea,2) + if (mapsta(iy,ix) == 1) then + sw_thm(jsea) = THM(jsea) + else + sw_thm(jsea) = 0. + endif + enddo + end if + + ! Peak direction + if (state_fldchk(exportState, 'Sw_thp0')) then + call state_getfldptr(exportState, 'Sw_thp0', sw_thp0, rc=rc) + if (ChkErr(rc,__LINE__,u_FILE_u)) return + sw_thp0(:) = fillvalue + do jsea=1, nseal_cpl + call init_get_isea(isea, jsea) + ix = mapsf(isea,1) + iy = mapsf(isea,2) + if (mapsta(iy,ix) == 1) then + sw_thp0(jsea) = THP0(jsea) + else + sw_thp0(jsea) = 0. + endif + enddo + end if + + ! Peak frequency + if (state_fldchk(exportState, 'Sw_fp0')) then + call state_getfldptr(exportState, 'Sw_fp0', sw_fp0, rc=rc) + if (ChkErr(rc,__LINE__,u_FILE_u)) return + sw_fp0(:) = fillvalue + do jsea=1, nseal_cpl + call init_get_isea(isea, jsea) + ix = mapsf(isea,1) + iy = mapsf(isea,2) + if (mapsta(iy,ix) == 1) then + sw_fp0(jsea) = FP0(jsea) + else + sw_fp0(jsea) = 0. + endif + enddo + end if + + ! Input zonal wind + if (state_fldchk(exportState, 'Sw_u') .and. state_fldchk(importState, 'Sa_u')) then + call state_getfldptr(importState, 'Sa_u', sa_u, rc=rc) + if (ChkErr(rc,__LINE__,u_FILE_u)) return + call state_getfldptr(exportState, 'Sw_u', sw_u, rc=rc) + if (ChkErr(rc,__LINE__,u_FILE_u)) return + sw_u(:) = sa_u(:) + end if + + ! Input meridional wind + if (state_fldchk(exportState, 'Sw_v') .and. state_fldchk(importState, 'Sa_v')) then + call state_getfldptr(importState, 'Sa_v', sa_v, rc=rc) + if (ChkErr(rc,__LINE__,u_FILE_u)) return + call state_getfldptr(exportState, 'Sw_v', sw_v, rc=rc) + if (ChkErr(rc,__LINE__,u_FILE_u)) return + sw_v(:) = sa_v(:) + end if + + ! Stokes transfer vector zonal + if (state_fldchk(exportState, 'Sw_tusx')) then + call state_getfldptr(exportState, 'Sw_tusx', sw_tusx, rc=rc) + if (ChkErr(rc,__LINE__,u_FILE_u)) return + sw_tusx(:) = fillvalue + do jsea=1, nseal_cpl + call init_get_isea(isea, jsea) + ix = mapsf(isea,1) + iy = mapsf(isea,2) + if (mapsta(iy,ix) == 1) then + sw_tusx(jsea) = TUSX(jsea) + else + sw_tusx(jsea) = 0. + endif + enddo + end if + + ! Stokes transfer vector meridional + if (state_fldchk(exportState, 'Sw_tusy')) then + call state_getfldptr(exportState, 'Sw_tusy', sw_tusy, rc=rc) + if (ChkErr(rc,__LINE__,u_FILE_u)) return + sw_tusy(:) = fillvalue + do jsea=1, nseal_cpl + call init_get_isea(isea, jsea) + ix = mapsf(isea,1) + iy = mapsf(isea,2) + if (mapsta(iy,ix) == 1) then + sw_tusy(jsea) = TUSY(jsea) + else + sw_tusy(jsea) = 0. + endif + enddo + end if + if (dbug_flag > 5) then call state_diagnose(exportState, 'at export ', rc=rc) if (ChkErr(rc,__LINE__,u_FILE_u)) return @@ -1046,8 +1212,8 @@ subroutine CalcRoughl ( wrln) ix = mapsf(isea,1) iy = mapsf(isea,2) if ( firstCall ) then - if(( runtype == 'initial' .and. mapsta(iy,ix) == 1 ) .or. & - ( runtype == 'continue' .and. abs(mapsta(iy,ix)) == 1 )) then + if (( runtype == 'initial' .and. mapsta(iy,ix) == 1 ) .or. & + ( runtype == 'continue' .and. abs(mapsta(iy,ix)) == 1 )) then charn(jsea) = zero llws(:) = .true. ustar = zero