#include "cppdefs.h" #if defined TANGENT || defined TL_IOMS SUBROUTINE tl_wrt_his (ng) ! !svn $Id: tl_wrt_his.F 889 2018-02-10 03:32:52Z arango $ !================================================== Hernan G. Arango === ! Copyright (c) 2002-2019 The ROMS/TOMS Group ! ! Licensed under a MIT/X style license ! ! See License_ROMS.txt ! !======================================================================= ! ! ! This routine writes requested tangent linear model fields into ! ! into tangent history NetCDF file. ! ! ! !======================================================================= ! USE mod_param USE mod_parallel # ifdef ADJUST_BOUNDARY USE mod_boundary # endif # ifdef SOLVE3D USE mod_coupling # endif # if defined ADJUST_STFLUX || defined ADJUST_WSTRESS || \ defined FORCING_SV || defined STOCHASTIC_OPT || \ defined HESSIAN_SO || defined HESSIAN_FSV USE mod_forces # endif USE mod_grid USE mod_iounits # ifdef SOLVE3D USE mod_mixing # endif USE mod_ncparam USE mod_netcdf USE mod_ocean USE mod_scalars # if defined SEDIMENT_NOT_YET || defined BBL_MODEL_NOT_YET USE mod_sediment # endif USE mod_stepping ! USE nf_fwrite2d_mod, ONLY : nf_fwrite2d # ifdef ADJUST_BOUNDARY USE nf_fwrite2d_bry_mod, ONLY : nf_fwrite2d_bry # endif # ifdef SOLVE3D USE nf_fwrite3d_mod, ONLY : nf_fwrite3d # ifdef ADJUST_BOUNDARY USE nf_fwrite3d_bry_mod, ONLY : nf_fwrite3d_bry # endif # endif USE strings_mod, ONLY : FoundError ! implicit none ! ! Imported variable declarations. ! integer, intent(in) :: ng ! ! Local variable declarations. ! integer :: LBi, UBi, LBj, UBj # ifdef ADJUST_BOUNDARY integer :: LBij, UBij # endif integer :: Fcount, gfactor, gtype, status # ifdef SOLVE3D integer :: i, itrc, j, k, tile # endif real(r8) :: scale real(r8) :: Tval(1) ! LBi=LBOUND(GRID(ng)%h,DIM=1) UBi=UBOUND(GRID(ng)%h,DIM=1) LBj=LBOUND(GRID(ng)%h,DIM=2) UBj=UBOUND(GRID(ng)%h,DIM=2) # ifdef ADJUST_BOUNDARY LBij=BOUNDS(ng)%LBij UBij=BOUNDS(ng)%UBij # endif ! SourceFile=__FILE__ ! !----------------------------------------------------------------------- ! Write out tangent linear fields. !----------------------------------------------------------------------- ! IF (FoundError(exit_flag, NoError, __LINE__, & & __FILE__)) RETURN ! ! Set grid type factor to write full (gfactor=1) fields or water ! points (gfactor=-1) fields only. ! # if defined WRITE_WATER && defined MASKING gfactor=-1 # else gfactor=1 # endif ! ! Set time record index. ! TLM(ng)%Rindex=TLM(ng)%Rindex+1 Fcount=TLM(ng)%Fcount TLM(ng)%Nrec(Fcount)=TLM(ng)%Nrec(Fcount)+1 ! ! If requested, set time index to recycle time records in the tangent ! linear file. ! IF (LcycleTLM(ng)) THEN TLM(ng)%Rindex=MOD(TLM(ng)%Rindex-1,2)+1 END IF ! ! Write out model time (s). ! IF (LwrtPER(ng)) THEN Tval(1)=REAL(TLM(ng)%Rindex,r8)*day2sec ELSE Tval(1)=time(ng) END IF CALL netcdf_put_fvar (ng, iTLM, TLM(ng)%name, & & TRIM(Vname(1,idtime)), tval, & & (/TLM(ng)%Rindex/), (/1/), & & ncid = TLM(ng)%ncid, & & varid = TLM(ng)%Vid(idtime)) IF (FoundError(exit_flag, NoError, __LINE__, & & __FILE__)) RETURN # ifdef ADJUST_WSTRESS ! ! Write out surface U-momentum stress. Notice that the stress has its ! own fixed time-dimension (of size Nfrec) to allow 4DVAR adjustments ! at other times in addition to initialization time. ! scale=1.0 ! m2/s2 gtype=gfactor*u3dvar status=nf_fwrite3d(ng, iTLM, TLM(ng)%ncid, TLM(ng)%Vid(idUsms), & & TLM(ng)%Rindex, gtype, & & LBi, UBi, LBj, UBj, 1, Nfrec(ng), scale, & # ifdef MASKING & GRID(ng) % umask, & # endif & FORCES(ng) % tl_ustr(:,:,:,Lfout(ng))) IF (FoundError(status, nf90_noerr, __LINE__, & & __FILE__)) THEN IF (Master) THEN WRITE (stdout,10) TRIM(Vname(1,idUsms)), Lfout(ng) END IF exit_flag=3 ioerror=status RETURN END IF ! ! Write out surface V-momentum stress. ! scale=1.0 ! m2/s2 gtype=gfactor*v3dvar status=nf_fwrite3d(ng, iTLM, TLM(ng)%ncid, TLM(ng)%Vid(idVsms), & & TLM(ng)%Rindex, gtype, & & LBi, UBi, LBj, UBj, 1, Nfrec(ng), scale, & # ifdef MASKING & GRID(ng) % vmask, & # endif & FORCES(ng) % tl_vstr(:,:,:,Lfout(ng))) IF (FoundError(status, nf90_noerr, __LINE__, & & __FILE__)) THEN IF (Master) THEN WRITE (stdout,10) TRIM(Vname(1,idVsms)), Lfout(ng) END IF exit_flag=3 ioerror=status RETURN END IF # endif # if defined ADJUST_STFLUX && defined SOLVE3D ! ! Write out surface net tracers fluxes. Notice that fluxes have their ! own fixed time-dimension (of size Nfrec) to allow 4DVAR adjustments ! at other times in addition to initialization time. ! DO itrc=1,NT(ng) IF (Lstflux(itrc,ng)) THEN scale=1.0_r8 ! kinematic flux units gtype=gfactor*r3dvar status=nf_fwrite3d(ng, iTLM, TLM(ng)%ncid, & & TLM(ng)%Vid(idTsur(itrc)), & & TLM(ng)%Rindex, gtype, & & LBi, UBi, LBj, UBj, 1, Nfrec(ng), scale, & # ifdef MASKING & GRID(ng) % rmask, & # endif & FORCES(ng)% tl_tflux(:,:,:,Lfout(ng),itrc)) IF (FoundError(status, nf90_noerr, __LINE__, & & __FILE__)) THEN IF (Master) THEN WRITE (stdout,10) TRIM(Vname(1,idTsur(itrc))), Lfout(ng) END IF exit_flag=3 ioerror=status RETURN END IF END IF END DO # endif # if defined FORCING_SV || defined STOCHASTIC_OPT || \ defined HESSIAN_SO || defined HESSIAN_FSV ! ! Write out surface U-momentum stress. ! IF (Hout(idUsms,ng)) THEN scale=1.0_r8 gtype=gfactor*u2dvar status=nf_fwrite2d(ng, iTLM, TLM(ng)%ncid, TLM(ng)%Vid(idUsms), & & TLM(ng)%Rindex, gtype, & & LBi, UBi, LBj, UBj, scale, & # ifdef MASKING & GRID(ng) % umask, & # endif & FORCES(ng) % tl_sustr) IF (FoundError(status, nf90_noerr, __LINE__, & & __FILE__)) THEN IF (Master) THEN WRITE (stdout,10) TRIM(Vname(1,idUsms)), TLM(ng)%Rindex END IF exit_flag=3 ioerror=status RETURN END IF END IF ! ! Write out surface V-momentum stress. ! IF (Hout(idVsms,ng)) THEN scale=1.0_r8 gtype=gfactor*v2dvar status=nf_fwrite2d(ng, iTLM, TLM(ng)%ncid, TLM(ng)%Vid(idVsms), & & TLM(ng)%Rindex, gtype, & & LBi, UBi, LBj, UBj, scale, & # ifdef MASKING & GRID(ng) % vmask, & # endif & FORCES(ng) % tl_svstr) IF (FoundError(status, nf90_noerr, __LINE__, & & __FILE__)) THEN IF (Master) THEN WRITE (stdout,10) TRIM(Vname(1,idVsms)), TLM(ng)%Rindex END IF exit_flag=3 ioerror=status RETURN END IF END IF # ifdef SOLVE3D ! ! Write out net surface active tracer fluxes. ! DO itrc=1,NT(ng) IF (Hout(idTsur(itrc),ng)) THEN scale=1.0_r8 gtype=gfactor*r2dvar status=nf_fwrite2d(ng, iTLM, TLM(ng)%ncid, & & TLM(ng)%Vid(idTsur(itrc)), & & TLM(ng)%Rindex, gtype, & & LBi, UBi, LBj, UBj, scale, & # ifdef MASKING & GRID(ng) % rmask, & # endif & FORCES(ng) % tl_stflx(:,:,itrc)) IF (FoundError(status, nf90_noerr, __LINE__, & & __FILE__)) THEN IF (Master) THEN WRITE (stdout,10) TRIM(Vname(1,idTsur(itrc))), & & TLM(ng)%Rindex END IF exit_flag=3 ioerror=status RETURN END IF END IF END DO # endif # endif ! ! Write out free-surface (m) ! IF (Hout(idFsur,ng)) THEN scale=1.0_r8 gtype=gfactor*r2dvar status=nf_fwrite2d(ng, iTLM, TLM(ng)%ncid, TLM(ng)%Vid(idFsur), & & TLM(ng)%Rindex, gtype, & & LBi, UBi, LBj, UBj, scale, & # ifdef MASKING & GRID(ng) % rmask, & # endif # ifdef WET_DRY & OCEAN(ng) % tl_zeta(:,:,KOUT), & & SetFillVal = .FALSE.) # else # ifdef FORCING_SV & OCEAN(ng) % f_zeta(:,:)) # else & OCEAN(ng) % tl_zeta(:,:,KOUT)) # endif # endif IF (FoundError(status, nf90_noerr, __LINE__, & & __FILE__)) THEN IF (Master) THEN WRITE (stdout,10) TRIM(Vname(1,idFsur)), TLM(ng)%Rindex END IF exit_flag=3 ioerror=status RETURN END IF # if defined FORWARD_WRITE && defined FORWARD_RHS status=nf_fwrite2d(ng, iTLM, TLM(ng)%ncid, TLM(ng)%Vid(idRzet), & & TLM(ng)%Rindex, gtype, & & LBi, UBi, LBj, UBj, scale, & # ifdef MASKING & GRID(ng) % rmask, & # endif & OCEAN(ng) % tl_rzeta(:,:,KOUT)) IF (FoundError(status, nf90_noerr, __LINE__, & & __FILE__)) THEN IF (Master) THEN WRITE (stdout,10) TRIM(Vname(1,idRzet)), TLM(ng)%Rindex END IF exit_flag=3 ioerror=status RETURN END IF # endif END IF # ifdef ADJUST_BOUNDARY ! ! Write out free-surface open boundaries. ! IF (ANY(Lobc(:,isFsur,ng))) THEN scale=1.0_r8 status=nf_fwrite2d_bry (ng, iTLM, TLM(ng)%name, TLM(ng)%ncid, & & Vname(1,idSbry(isFsur)), & & TLM(ng)%Vid(idSbry(isFsur)), & & TLM(ng)%Rindex, r2dvar, & & LBij, UBij, Nbrec(ng), scale, & & BOUNDARY(ng) % tl_zeta_obc(LBij:,:,:, & & Lbout(ng))) IF (FoundError(status, nf90_noerr, __LINE__, & & __FILE__)) THEN IF (Master) THEN WRITE (stdout,10) TRIM(Vname(1,idSbry(isFsur))), & & TLM(ng)%Rindex END IF exit_flag=3 ioerror=status RETURN END IF END IF # endif ! ! Write out 2D U-momentum component (m/s). ! IF (Hout(idUbar,ng)) THEN scale=1.0_r8 gtype=gfactor*u2dvar status=nf_fwrite2d(ng, iTLM, TLM(ng)%ncid, TLM(ng)%Vid(idUbar), & & TLM(ng)%Rindex, gtype, & & LBi, UBi, LBj, UBj, scale, & # ifdef MASKING & GRID(ng) % umask_full, & # endif # ifdef FORCING_SV & OCEAN(ng) % f_ubar(:,:)) # else & OCEAN(ng) % tl_ubar(:,:,KOUT)) # endif IF (FoundError(status, nf90_noerr, __LINE__, & & __FILE__)) THEN IF (Master) THEN WRITE (stdout,10) TRIM(Vname(1,idUbar)), TLM(ng)%Rindex END IF exit_flag=3 ioerror=status RETURN END IF # ifdef FORWARD_WRITE # ifdef FORWARD_RHS status=nf_fwrite2d(ng, iTLM, TLM(ng)%ncid, TLM(ng)%Vid(idRu2d), & & TLM(ng)%Rindex, gtype, & & LBi, UBi, LBj, UBj, scale, & # ifdef MASKING & GRID(ng) % umask_full, & # endif & OCEAN(ng) % tl_rubar(:,:,KOUT)) IF (FoundError(status, nf90_noerr, __LINE__, & & __FILE__)) THEN IF (Master) THEN WRITE (stdout,10) TRIM(Vname(1,idRu2d)), TLM(ng)%Rindex END IF exit_flag=3 ioerror=status RETURN END IF # endif # ifdef SOLVE3D # ifdef FORWARD_RHS status=nf_fwrite2d(ng, iTLM, TLM(ng)%ncid, TLM(ng)%Vid(idRuct), & & TLM(ng)%Rindex, gtype, & & LBi, UBi, LBj, UBj, scale, & # ifdef MASKING & GRID(ng) % umask_full, & # endif & COUPLING(ng) % tl_rufrc) IF (FoundError(status, nf90_noerr, __LINE__, & & __FILE__)) THEN IF (Master) THEN WRITE (stdout,10) TRIM(Vname(1,idRuct)), TLM(ng)%Rindex END IF exit_flag=3 ioerror=status RETURN END IF # endif status=nf_fwrite2d(ng, iTLM, TLM(ng)%ncid, TLM(ng)%Vid(idUfx1), & & TLM(ng)%Rindex, gtype, & & LBi, UBi, LBj, UBj, scale, & # ifdef MASKING & GRID(ng) % umask_full, & # endif & COUPLING(ng) % tl_DU_avg1) IF (FoundError(status, nf90_noerr, __LINE__, & & __FILE__)) THEN IF (Master) THEN WRITE (stdout,10) TRIM(Vname(1,idUfx1)), TLM(ng)%Rindex END IF exit_flag=3 ioerror=status RETURN END IF status=nf_fwrite2d(ng, iTLM, TLM(ng)%ncid, TLM(ng)%Vid(idUfx2), & & TLM(ng)%Rindex, gtype, & & LBi, UBi, LBj, UBj, scale, & # ifdef MASKING & GRID(ng) % umask_full, & # endif & COUPLING(ng) % tl_DU_avg2) IF (FoundError(status, nf90_noerr, __LINE__, & & __FILE__)) THEN IF (Master) THEN WRITE (stdout,10) TRIM(Vname(1,idUfx2)), TLM(ng)%Rindex END IF exit_flag=3 ioerror=status RETURN END IF # endif # endif END IF # ifdef ADJUST_BOUNDARY ! ! Write out 2D U-momentum component open boundaries. ! IF (ANY(Lobc(:,isUbar,ng))) THEN scale=1.0_r8 status=nf_fwrite2d_bry (ng, iTLM, TLM(ng)%name, TLM(ng)%ncid, & & Vname(1,idSbry(isUbar)), & & TLM(ng)%Vid(idSbry(isUbar)), & & TLM(ng)%Rindex, u2dvar, & & LBij, UBij, Nbrec(ng), scale, & & BOUNDARY(ng) % tl_ubar_obc(LBij:,:,:, & & Lbout(ng))) IF (FoundError(status, nf90_noerr, __LINE__, & & __FILE__)) THEN IF (Master) THEN WRITE (stdout,10) TRIM(Vname(1,idSbry(isUbar))), & & TLM(ng)%Rindex END IF exit_flag=3 ioerror=status RETURN END IF END IF # endif ! ! Write out 2D V-momentum component (m/s). ! IF (Hout(idVbar,ng)) THEN scale=1.0_r8 gtype=gfactor*v2dvar status=nf_fwrite2d(ng, iTLM, TLM(ng)%ncid, TLM(ng)%Vid(idVbar), & & TLM(ng)%Rindex, gtype, & & LBi, UBi, LBj, UBj, scale, & # ifdef MASKING & GRID(ng) % vmask_full, & # endif # ifdef FORCING_SV & OCEAN(ng) % f_vbar(:,:)) # else & OCEAN(ng) % tl_vbar(:,:,KOUT)) # endif IF (FoundError(status, nf90_noerr, __LINE__, & & __FILE__)) THEN IF (Master) THEN WRITE (stdout,10) TRIM(Vname(1,idVbar)), TLM(ng)%Rindex END IF exit_flag=3 ioerror=status RETURN END IF # ifdef FORWARD_WRITE # ifdef FORWARD_RHS status=nf_fwrite2d(ng, iTLM, TLM(ng)%ncid, TLM(ng)%Vid(idRv2d), & & TLM(ng)%Rindex, gtype, & & LBi, UBi, LBj, UBj, scale, & # ifdef MASKING & GRID(ng) % vmask_full, & # endif & OCEAN(ng) % tl_rvbar(:,:,KOUT)) IF (FoundError(status, nf90_noerr, __LINE__, & & __FILE__)) THEN IF (Master) THEN WRITE (stdout,10) TRIM(Vname(1,idRv2d)), TLM(ng)%Rindex END IF exit_flag=3 ioerror=status RETURN END IF # endif # ifdef SOLVE3D # ifdef FORWARD_RHS status=nf_fwrite2d(ng, iTLM, TLM(ng)%ncid, TLM(ng)%Vid(idRvct), & & TLM(ng)%Rindex, gtype, & & LBi, UBi, LBj, UBj, scale, & # ifdef MASKING & GRID(ng) % vmask_full, & # endif & COUPLING(ng) % tl_rvfrc) IF (FoundError(status, nf90_noerr, __LINE__, & & __FILE__)) THEN IF (Master) THEN WRITE (stdout,10) TRIM(Vname(1,idRvct)), TLM(ng)%Rindex END IF exit_flag=3 ioerror=status RETURN END IF # endif status=nf_fwrite2d(ng, iTLM, TLM(ng)%ncid, TLM(ng)%Vid(idVfx1), & & TLM(ng)%Rindex, gtype, & & LBi, UBi, LBj, UBj, scale, & # ifdef MASKING & GRID(ng) % vmask_full, & # endif & COUPLING(ng) % tl_DV_avg1) IF (FoundError(status, nf90_noerr, __LINE__, & & __FILE__)) THEN IF (Master) THEN WRITE (stdout,10) TRIM(Vname(1,idVfx1)), TLM(ng)%Rindex END IF exit_flag=3 ioerror=status RETURN END IF status=nf_fwrite2d(ng, iTLM, TLM(ng)%ncid, TLM(ng)%Vid(idVfx2), & & TLM(ng)%Rindex, gtype, & & LBi, UBi, LBj, UBj, scale, & # ifdef MASKING & GRID(ng) % vmask_full, & # endif & COUPLING(ng) % tl_DV_avg2) IF (FoundError(status, nf90_noerr, __LINE__, & & __FILE__)) THEN IF (Master) THEN WRITE (stdout,10) TRIM(Vname(1,idVfx2)), TLM(ng)%Rindex END IF exit_flag=3 ioerror=status RETURN END IF # endif # endif END IF # ifdef ADJUST_BOUNDARY ! ! Write out 2D V-momentum component open boundaries. ! IF (ANY(Lobc(:,isVbar,ng))) THEN scale=1.0_r8 status=nf_fwrite2d_bry (ng, iTLM, TLM(ng)%name, TLM(ng)%ncid, & & Vname(1,idSbry(isVbar)), & & TLM(ng)%Vid(idSbry(isVbar)), & & TLM(ng)%Rindex, v2dvar, & & LBij, UBij, Nbrec(ng), scale, & & BOUNDARY(ng) % tl_vbar_obc(LBij:,:,:, & & Lbout(ng))) IF (FoundError(status, nf90_noerr, __LINE__, & & __FILE__)) THEN IF (Master) THEN WRITE (stdout,10) TRIM(Vname(1,idSbry(isVbar))), & & TLM(ng)%Rindex END IF exit_flag=3 ioerror=status RETURN END IF END IF # endif # ifdef SOLVE3D ! ! Write out 3D U-momentum component (m/s). ! IF (Hout(idUvel,ng)) THEN scale=1.0_r8 gtype=gfactor*u3dvar status=nf_fwrite3d(ng, iTLM, TLM(ng)%ncid, TLM(ng)%Vid(idUvel), & & TLM(ng)%Rindex, gtype, & & LBi, UBi, LBj, UBj, 1, N(ng), scale, & # ifdef MASKING & GRID(ng) % umask_full, & # endif # ifdef FORCING_SV & OCEAN(ng) % f_u(:,:,:)) # else & OCEAN(ng) % tl_u(:,:,:,NOUT)) # endif IF (FoundError(status, nf90_noerr, __LINE__, & & __FILE__)) THEN IF (Master) THEN WRITE (stdout,10) TRIM(Vname(1,idUvel)), TLM(ng)%Rindex END IF exit_flag=3 ioerror=status RETURN END IF # if defined FORWARD_WRITE && defined FORWARD_RHS status=nf_fwrite3d(ng, iTLM, TLM(ng)%ncid, TLM(ng)%Vid(idRu3d), & & TLM(ng)%Rindex, gtype, & & LBi, UBi, LBj, UBj, 1, N(ng), scale, & # ifdef MASKING & GRID(ng) % umask_full, & # endif & OCEAN(ng) % tl_ru(:,:,:,NOUT)) IF (FoundError(status, nf90_noerr, __LINE__, & & __FILE__)) THEN IF (Master) THEN WRITE (stdout,10) TRIM(Vname(1,idRu3d)), TLM(ng)%Rindex END IF exit_flag=3 ioerror=status RETURN END IF # endif END IF # ifdef ADJUST_BOUNDARY ! ! Write out 3D U-momentum component open boundaries. ! IF (ANY(Lobc(:,isUvel,ng))) THEN scale=1.0_r8 status=nf_fwrite3d_bry (ng, iTLM, TLM(ng)%name, TLM(ng)%ncid, & & Vname(1,idSbry(isUvel)), & & TLM(ng)%Vid(idSbry(isUvel)), & & TLM(ng)%Rindex, u3dvar, & & LBij, UBij, 1, N(ng), Nbrec(ng), scale, & & BOUNDARY(ng) % tl_u_obc(LBij:,:,:,:, & & Lbout(ng))) IF (FoundError(status, nf90_noerr, __LINE__, & & __FILE__)) THEN IF (Master) THEN WRITE (stdout,10) TRIM(Vname(1,idSbry(isUvel))), & & TLM(ng)%Rindex END IF exit_flag=3 ioerror=status RETURN END IF END IF # endif ! ! Write out 3D V-momentum component (m/s). ! IF (Hout(idVvel,ng)) THEN scale=1.0_r8 gtype=gfactor*v3dvar status=nf_fwrite3d(ng, iTLM, TLM(ng)%ncid, TLM(ng)%Vid(idVvel), & & TLM(ng)%Rindex, gtype, & & LBi, UBi, LBj, UBj, 1, N(ng), scale, & # ifdef MASKING & GRID(ng) % vmask_full, & # endif # ifdef FORCING_SV & OCEAN(ng) % f_v(:,:,:)) # else & OCEAN(ng) % tl_v(:,:,:,NOUT)) # endif IF (FoundError(status, nf90_noerr, __LINE__, & & __FILE__)) THEN IF (Master) THEN WRITE (stdout,10) TRIM(Vname(1,idVvel)), TLM(ng)%Rindex END IF exit_flag=3 ioerror=status RETURN END IF # if defined FORWARD_WRITE && defined FORWARD_RHS status=nf_fwrite3d(ng, iTLM, TLM(ng)%ncid, TLM(ng)%Vid(idRv3d), & & TLM(ng)%Rindex, gtype, & & LBi, UBi, LBj, UBj, 1, N(ng), scale, & # ifdef MASKING & GRID(ng) % vmask_full, & # endif & OCEAN(ng) % tl_rv(:,:,:,NOUT)) IF (FoundError(status, nf90_noerr, __LINE__, & & __FILE__)) THEN IF (Master) THEN WRITE (stdout,10) TRIM(Vname(1,idRv3d)), TLM(ng)%Rindex END IF exit_flag=3 ioerror=status RETURN END IF # endif END IF # ifdef ADJUST_BOUNDARY ! ! Write out 3D V-momentum component open boundaries. ! IF (ANY(Lobc(:,isVvel,ng))) THEN scale=1.0_r8 status=nf_fwrite3d_bry (ng, iTLM, TLM(ng)%name, TLM(ng)%ncid, & & Vname(1,idSbry(isVvel)), & & TLM(ng)%Vid(idSbry(isVvel)), & & TLM(ng)%Rindex, v3dvar, & & LBij, UBij, 1, N(ng), Nbrec(ng), scale, & & BOUNDARY(ng) % tl_v_obc(LBij:,:,:,:, & & Lbout(ng))) IF (FoundError(status, nf90_noerr, __LINE__, & & __FILE__)) THEN IF (Master) THEN WRITE (stdout,10) TRIM(Vname(1,idSbry(isVvel))), & & TLM(ng)%Rindex END IF exit_flag=3 ioerror=status RETURN END IF END IF # endif ! ! Write out tracer type variables. ! DO itrc=1,NT(ng) IF (Hout(idTvar(itrc),ng)) THEN scale=1.0_r8 gtype=gfactor*r3dvar status=nf_fwrite3d(ng, iTLM, TLM(ng)%ncid, TLM(ng)%Tid(itrc), & & TLM(ng)%Rindex, gtype, & & LBi, UBi, LBj, UBj, 1, N(ng), scale, & # ifdef MASKING & GRID(ng) % rmask, & # endif # ifdef FORCING_SV & OCEAN(ng) % f_t(:,:,:,itrc)) # else & OCEAN(ng) % tl_t(:,:,:,NOUT,itrc)) # endif IF (FoundError(status, nf90_noerr, __LINE__, & & __FILE__)) THEN IF (Master) THEN WRITE (stdout,10) TRIM(Vname(1,idTvar(itrc))), & & TLM(ng)%Rindex END IF exit_flag=3 ioerror=status RETURN END IF END IF END DO # ifdef ADJUST_BOUNDARY ! ! Write out tracers open boundaries. ! DO itrc=1,NT(ng) IF (ANY(Lobc(:,isTvar(itrc),ng))) THEN scale=1.0_r8 status=nf_fwrite3d_bry (ng, iTLM, TLM(ng)%name, TLM(ng)%ncid, & & Vname(1,idSbry(isTvar(itrc))), & & TLM(ng)%Vid(idSbry(isTvar(itrc))), & & TLM(ng)%Rindex, r3dvar, & & LBij, UBij, 1, N(ng), Nbrec(ng), & & scale, & & BOUNDARY(ng) % tl_t_obc(LBij:,:,:,:, & & Lbout(ng),itrc)) IF (FoundError(status, nf90_noerr, __LINE__, & & __FILE__)) THEN IF (Master) THEN WRITE (stdout,10) TRIM(Vname(1,idSbry(isTvar(itrc)))), & & TLM(ng)%Rindex END IF exit_flag=3 ioerror=status RETURN END IF END IF END DO # endif ! ! Write out density anomaly. ! IF (Hout(idDano,ng)) THEN scale=1.0_r8 gtype=gfactor*r3dvar status=nf_fwrite3d(ng, iTLM, TLM(ng)%ncid, TLM(ng)%Vid(idDano), & & TLM(ng)%Rindex, gtype, & & LBi, UBi, LBj, UBj, 1, N(ng), scale, & # ifdef MASKING & GRID(ng) % rmask, & # endif & OCEAN(ng) % tl_rho) IF (FoundError(status, nf90_noerr, __LINE__, & & __FILE__)) THEN IF (Master) THEN WRITE (stdout,10) TRIM(Vname(1,idDano)), TLM(ng)%Rindex END IF exit_flag=3 ioerror=status RETURN END IF END IF # if defined FORWARD_MIXING && \ (defined BVF_MIXING || defined GLS_MIXING || \ defined LMD_MIXING || defined MY25_MIXING) ! ! Write out vertical viscosity coefficient. ! IF (Hout(idVvis,ng)) THEN scale=1.0_r8 gtype=gfactor*w3dvar status=nf_fwrite3d(ng, iTLM, TLM(ng)%ncid, TLM(ng)%Vid(idVvis), & & TLM(ng)%Rindex, gtype, & & LBi, UBi, LBj, UBj, 0, N(ng), scale, & # ifdef MASKING & GRID(ng) % rmask, & # endif # ifdef WEAK_CONSTRAINT & MIXING(ng) % Akv, & # else & MIXING(ng) % tl_Akv, & # endif & SetFillVal = .FALSE.) IF (FoundError(status, nf90_noerr, __LINE__, & & __FILE__)) THEN IF (Master) THEN WRITE (stdout,10) TRIM(Vname(1,idVvis)), TLM(ng)%Rindex END IF exit_flag=3 ioerror=status RETURN END IF END IF ! ! Write out vertical diffusion coefficient for potential temperature. ! IF (Hout(idTdif,ng)) THEN scale=1.0_r8 gtype=gfactor*w3dvar status=nf_fwrite3d(ng, iTLM, TLM(ng)%ncid, TLM(ng)%Vid(idTdif), & & TLM(ng)%Rindex, gtype, & & LBi, UBi, LBj, UBj, 0, N(ng), scale, & # ifdef MASKING & GRID(ng) % rmask, & # endif # ifdef WEAK_CONSTRAINT & MIXING(ng) % Akt(:,:,:,itemp), & # else & MIXING(ng) % tl_Akt(:,:,:,itemp), & # endif & SetFillVal = .FALSE.) IF (FoundError(status, nf90_noerr, __LINE__, & & __FILE__)) THEN IF (Master) THEN WRITE (stdout,10) TRIM(Vname(1,idTdif)), TLM(ng)%Rindex END IF exit_flag=3 ioerror=status RETURN END IF END IF # ifdef SALINITY ! ! Write out vertical diffusion coefficient for salinity. ! IF (Hout(idSdif,ng)) THEN scale=1.0_r8 gtype=gfactor*w3dvar status=nf_fwrite3d(ng, iTLM, TLM(ng)%ncid, TLM(ng)%Vid(idSdif), & & TLM(ng)%Rindex, gtype, & & LBi, UBi, LBj, UBj, 0, N(ng), scale, & # ifdef MASKING & GRID(ng) % rmask, & # endif # ifdef WEAK_CONSTRAINT & MIXING(ng) % Akt(:,:,:,isalt), & # else & MIXING(ng) % tl_Akt(:,:,:,isalt), & # endif & SetFillVal = .FALSE.) IF (FoundError(status, nf90_noerr, __LINE__, & & __FILE__)) THEN IF (Master) THEN WRITE (stdout,10) TRIM(Vname(1,idSdif)), TLM(ng)%Rindex END IF exit_flag=3 ioerror=status RETURN END IF END IF # endif # if defined GLS_MIXING_NOT_YET || defined MY25_MIXING_NOT_YET ! ! Write out turbulent kinetic energy. ! IF (Hout(idMtke,ng)) THEN scale=1.0_r8 gtype=gfactor*w3dvar status=nf_fwrite3d(ng, iTLM, TLM(ng)%ncid, TLM(ng)%Vid(idMtke), & & TLM(ng)%Rindex, gtype, & & LBi, UBi, LBj, UBj, 0, N(ng), scale, & # ifdef MASKING & GRID(ng) % rmask, & # endif & MIXING(ng) % tl_tke(:,:,:,NOUT), & & SetFillVal = .FALSE.) IF (FoundError(status, nf90_noerr, __LINE__, & & __FILE__)) THEN IF (Master) THEN WRITE (stdout,10) TRIM(Vname(1,idMtke)), TLM(ng)%Rindex END IF exit_flag=3 ioerror=status RETURN END IF scale=1.0_r8 gtype=gfactor*w3dvar status=nf_fwrite3d(ng, iTLM, TLM(ng)%ncid, TLM(ng)%Vid(idVmKK), & & TLM(ng)%Rindex, gtype, & & LBi, UBi, LBj, UBj, 0, N(ng), scale, & # ifdef MASKING & GRID(ng) % rmask, & # endif & MIXING(ng) % tl_Akk) IF (FoundError(status, nf90_noerr, __LINE__, & & __FILE__)) THEN IF (Master) THEN WRITE (stdout,10) TRIM(Vname(1,idVmKK)), TLM(ng)%Rindex END IF exit_flag=3 ioerror=status RETURN END IF END IF ! ! Write out turbulent length scale field. ! IF (Hout(idMtls,ng)) THEN scale=1.0_r8 gtype=gfactor*w3dvar status=nf_fwrite3d(ng, iTLM, TLM(ng)%ncid, TLM(ng)%Vid(idMtls), & & TLM(ng)%Rindex, gtype, & & LBi, UBi, LBj, UBj, 0, N(ng), scale, & # ifdef MASKING & GRID(ng) % rmask, & # endif & MIXING(ng) % tl_gls(:,:,:,NOUT), & & SetFillVal = .FALSE.) IF (FoundError(status, nf90_noerr, __LINE__, & & __FILE__)) THEN IF (Master) THEN WRITE (stdout,10) TRIM(Vname(1,idMtls)), TLM(ng)%Rindex END IF exit_flag=3 ioerror=status RETURN END IF scale=1.0_r8 gtype=gfactor*w3dvar status=nf_fwrite3d(ng, iTLM, TLM(ng)%ncid, TLM(ng)%Vid(idVmLS), & & TLM(ng)%Rindex, gtype, & & LBi, UBi, LBj, UBj, 0, N(ng), scale, & # ifdef MASKING & GRID(ng) % rmask, & # endif & MIXING(ng) % tl_Lscale) IF (FoundError(status, nf90_noerr, __LINE__, & & __FILE__)) THEN IF (Master) THEN WRITE (stdout,10) TRIM(Vname(1,idVmLS)), TLM(ng)%Rindex END IF exit_flag=3 ioerror=status RETURN END IF # ifdef GSL_MIXING scale=1.0_r8 gtype=gfactor*w3dvar status=nf_fwrite3d(ng, iTLM, TLM(ng)%ncid, TLM(ng)%Vid(idVmKP), & & TLM(ng)%Rindex, gtype, & & LBi, UBi, LBj, UBj, 0, N(ng), scale, & # ifdef MASKING & GRID(ng) % rmask, & # endif & MIXING(ng) % tl_Akp) IF (FoundError(status, nf90_noerr, __LINE__, & & __FILE__)) THEN IF (Master) THEN WRITE (stdout,10) TRIM(Vname(1,idVmKP)), TLM(ng)%Rindex END IF exit_flag=3 ioerror=status RETURN END IF # endif END IF # endif # endif # endif ! !----------------------------------------------------------------------- ! Synchronize tangent NetCDF file to disk to allow other processes ! to access data immediately after it is written. !----------------------------------------------------------------------- ! CALL netcdf_sync (ng, iTLM, TLM(ng)%name, TLM(ng)%ncid) IF (FoundError(exit_flag, NoError, __LINE__, & & __FILE__)) RETURN # ifdef SOLVE3D IF (Master) WRITE (stdout,20) KOUT, NOUT, TLM(ng)%Rindex # else IF (Master) WRITE (stdout,20) KOUT, TLM(ng)%Rindex # endif ! 10 FORMAT (/,' TL_WRT_HIS - error while writing variable: ',a,/,14x, & & 'into tangent NetCDF file for time record: ',i4) # ifdef SOLVE3D 20 FORMAT (3x,'TL_WRT_HIS - wrote tangent fields (Index=', i1, & & ',',i1,') into time record = ',i7.7) # else 20 FORMAT (3x,'TL_WRT_HIS - wrote tangent fields (Index=', i1, & & ') into time record = ',i7.7) # endif #else SUBROUTINE tl_wrt_his #endif RETURN END SUBROUTINE tl_wrt_his