MODULE wrt_his_mod ! !git $Id$ !svn $Id: wrt_his.F 1189 2023-08-15 21:26:58Z arango $ !================================================== Hernan G. Arango === ! Copyright (c) 2002-2023 The ROMS/TOMS Group ! ! Licensed under a MIT/X style license ! ! See License_ROMS.md ! !======================================================================= ! ! ! This module writes requested model fields into the HISTORY output ! ! file using either the standard NetCDF library or the Parallel-IO ! ! (PIO) library. ! ! ! ! Notice that only momentum is affected by the full time-averaged ! ! masks. If applicable, these mask contains information about ! ! river runoff and time-dependent wetting and drying variations. ! ! ! !======================================================================= ! USE mod_param USE mod_parallel USE mod_coupling USE mod_forces USE mod_grid USE mod_iounits USE mod_mixing USE mod_ncparam USE mod_ocean USE mod_scalars USE mod_stepping ! USE nf_fwrite2d_mod, ONLY : nf_fwrite2d USE nf_fwrite3d_mod, ONLY : nf_fwrite3d USE omega_mod, ONLY : scale_omega USE strings_mod, ONLY : FoundError USE uv_rotate_mod, ONLY : uv_rotate2d USE uv_rotate_mod, ONLY : uv_rotate3d ! implicit none ! PUBLIC :: wrt_his PRIVATE :: wrt_his_nf90 ! CONTAINS ! !*********************************************************************** SUBROUTINE wrt_his (ng, tile) !*********************************************************************** ! ! Imported variable declarations. ! integer, intent(in) :: ng, tile ! ! Local variable declarations. ! integer :: LBi, UBi, LBj, UBj ! character (len=*), parameter :: MyFile = & & "ROMS/Utility/wrt_his.F" ! !----------------------------------------------------------------------- ! Write out history fields according to IO type. !----------------------------------------------------------------------- ! LBi=BOUNDS(ng)%LBi(tile) UBi=BOUNDS(ng)%UBi(tile) LBj=BOUNDS(ng)%LBj(tile) UBj=BOUNDS(ng)%UBj(tile) ! SELECT CASE (HIS(ng)%IOtype) CASE (io_nf90) CALL wrt_his_nf90 (ng, iNLM, tile, & & LBi, UBi, LBj, UBj) CASE DEFAULT IF (Master) WRITE (stdout,10) HIS(ng)%IOtype exit_flag=3 END SELECT IF (FoundError(exit_flag, NoError, 148, MyFile)) RETURN ! 10 FORMAT (' WRT_HIS - Illegal output file type, io_type = ',i0, & & /,11x,'Check KeyWord ''OUT_LIB'' in ''roms.in''.') ! RETURN END SUBROUTINE wrt_his ! !*********************************************************************** SUBROUTINE wrt_his_nf90 (ng, model, tile, & & LBi, UBi, LBj, UBj) !*********************************************************************** ! USE mod_netcdf ! ! Imported variable declarations. ! integer, intent(in) :: ng, model, tile integer, intent(in) :: LBi, UBi, LBj, UBj ! ! Local variable declarations. ! integer :: Fcount, gfactor, gtype, ifield, status integer :: i, itrc, j, k ! real(dp) :: scale real(r8), allocatable :: Ur2d(:,:) real(r8), allocatable :: Vr2d(:,:) real(r8), allocatable :: Ur3d(:,:,:) real(r8), allocatable :: Vr3d(:,:,:) real(r8), allocatable :: Wr3d(:,:,:) ! character (len=*), parameter :: MyFile = & & "ROMS/Utility/wrt_his.F"//", wrt_his_nf90" ! !----------------------------------------------------------------------- ! Set lower and upper tile bounds and staggered variables bounds for ! this horizontal domain partition. Notice that if tile=-1, it will ! set the values for the global grid. !----------------------------------------------------------------------- ! integer :: Istr, IstrB, IstrP, IstrR, IstrT, IstrM, IstrU integer :: Iend, IendB, IendP, IendR, IendT integer :: Jstr, JstrB, JstrP, JstrR, JstrT, JstrM, JstrV integer :: Jend, JendB, JendP, JendR, JendT integer :: Istrm3, Istrm2, Istrm1, IstrUm2, IstrUm1 integer :: Iendp1, Iendp2, Iendp2i, Iendp3 integer :: Jstrm3, Jstrm2, Jstrm1, JstrVm2, JstrVm1 integer :: Jendp1, Jendp2, Jendp2i, Jendp3 ! Istr =BOUNDS(ng) % Istr (tile) IstrB =BOUNDS(ng) % IstrB (tile) IstrM =BOUNDS(ng) % IstrM (tile) IstrP =BOUNDS(ng) % IstrP (tile) IstrR =BOUNDS(ng) % IstrR (tile) IstrT =BOUNDS(ng) % IstrT (tile) IstrU =BOUNDS(ng) % IstrU (tile) Iend =BOUNDS(ng) % Iend (tile) IendB =BOUNDS(ng) % IendB (tile) IendP =BOUNDS(ng) % IendP (tile) IendR =BOUNDS(ng) % IendR (tile) IendT =BOUNDS(ng) % IendT (tile) Jstr =BOUNDS(ng) % Jstr (tile) JstrB =BOUNDS(ng) % JstrB (tile) JstrM =BOUNDS(ng) % JstrM (tile) JstrP =BOUNDS(ng) % JstrP (tile) JstrR =BOUNDS(ng) % JstrR (tile) JstrT =BOUNDS(ng) % JstrT (tile) JstrV =BOUNDS(ng) % JstrV (tile) Jend =BOUNDS(ng) % Jend (tile) JendB =BOUNDS(ng) % JendB (tile) JendP =BOUNDS(ng) % JendP (tile) JendR =BOUNDS(ng) % JendR (tile) JendT =BOUNDS(ng) % JendT (tile) ! Istrm3 =BOUNDS(ng) % Istrm3 (tile) ! Istr-3 Istrm2 =BOUNDS(ng) % Istrm2 (tile) ! Istr-2 Istrm1 =BOUNDS(ng) % Istrm1 (tile) ! Istr-1 IstrUm2=BOUNDS(ng) % IstrUm2(tile) ! IstrU-2 IstrUm1=BOUNDS(ng) % IstrUm1(tile) ! IstrU-1 Iendp1 =BOUNDS(ng) % Iendp1 (tile) ! Iend+1 Iendp2 =BOUNDS(ng) % Iendp2 (tile) ! Iend+2 Iendp2i=BOUNDS(ng) % Iendp2i(tile) ! Iend+2 interior Iendp3 =BOUNDS(ng) % Iendp3 (tile) ! Iend+3 Jstrm3 =BOUNDS(ng) % Jstrm3 (tile) ! Jstr-3 Jstrm2 =BOUNDS(ng) % Jstrm2 (tile) ! Jstr-2 Jstrm1 =BOUNDS(ng) % Jstrm1 (tile) ! Jstr-1 JstrVm2=BOUNDS(ng) % JstrVm2(tile) ! JstrV-2 JstrVm1=BOUNDS(ng) % JstrVm1(tile) ! JstrV-1 Jendp1 =BOUNDS(ng) % Jendp1 (tile) ! Jend+1 Jendp2 =BOUNDS(ng) % Jendp2 (tile) ! Jend+2 Jendp2i=BOUNDS(ng) % Jendp2i(tile) ! Jend+2 interior Jendp3 =BOUNDS(ng) % Jendp3 (tile) ! Jend+3 ! SourceFile=MyFile ! !----------------------------------------------------------------------- ! Write out history fields. !----------------------------------------------------------------------- ! IF (FoundError(exit_flag, NoError, 202, MyFile)) RETURN ! ! Set grid type factor to write full (gfactor=1) fields or water ! points (gfactor=-1) fields only. ! gfactor=1 ! ! Set time record index. ! HIS(ng)%Rindex=HIS(ng)%Rindex+1 Fcount=HIS(ng)%load HIS(ng)%Nrec(Fcount)=HIS(ng)%Nrec(Fcount)+1 ! ! Report. ! IF (Master) WRITE (stdout,10) kstp(ng), nrhs(ng), HIS(ng)%Rindex ! ! Write out model time (s). ! CALL netcdf_put_fvar (ng, model, HIS(ng)%name, & & TRIM(Vname(1,idtime)), time(ng:), & & (/HIS(ng)%Rindex/), (/1/), & & ncid = HIS(ng)%ncid, & & varid = HIS(ng)%Vid(idtime)) IF (FoundError(exit_flag, NoError, 242, MyFile)) RETURN ! ! Write time-varying depths of RHO-points. ! IF (Hout(idpthR,ng)) THEN scale=1.0_dp gtype=gfactor*r3dvar status=nf_fwrite3d(ng, model, HIS(ng)%ncid, idpthR, & & HIS(ng)%Vid(idpthR), & & HIS(ng)%Rindex, gtype, & & LBi, UBi, LBj, UBj, 1, N(ng), scale, & & GRID(ng) % rmask, & & GRID(ng) % z_r, & & SetFillVal = .FALSE.) IF (FoundError(status, nf90_noerr, 350, MyFile)) THEN IF (Master) THEN WRITE (stdout,20) TRIM(Vname(1,idpthR)), HIS(ng)%Rindex END IF exit_flag=3 ioerror=status RETURN END IF END IF ! ! Write time-varying depths of U-points. ! IF (Hout(idpthU,ng)) THEN scale=1.0_dp gtype=gfactor*u3dvar DO k=1,N(ng) DO j=Jstr-1,Jend+1 DO i=IstrU-1,Iend+1 GRID(ng)%z_v(i,j,k)=0.5_r8*(GRID(ng)%z_r(i-1,j,k)+ & & GRID(ng)%z_r(i ,j,k)) END DO END DO END DO status=nf_fwrite3d(ng, model, HIS(ng)%ncid, idpthU, & & HIS(ng)%Vid(idpthU), & & HIS(ng)%Rindex, gtype, & & LBi, UBi, LBj, UBj, 1, N(ng), scale, & & GRID(ng) % umask, & & GRID(ng) % z_v, & & SetFillVal = .FALSE.) IF (FoundError(status, nf90_noerr, 382, MyFile)) THEN IF (Master) THEN WRITE (stdout,20) TRIM(Vname(1,idpthU)), HIS(ng)%Rindex END IF exit_flag=3 ioerror=status RETURN END IF END IF ! ! Write time-varying depths of V-points. ! IF (Hout(idpthV,ng)) THEN scale=1.0_dp gtype=gfactor*v3dvar DO k=1,N(ng) DO j=JstrV-1,Jend+1 DO i=Istr-1,Iend+1 GRID(ng)%z_v(i,j,k)=0.5_r8*(GRID(ng)%z_r(i,j-1,k)+ & & GRID(ng)%z_r(i,j ,k)) END DO END DO END DO status=nf_fwrite3d(ng, model, HIS(ng)%ncid, idpthV, & & HIS(ng)%Vid(idpthV), & & HIS(ng)%Rindex, gtype, & & LBi, UBi, LBj, UBj, 1, N(ng), scale, & & GRID(ng) % vmask, & & GRID(ng) % z_v, & & SetFillVal = .FALSE.) IF (FoundError(status, nf90_noerr, 414, MyFile)) THEN IF (Master) THEN WRITE (stdout,20) TRIM(Vname(1,idpthV)), HIS(ng)%Rindex END IF exit_flag=3 ioerror=status RETURN END IF END IF ! ! Write time-varying depths of W-points. ! IF (Hout(idpthW,ng)) THEN scale=1.0_dp gtype=gfactor*w3dvar status=nf_fwrite3d(ng, model, HIS(ng)%ncid, idpthW, & & HIS(ng)%Vid(idpthW), & & HIS(ng)%Rindex, gtype, & & LBi, UBi, LBj, UBj, 0, N(ng), scale, & & GRID(ng) % rmask, & & GRID(ng) % z_w, & & SetFillVal = .FALSE.) IF (FoundError(status, nf90_noerr, 438, MyFile)) THEN IF (Master) THEN WRITE (stdout,20) TRIM(Vname(1,idpthW)), HIS(ng)%Rindex END IF exit_flag=3 ioerror=status RETURN END IF END IF ! ! Write out free-surface (m) ! IF (Hout(idFsur,ng)) THEN scale=1.0_dp gtype=gfactor*r2dvar status=nf_fwrite2d(ng, model, HIS(ng)%ncid, idFsur, & & HIS(ng)%Vid(idFsur), & & HIS(ng)%Rindex, gtype, & & LBi, UBi, LBj, UBj, scale, & & GRID(ng) % rmask, & & OCEAN(ng) % zeta(:,:,kstp(ng))) IF (FoundError(status, nf90_noerr, 467, MyFile)) THEN IF (Master) THEN WRITE (stdout,20) TRIM(Vname(1,idFsur)), HIS(ng)%Rindex END IF exit_flag=3 ioerror=status RETURN END IF END IF ! ! Write out 2D U-momentum component (m/s). ! IF (Hout(idUbar,ng)) THEN scale=1.0_dp gtype=gfactor*u2dvar status=nf_fwrite2d(ng, model, HIS(ng)%ncid, idUbar, & & HIS(ng)%Vid(idUbar), & & HIS(ng)%Rindex, gtype, & & LBi, UBi, LBj, UBj, scale, & & GRID(ng) % umask_full, & & OCEAN(ng) % ubar(:,:,kstp(ng))) IF (FoundError(status, nf90_noerr, 532, MyFile)) THEN IF (Master) THEN WRITE (stdout,20) TRIM(Vname(1,idUbar)), HIS(ng)%Rindex END IF exit_flag=3 ioerror=status RETURN END IF status=nf_fwrite2d(ng, model, HIS(ng)%ncid, idUfx1, & & HIS(ng)%Vid(idUfx1), & & HIS(ng)%Rindex, gtype, & & LBi, UBi, LBj, UBj, scale, & & GRID(ng) % umask_full, & & COUPLING(ng) % DU_avg1) IF (FoundError(status, nf90_noerr, 586, MyFile)) THEN IF (Master) THEN WRITE (stdout,20) TRIM(Vname(1,idUfx1)), HIS(ng)%Rindex END IF exit_flag=3 ioerror=status RETURN END IF status=nf_fwrite2d(ng, model, HIS(ng)%ncid, idUfx2, & & HIS(ng)%Vid(idUfx2), & & HIS(ng)%Rindex, gtype, & & LBi, UBi, LBj, UBj, scale, & & GRID(ng) % umask_full, & & COUPLING(ng) % DU_avg2) IF (FoundError(status, nf90_noerr, 602, MyFile)) THEN IF (Master) THEN WRITE (stdout,20) TRIM(Vname(1,idUfx2)), HIS(ng)%Rindex END IF exit_flag=3 ioerror=status RETURN END IF END IF ! ! Write out 2D V-momentum component (m/s). ! IF (Hout(idVbar,ng)) THEN scale=1.0_dp gtype=gfactor*v2dvar status=nf_fwrite2d(ng, model, HIS(ng)%ncid, idVbar, & & HIS(ng)%Vid(idVbar), & & HIS(ng)%Rindex, gtype, & & LBi, UBi, LBj, UBj, scale, & & GRID(ng) % vmask_full, & & OCEAN(ng) % vbar(:,:,kstp(ng))) IF (FoundError(status, nf90_noerr, 651, MyFile)) THEN IF (Master) THEN WRITE (stdout,20) TRIM(Vname(1,idVbar)), HIS(ng)%Rindex END IF exit_flag=3 ioerror=status RETURN END IF status=nf_fwrite2d(ng, model, HIS(ng)%ncid, idVfx1, & & HIS(ng)%Vid(idVfx1), & & HIS(ng)%Rindex, gtype, & & LBi, UBi, LBj, UBj, scale, & & GRID(ng) % vmask_full, & & COUPLING(ng) % DV_avg1) IF (FoundError(status, nf90_noerr, 705, MyFile)) THEN IF (Master) THEN WRITE (stdout,20) TRIM(Vname(1,idVfx1)), HIS(ng)%Rindex END IF exit_flag=3 ioerror=status RETURN END IF status=nf_fwrite2d(ng, model, HIS(ng)%ncid, idVfx2, & & HIS(ng)%Vid(idVfx2), & & HIS(ng)%Rindex, gtype, & & LBi, UBi, LBj, UBj, scale, & & GRID(ng) % vmask_full, & & COUPLING(ng) % DV_avg2) IF (FoundError(status, nf90_noerr, 721, MyFile)) THEN IF (Master) THEN WRITE (stdout,20) TRIM(Vname(1,idVfx2)), HIS(ng)%Rindex END IF exit_flag=3 ioerror=status RETURN END IF END IF ! ! Write out 2D Eastward and Northward momentum components (m/s) at ! RHO-points. ! IF (Hout(idu2dE,ng).and.Hout(idv2dN,ng)) THEN IF (.not.allocated(Ur2d)) THEN allocate (Ur2d(LBi:UBi,LBj:UBj)) Ur2d(LBi:UBi,LBj:UBj)=0.0_r8 END IF IF (.not.allocated(Vr2d)) THEN allocate (Vr2d(LBi:UBi,LBj:UBj)) Vr2d(LBi:UBi,LBj:UBj)=0.0_r8 END IF CALL uv_rotate2d (ng, tile, .FALSE., .TRUE., & & LBi, UBi, LBj, UBj, & & GRID(ng) % CosAngler, & & GRID(ng) % SinAngler, & & GRID(ng) % rmask_full, & & OCEAN(ng) % ubar(:,:,kstp(ng)), & & OCEAN(ng) % vbar(:,:,kstp(ng)), & & Ur2d, Vr2d) scale=1.0_dp gtype=gfactor*r2dvar status=nf_fwrite2d(ng, model, HIS(ng)%ncid, idu2dE, & & HIS(ng)%Vid(idu2dE), & & HIS(ng)%Rindex, gtype, & & LBi, UBi, LBj, UBj, scale, & & GRID(ng) % rmask_full, & & Ur2d) IF (FoundError(status, nf90_noerr, 790, MyFile)) THEN IF (Master) THEN WRITE (stdout,20) TRIM(Vname(1,idu2dE)), HIS(ng)%Rindex END IF exit_flag=3 ioerror=status RETURN END IF status=nf_fwrite2d(ng, model, HIS(ng)%ncid, idv2dN, & & HIS(ng)%Vid(idv2dN), & & HIS(ng)%Rindex, gtype, & & LBi, UBi, LBj, UBj, scale, & & GRID(ng) % rmask_full, & & Vr2d) IF (FoundError(status, nf90_noerr, 807, MyFile)) THEN IF (Master) THEN WRITE (stdout,20) TRIM(Vname(1,idv2dN)), HIS(ng)%Rindex END IF exit_flag=3 ioerror=status RETURN END IF deallocate (Ur2d) deallocate (Vr2d) END IF ! ! Write out 3D U-momentum component (m/s). ! IF (Hout(idUvel,ng)) THEN scale=1.0_dp gtype=gfactor*u3dvar status=nf_fwrite3d(ng, model, HIS(ng)%ncid, idUvel, & & HIS(ng)%Vid(idUvel), & & HIS(ng)%Rindex, gtype, & & LBi, UBi, LBj, UBj, 1, N(ng), scale, & & GRID(ng) % umask_full, & & OCEAN(ng) % u(:,:,:,nrhs(ng))) IF (FoundError(status, nf90_noerr, 834, MyFile)) THEN IF (Master) THEN WRITE (stdout,20) TRIM(Vname(1,idUvel)), HIS(ng)%Rindex END IF exit_flag=3 ioerror=status RETURN END IF END IF ! ! Write out 3D V-momentum component (m/s). ! IF (Hout(idVvel,ng)) THEN scale=1.0_dp gtype=gfactor*v3dvar status=nf_fwrite3d(ng, model, HIS(ng)%ncid, idVvel, & & HIS(ng)%Vid(idVvel), & & HIS(ng)%Rindex, gtype, & & LBi, UBi, LBj, UBj, 1, N(ng), scale, & & GRID(ng) % vmask_full, & & OCEAN(ng) % v(:,:,:,nrhs(ng))) IF (FoundError(status, nf90_noerr, 899, MyFile)) THEN IF (Master) THEN WRITE (stdout,20) TRIM(Vname(1,idVvel)), HIS(ng)%Rindex END IF exit_flag=3 ioerror=status RETURN END IF END IF ! ! Write out 3D Eastward and Northward momentum components (m/s) at ! RHO-points. ! IF (Hout(idu3dE,ng).and.Hout(idv3dN,ng)) THEN IF (.not.allocated(Ur3d)) THEN allocate (Ur3d(LBi:UBi,LBj:UBj,N(ng))) Ur3d(LBi:UBi,LBj:UBj,1:N(ng))=0.0_r8 END IF IF (.not.allocated(Vr3d)) THEN allocate (Vr3d(LBi:UBi,LBj:UBj,N(ng))) Vr3d(LBi:UBi,LBj:UBj,1:N(ng))=0.0_r8 END IF CALL uv_rotate3d (ng, tile, .FALSE., .TRUE., & & LBi, UBi, LBj, UBj, 1, N(ng), & & GRID(ng) % CosAngler, & & GRID(ng) % SinAngler, & & GRID(ng) % rmask_full, & & OCEAN(ng) % u(:,:,:,nrhs(ng)), & & OCEAN(ng) % v(:,:,:,nrhs(ng)), & & Ur3d, Vr3d) scale=1.0_dp gtype=gfactor*r3dvar status=nf_fwrite3d(ng, model, HIS(ng)%ncid, idu3dE, & & HIS(ng)%Vid(idu3dE), & & HIS(ng)%Rindex, gtype, & & LBi, UBi, LBj, UBj, 1, N(ng), scale, & & GRID(ng) % rmask_full, & & Ur3d) IF (FoundError(status, nf90_noerr, 984, MyFile)) THEN IF (Master) THEN WRITE (stdout,20) TRIM(Vname(1,idu3dE)), HIS(ng)%Rindex END IF exit_flag=3 ioerror=status RETURN END IF status=nf_fwrite3d(ng, model, HIS(ng)%ncid, idv3dN, & & HIS(ng)%Vid(idv3dN), & & HIS(ng)%Rindex, gtype, & & LBi, UBi, LBj, UBj, 1, N(ng), scale, & & GRID(ng) % rmask_full, & & Vr3d) IF (FoundError(status, nf90_noerr, 1001, MyFile)) THEN IF (Master) THEN WRITE (stdout,20) TRIM(Vname(1,idv3dN)), HIS(ng)%Rindex END IF exit_flag=3 ioerror=status RETURN END IF deallocate (Ur3d) deallocate (Vr3d) END IF ! ! Write out S-coordinate omega vertical velocity (m/s). ! IF (Hout(idOvel,ng)) THEN IF (.not.allocated(Wr3d)) THEN allocate (Wr3d(LBi:UBi,LBj:UBj,0:N(ng))) Wr3d(LBi:UBi,LBj:UBj,0:N(ng))=0.0_r8 END IF scale=1.0_dp gtype=gfactor*w3dvar CALL scale_omega (ng, tile, LBi, UBi, LBj, UBj, 0, N(ng), & & GRID(ng) % pm, & & GRID(ng) % pn, & & OCEAN(ng) % W, & & Wr3d) status=nf_fwrite3d(ng, model, HIS(ng)%ncid, idOvel, & & HIS(ng)%Vid(idOvel), & & HIS(ng)%Rindex, gtype, & & LBi, UBi, LBj, UBj, 0, N(ng), scale, & & GRID(ng) % rmask, & & Wr3d) IF (FoundError(status, nf90_noerr, 1035, MyFile)) THEN IF (Master) THEN WRITE (stdout,20) TRIM(Vname(1,idOvel)), HIS(ng)%Rindex END IF exit_flag=3 ioerror=status RETURN END IF deallocate (Wr3d) END IF ! ! Write out vertical velocity (m/s). ! IF (Hout(idWvel,ng)) THEN scale=1.0_dp gtype=gfactor*w3dvar status=nf_fwrite3d(ng, model, HIS(ng)%ncid, idWvel, & & HIS(ng)%Vid(idWvel), & & HIS(ng)%Rindex, gtype, & & LBi, UBi, LBj, UBj, 0, N(ng), scale, & & GRID(ng) % rmask, & & OCEAN(ng) % wvel) IF (FoundError(status, nf90_noerr, 1095, MyFile)) THEN IF (Master) THEN WRITE (stdout,20) TRIM(Vname(1,idWvel)), HIS(ng)%Rindex END IF exit_flag=3 ioerror=status RETURN END IF END IF ! ! Write out tracer type variables. ! DO itrc=1,NT(ng) IF (Hout(idTvar(itrc),ng)) THEN scale=1.0_dp gtype=gfactor*r3dvar status=nf_fwrite3d(ng, model, HIS(ng)%ncid, idTvar(itrc), & & HIS(ng)%Tid(itrc), & & HIS(ng)%Rindex, gtype, & & LBi, UBi, LBj, UBj, 1, N(ng), scale, & & GRID(ng) % rmask, & & OCEAN(ng) % t(:,:,:,nrhs(ng),itrc)) IF (FoundError(status, nf90_noerr, 1119, MyFile)) THEN IF (Master) THEN WRITE (stdout,20) TRIM(Vname(1,idTvar(itrc))), & & HIS(ng)%Rindex END IF exit_flag=3 ioerror=status RETURN END IF END IF END DO ! ! Write out density anomaly. ! IF (Hout(idDano,ng)) THEN scale=1.0_dp gtype=gfactor*r3dvar status=nf_fwrite3d(ng, model, HIS(ng)%ncid, idDano, & & HIS(ng)%Vid(idDano), & & HIS(ng)%Rindex, gtype, & & LBi, UBi, LBj, UBj, 1, N(ng), scale, & & GRID(ng) % rmask, & & OCEAN(ng) % rho) IF (FoundError(status, nf90_noerr, 1172, MyFile)) THEN IF (Master) THEN WRITE (stdout,20) TRIM(Vname(1,idDano)), HIS(ng)%Rindex END IF exit_flag=3 ioerror=status RETURN END IF END IF ! ! Write out vertical viscosity coefficient. ! IF (Hout(idVvis,ng)) THEN scale=1.0_dp gtype=gfactor*w3dvar status=nf_fwrite3d(ng, model, HIS(ng)%ncid, idVvis, & & HIS(ng)%Vid(idVvis), & & HIS(ng)%Rindex, gtype, & & LBi, UBi, LBj, UBj, 0, N(ng), scale, & & GRID(ng) % rmask, & & MIXING(ng) % Akv, & & SetFillVal = .FALSE.) IF (FoundError(status, nf90_noerr, 1273, MyFile)) THEN IF (Master) THEN WRITE (stdout,20) TRIM(Vname(1,idVvis)), HIS(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_dp gtype=gfactor*w3dvar status=nf_fwrite3d(ng, model, HIS(ng)%ncid, idTdif, & & HIS(ng)%Vid(idTdif), & & HIS(ng)%Rindex, gtype, & & LBi, UBi, LBj, UBj, 0, N(ng), scale, & & GRID(ng) % rmask, & & MIXING(ng) % Akt(:,:,:,itemp), & & SetFillVal = .FALSE.) IF (FoundError(status, nf90_noerr, 1297, MyFile)) THEN IF (Master) THEN WRITE (stdout,20) TRIM(Vname(1,idTdif)), HIS(ng)%Rindex END IF exit_flag=3 ioerror=status RETURN END IF END IF ! ! Write out vertical diffusion coefficient for salinity. ! IF (Hout(idSdif,ng)) THEN scale=1.0_dp gtype=gfactor*w3dvar status=nf_fwrite3d(ng, model, HIS(ng)%ncid, idSdif, & & HIS(ng)%Vid(idSdif), & & HIS(ng)%Rindex, gtype, & & LBi, UBi, LBj, UBj, 0, N(ng), scale, & & GRID(ng) % rmask, & & MIXING(ng) % Akt(:,:,:,isalt), & & SetFillVal = .FALSE.) IF (FoundError(status, nf90_noerr, 1322, MyFile)) THEN IF (Master) THEN WRITE (stdout,20) TRIM(Vname(1,idSdif)), HIS(ng)%Rindex END IF exit_flag=3 ioerror=status RETURN END IF END IF ! ! Write out turbulent kinetic energy. ! IF (Hout(idMtke,ng)) THEN scale=1.0_dp gtype=gfactor*w3dvar status=nf_fwrite3d(ng, model, HIS(ng)%ncid, idMtke, & & HIS(ng)%Vid(idMtke), & & HIS(ng)%Rindex, gtype, & & LBi, UBi, LBj, UBj, 0, N(ng), scale, & & GRID(ng) % rmask, & & MIXING(ng) % tke(:,:,:,nrhs(ng)), & & SetFillVal = .FALSE.) IF (FoundError(status, nf90_noerr, 1348, MyFile)) THEN IF (Master) THEN WRITE (stdout,20) TRIM(Vname(1,idMtke)), HIS(ng)%Rindex END IF exit_flag=3 ioerror=status RETURN END IF scale=1.0_dp gtype=gfactor*w3dvar status=nf_fwrite3d(ng, model, HIS(ng)%ncid, idVmKK, & & HIS(ng)%Vid(idVmKK), & & HIS(ng)%Rindex, gtype, & & LBi, UBi, LBj, UBj, 0, N(ng), scale, & & GRID(ng) % rmask, & & MIXING(ng) % Akk) IF (FoundError(status, nf90_noerr, 1367, MyFile)) THEN IF (Master) THEN WRITE (stdout,20) TRIM(Vname(1,idVmKK)), HIS(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_dp gtype=gfactor*w3dvar status=nf_fwrite3d(ng, model, HIS(ng)%ncid, idMtls, & & HIS(ng)%Vid(idMtls), & & HIS(ng)%Rindex, gtype, & & LBi, UBi, LBj, UBj, 0, N(ng), scale, & & GRID(ng) % rmask, & & MIXING(ng) % gls(:,:,:,nrhs(ng)), & & SetFillVal = .FALSE.) IF (FoundError(status, nf90_noerr, 1392, MyFile)) THEN IF (Master) THEN WRITE (stdout,20) TRIM(Vname(1,idMtls)), HIS(ng)%Rindex END IF exit_flag=3 ioerror=status RETURN END IF scale=1.0_dp gtype=gfactor*w3dvar status=nf_fwrite3d(ng, model, HIS(ng)%ncid, idVmLS, & & HIS(ng)%Vid(idVmLS), & & HIS(ng)%Rindex, gtype, & & LBi, UBi, LBj, UBj, 0, N(ng), scale, & & GRID(ng) % rmask, & & MIXING(ng) % Lscale) IF (FoundError(status, nf90_noerr, 1411, MyFile)) THEN IF (Master) THEN WRITE (stdout,20) TRIM(Vname(1,idVmLS)), HIS(ng)%Rindex END IF exit_flag=3 ioerror=status RETURN END IF END IF ! ! Write out surface air pressure. ! IF (Hout(idPair,ng)) THEN scale=1.0_dp gtype=gfactor*r2dvar status=nf_fwrite2d(ng, model, HIS(ng)%ncid, idPair, & & HIS(ng)%Vid(idPair), & & HIS(ng)%Rindex, gtype, & & LBi, UBi, LBj, UBj, scale, & & GRID(ng) % rmask, & & FORCES(ng) % Pair) IF (FoundError(status, nf90_noerr, 1457, MyFile)) THEN IF (Master) THEN WRITE (stdout,20) TRIM(Vname(1,idPair)), HIS(ng)%Rindex END IF exit_flag=3 ioerror=status RETURN END IF END IF ! ! Write out surface air temperature. ! IF (Hout(idTair,ng)) THEN scale=1.0_dp gtype=gfactor*r2dvar status=nf_fwrite2d(ng, model, HIS(ng)%ncid, idTair, & & HIS(ng)%Vid(idTair), & & HIS(ng)%Rindex, gtype, & & LBi, UBi, LBj, UBj, scale, & & GRID(ng) % rmask, & & FORCES(ng) % Tair) IF (FoundError(status, nf90_noerr, 1482, MyFile)) THEN IF (Master) THEN WRITE (stdout,20) TRIM(Vname(1,idTair)), HIS(ng)%Rindex END IF exit_flag=3 ioerror=status RETURN END IF END IF ! ! Write out surface winds. ! IF (Hout(idUair,ng)) THEN scale=1.0_dp gtype=gfactor*r2dvar status=nf_fwrite2d(ng, model, HIS(ng)%ncid, idUair, & & HIS(ng)%Vid(idUair), & & HIS(ng)%Rindex, gtype, & & LBi, UBi, LBj, UBj, scale, & & GRID(ng) % rmask, & & FORCES(ng) % Uwind) IF (FoundError(status, nf90_noerr, 1507, MyFile)) THEN IF (Master) THEN WRITE (stdout,20) TRIM(Vname(1,idUair)), HIS(ng)%Rindex END IF exit_flag=3 ioerror=status RETURN END IF END IF IF (Hout(idVair,ng)) THEN scale=1.0_dp gtype=gfactor*r2dvar status=nf_fwrite2d(ng, model, HIS(ng)%ncid, idVair, & & HIS(ng)%Vid(idVair), & & HIS(ng)%Rindex, gtype, & & LBi, UBi, LBj, UBj, scale, & & GRID(ng) % rmask, & & FORCES(ng) % Vwind) IF (FoundError(status, nf90_noerr, 1528, MyFile)) THEN IF (Master) THEN WRITE (stdout,20) TRIM(Vname(1,idVair)), HIS(ng)%Rindex END IF exit_flag=3 ioerror=status RETURN END IF END IF ! ! Write out surface active traces fluxes. ! DO itrc=1,NAT IF (Hout(idTsur(itrc),ng)) THEN IF (itrc.eq.itemp) THEN scale=rho0*Cp ! Celsius m/s to W/m2 ELSE IF (itrc.eq.isalt) THEN scale=1.0_dp END IF gtype=gfactor*r2dvar status=nf_fwrite2d(ng, model, HIS(ng)%ncid, idTsur(itrc), & & HIS(ng)%Vid(idTsur(itrc)), & & HIS(ng)%Rindex, gtype, & & LBi, UBi, LBj, UBj, scale, & & GRID(ng) % rmask, & & FORCES(ng) % stflx(:,:,itrc)) IF (FoundError(status, nf90_noerr, 1561, MyFile)) THEN IF (Master) THEN WRITE (stdout,20) TRIM(Vname(1,idTsur(itrc))), & & HIS(ng)%Rindex END IF exit_flag=3 ioerror=status RETURN END IF END IF END DO ! ! Write out latent heat flux. ! IF (Hout(idLhea,ng)) THEN scale=rho0*Cp gtype=gfactor*r2dvar status=nf_fwrite2d(ng, model, HIS(ng)%ncid, idLhea, & & HIS(ng)%Vid(idLhea), & & HIS(ng)%Rindex, gtype, & & LBi, UBi, LBj, UBj, scale, & & GRID(ng) % rmask, & & FORCES(ng) % lhflx) IF (FoundError(status, nf90_noerr, 1588, MyFile)) THEN IF (Master) THEN WRITE (stdout,20) TRIM(Vname(1,idLhea)), HIS(ng)%Rindex END IF exit_flag=3 ioerror=status RETURN END IF END IF ! ! Write out sensible heat flux. ! IF (Hout(idShea,ng)) THEN scale=rho0*Cp gtype=gfactor*r2dvar status=nf_fwrite2d(ng, model, HIS(ng)%ncid, idShea, & & HIS(ng)%Vid(idShea), & & HIS(ng)%Rindex, gtype, & & LBi, UBi, LBj, UBj, scale, & & GRID(ng) % rmask, & & FORCES(ng) % shflx) IF (FoundError(status, nf90_noerr, 1611, MyFile)) THEN IF (Master) THEN WRITE (stdout,20) TRIM(Vname(1,idShea)), HIS(ng)%Rindex END IF exit_flag=3 ioerror=status RETURN END IF END IF ! ! Write out net longwave radiation flux. ! IF (Hout(idLrad,ng)) THEN scale=rho0*Cp gtype=gfactor*r2dvar status=nf_fwrite2d(ng, model, HIS(ng)%ncid, idLrad, & & HIS(ng)%Vid(idLrad), & & HIS(ng)%Rindex, gtype, & & LBi, UBi, LBj, UBj, scale, & & GRID(ng) % rmask, & & FORCES(ng) % lrflx) IF (FoundError(status, nf90_noerr, 1634, MyFile)) THEN IF (Master) THEN WRITE (stdout,20) TRIM(Vname(1,idLrad)), HIS(ng)%Rindex END IF exit_flag=3 ioerror=status RETURN END IF END IF ! ! Write out evaporation rate (kg/m2/s). ! IF (Hout(idevap,ng)) THEN scale=1.0_dp gtype=gfactor*r2dvar status=nf_fwrite2d(ng, model, HIS(ng)%ncid, idevap, & & HIS(ng)%Vid(idevap), & & HIS(ng)%Rindex, gtype, & & LBi, UBi, LBj, UBj, scale, & & GRID(ng) % rmask, & & FORCES(ng) % evap) IF (FoundError(status, nf90_noerr, 1661, MyFile)) THEN IF (Master) THEN WRITE (stdout,20) TRIM(Vname(1,idevap)), HIS(ng)%Rindex END IF exit_flag=3 ioerror=status RETURN END IF END IF ! ! Write out precipitation rate (kg/m2/s). ! IF (Hout(idrain,ng)) THEN scale=1.0_dp gtype=gfactor*r2dvar status=nf_fwrite2d(ng, model, HIS(ng)%ncid, idrain, & & HIS(ng)%Vid(idrain), & & HIS(ng)%Rindex, gtype, & & LBi, UBi, LBj, UBj, scale, & & GRID(ng) % rmask, & & FORCES(ng) % rain) IF (FoundError(status, nf90_noerr, 1684, MyFile)) THEN IF (Master) THEN WRITE (stdout,20) TRIM(Vname(1,idrain)), HIS(ng)%Rindex END IF exit_flag=3 ioerror=status RETURN END IF END IF ! ! Write out E-P (m/s). ! IF (Hout(idEmPf,ng)) THEN scale=1.0_dp gtype=gfactor*r2dvar status=nf_fwrite2d(ng, model, HIS(ng)%ncid, idEmPf, & & HIS(ng)%Vid(idEmPf), & & HIS(ng)%Rindex, gtype, & & LBi, UBi, LBj, UBj, scale, & & GRID(ng) % rmask, & & FORCES(ng) % stflux(:,:,isalt)) IF (FoundError(status, nf90_noerr, 1709, MyFile)) THEN IF (Master) THEN WRITE (stdout,20) TRIM(Vname(1,idEmPf)), HIS(ng)%Rindex END IF exit_flag=3 ioerror=status RETURN END IF END IF ! ! Write out net shortwave radiation flux. ! IF (Hout(idSrad,ng)) THEN scale=rho0*Cp gtype=gfactor*r2dvar status=nf_fwrite2d(ng, model, HIS(ng)%ncid, idSrad, & & HIS(ng)%Vid(idSrad), & & HIS(ng)%Rindex, gtype, & & LBi, UBi, LBj, UBj, scale, & & GRID(ng) % rmask, & & FORCES(ng) % srflx) IF (FoundError(status, nf90_noerr, 1733, MyFile)) THEN IF (Master) THEN WRITE (stdout,20) TRIM(Vname(1,idSrad)), HIS(ng)%Rindex END IF exit_flag=3 ioerror=status RETURN END IF END IF ! ! Write out surface U-momentum stress. ! IF (Hout(idUsms,ng)) THEN scale=rho0 ! m2/s2 to Pa gtype=gfactor*u2dvar status=nf_fwrite2d(ng, model, HIS(ng)%ncid, idUsms, & & HIS(ng)%Vid(idUsms), & & HIS(ng)%Rindex, gtype, & & LBi, UBi, LBj, UBj, scale, & & GRID(ng) % umask, & & FORCES(ng) % sustr) IF (FoundError(status, nf90_noerr, 1762, MyFile)) THEN IF (Master) THEN WRITE (stdout,20) TRIM(Vname(1,idUsms)), HIS(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=rho0 gtype=gfactor*v2dvar status=nf_fwrite2d(ng, model, HIS(ng)%ncid, idVsms, & & HIS(ng)%Vid(idVsms), & & HIS(ng)%Rindex, gtype, & & LBi, UBi, LBj, UBj, scale, & & GRID(ng) % vmask, & & FORCES(ng) % svstr) IF (FoundError(status, nf90_noerr, 1789, MyFile)) THEN IF (Master) THEN WRITE (stdout,20) TRIM(Vname(1,idVsms)), HIS(ng)%Rindex END IF exit_flag=3 ioerror=status RETURN END IF END IF ! ! Write out bottom U-momentum stress. ! IF (Hout(idUbms,ng)) THEN scale=-rho0 gtype=gfactor*u2dvar status=nf_fwrite2d(ng, model, HIS(ng)%ncid, idUbms, & & HIS(ng)%Vid(idUbms), & & HIS(ng)%Rindex, gtype, & & LBi, UBi, LBj, UBj, scale, & & GRID(ng) % umask, & & FORCES(ng) % bustr) IF (FoundError(status, nf90_noerr, 1812, MyFile)) THEN IF (Master) THEN WRITE (stdout,20) TRIM(Vname(1,idUbms)), HIS(ng)%Rindex END IF exit_flag=3 ioerror=status RETURN END IF END IF ! ! Write out bottom V-momentum stress. ! IF (Hout(idVbms,ng)) THEN scale=-rho0 gtype=gfactor*v2dvar status=nf_fwrite2d(ng, model, HIS(ng)%ncid, idVbms, & & HIS(ng)%Vid(idVbms), & & HIS(ng)%Rindex, gtype, & & LBi, UBi, LBj, UBj, scale, & & GRID(ng) % vmask, & & FORCES(ng) % bvstr) IF (FoundError(status, nf90_noerr, 1835, MyFile)) THEN IF (Master) THEN WRITE (stdout,20) TRIM(Vname(1,idVbms)), HIS(ng)%Rindex END IF exit_flag=3 ioerror=status RETURN END IF END IF ! !----------------------------------------------------------------------- ! Synchronize history NetCDF file to disk to allow other processes ! to access data immediately after it is written. !----------------------------------------------------------------------- ! CALL netcdf_sync (ng, model, HIS(ng)%name, HIS(ng)%ncid) IF (FoundError(exit_flag, NoError, 1899, MyFile)) RETURN ! 10 FORMAT (2x,'WRT_HIS_NF90 - writing history', t42, & & 'fields (Index=',i1,',',i1,') in record = ',i0) 20 FORMAT (/,' WRT_HIS_NF90 - error while writing variable: ',a, & & /,16x,'into history NetCDF file for time record: ',i0) ! RETURN END SUBROUTINE wrt_his_nf90 ! END MODULE wrt_his_mod