MODULE def_his_mod ! !git $Id$ !svn $Id: def_his.F 1185 2023-08-01 21:42:38Z 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 creates output HISTORY file using either the standard ! ! NetCDF library or the Parallel-IO (PIO) library. It defines its ! ! dimensions, attributes, and variables. ! ! ! !======================================================================= ! USE mod_param USE mod_parallel USE mod_fourdvar USE mod_iounits USE mod_ncparam USE mod_scalars ! USE def_dim_mod, ONLY : def_dim USE def_info_mod, ONLY : def_info USE def_var_mod, ONLY : def_var USE strings_mod, ONLY : FoundError USE wrt_info_mod, ONLY : wrt_info ! implicit none ! PUBLIC :: def_his PRIVATE :: def_his_nf90 ! CONTAINS ! !*********************************************************************** SUBROUTINE def_his (ng, ldef) !*********************************************************************** ! ! Imported variable declarations. ! logical, intent(in) :: ldef ! integer, intent(in) :: ng ! ! Local variable declarations. ! character (len=*), parameter :: MyFile = & & "ROMS/Utility/def_his.F" ! !----------------------------------------------------------------------- ! Create a new history file according to IO type. !----------------------------------------------------------------------- ! SELECT CASE (HIS(ng)%IOtype) CASE (io_nf90) CALL def_his_nf90 (ng, iNLM, ldef) CASE DEFAULT IF (Master) WRITE (stdout,10) HIS(ng)%IOtype exit_flag=3 END SELECT IF (FoundError(exit_flag, NoError, 104, MyFile)) RETURN ! 10 FORMAT (' DEF_HIS - Illegal output file type, io_type = ',i0, & & /,11x,'Check KeyWord ''OUT_LIB'' in ''roms.in''.') ! RETURN END SUBROUTINE def_his ! !*********************************************************************** SUBROUTINE def_his_nf90 (ng, model, ldef) !*********************************************************************** ! USE mod_netcdf ! ! Imported variable declarations. ! logical, intent(in) :: ldef integer, intent(in) :: ng, model ! ! Local variable declarations. ! logical :: got_var(NV) ! integer, parameter :: Natt = 25 integer :: i, j, ifield, itrc, nvd3, nvd4, varid integer :: recdim, status integer :: DimIDs(nDimID) integer :: t2dgrd(3), u2dgrd(3), v2dgrd(3) integer :: t3dgrd(4), u3dgrd(4), v3dgrd(4), w3dgrd(4) ! real(r8) :: Aval(6) ! character (len=256) :: ncname character (len=MaxLen) :: Vinfo(Natt) character (len=*), parameter :: MyFile = & & "ROMS/Utility/def_his.F"//", def_his_nf90" ! SourceFile=MyFile ! !----------------------------------------------------------------------- ! Set and report file name. !----------------------------------------------------------------------- ! IF (FoundError(exit_flag, NoError, 167, MyFile)) RETURN ncname=HIS(ng)%name ! IF (Master) THEN IF (ldef) THEN WRITE (stdout,10) ng, TRIM(ncname) ELSE WRITE (stdout,20) ng, TRIM(ncname) END IF END IF ! !======================================================================= ! Create a new history file. !======================================================================= ! DEFINE : IF (ldef) THEN CALL netcdf_create (ng, model, TRIM(ncname), HIS(ng)%ncid) IF (FoundError(exit_flag, NoError, 184, MyFile)) THEN IF (Master) WRITE (stdout,30) TRIM(ncname) RETURN END IF ! !----------------------------------------------------------------------- ! Define file dimensions. !----------------------------------------------------------------------- ! DimIDs=0 ! status=def_dim(ng, model, HIS(ng)%ncid, ncname, 'xi_rho', & & IOBOUNDS(ng)%xi_rho, DimIDs( 1)) IF (FoundError(exit_flag, NoError, 197, MyFile)) RETURN status=def_dim(ng, model, HIS(ng)%ncid, ncname, 'xi_u', & & IOBOUNDS(ng)%xi_u, DimIDs( 2)) IF (FoundError(exit_flag, NoError, 201, MyFile)) RETURN status=def_dim(ng, model, HIS(ng)%ncid, ncname, 'xi_v', & & IOBOUNDS(ng)%xi_v, DimIDs( 3)) IF (FoundError(exit_flag, NoError, 205, MyFile)) RETURN status=def_dim(ng, model, HIS(ng)%ncid, ncname, 'xi_psi', & & IOBOUNDS(ng)%xi_psi, DimIDs( 4)) IF (FoundError(exit_flag, NoError, 209, MyFile)) RETURN status=def_dim(ng, model, HIS(ng)%ncid, ncname, 'eta_rho', & & IOBOUNDS(ng)%eta_rho, DimIDs( 5)) IF (FoundError(exit_flag, NoError, 213, MyFile)) RETURN status=def_dim(ng, model, HIS(ng)%ncid, ncname, 'eta_u', & & IOBOUNDS(ng)%eta_u, DimIDs( 6)) IF (FoundError(exit_flag, NoError, 217, MyFile)) RETURN status=def_dim(ng, model, HIS(ng)%ncid, ncname, 'eta_v', & & IOBOUNDS(ng)%eta_v, DimIDs( 7)) IF (FoundError(exit_flag, NoError, 221, MyFile)) RETURN status=def_dim(ng, model, HIS(ng)%ncid, ncname, 'eta_psi', & & IOBOUNDS(ng)%eta_psi, DimIDs( 8)) IF (FoundError(exit_flag, NoError, 225, MyFile)) RETURN status=def_dim(ng, model, HIS(ng)%ncid, ncname, 'N', & & N(ng), DimIDs( 9)) IF (FoundError(exit_flag, NoError, 268, MyFile)) RETURN status=def_dim(ng, model, HIS(ng)%ncid, ncname, 's_rho', & & N(ng), DimIDs( 9)) IF (FoundError(exit_flag, NoError, 272, MyFile)) RETURN status=def_dim(ng, model, HIS(ng)%ncid, ncname, 's_w', & & N(ng)+1, DimIDs(10)) IF (FoundError(exit_flag, NoError, 276, MyFile)) RETURN status=def_dim(ng, model, HIS(ng)%ncid, ncname, 'tracer', & & NT(ng), DimIDs(11)) IF (FoundError(exit_flag, NoError, 280, MyFile)) RETURN status=def_dim(ng, model, HIS(ng)%ncid, ncname, 'boundary', & & 4, DimIDs(14)) IF (FoundError(exit_flag, NoError, 323, MyFile)) RETURN status=def_dim(ng, model, HIS(ng)%ncid, ncname, 'Nstate', & & NstateVar(ng), DimIDs(29)) IF (FoundError(exit_flag, NoError, 328, MyFile)) RETURN status=def_dim(ng, model, HIS(ng)%ncid, ncname, & & TRIM(ADJUSTL(Vname(5,idtime))), & & nf90_unlimited, DimIDs(12)) IF (FoundError(exit_flag, NoError, 340, MyFile)) RETURN recdim=DimIDs(12) ! ! Set number of dimensions for output variables. ! nvd3=3 nvd4=4 ! ! Define dimension vectors for staggered tracer type variables. ! t2dgrd(1)=DimIDs( 1) t2dgrd(2)=DimIDs( 5) t2dgrd(3)=DimIDs(12) t3dgrd(1)=DimIDs( 1) t3dgrd(2)=DimIDs( 5) t3dgrd(3)=DimIDs( 9) t3dgrd(4)=DimIDs(12) ! ! Define dimension vectors for staggered u-momentum type variables. ! u2dgrd(1)=DimIDs( 2) u2dgrd(2)=DimIDs( 6) u2dgrd(3)=DimIDs(12) u3dgrd(1)=DimIDs( 2) u3dgrd(2)=DimIDs( 6) u3dgrd(3)=DimIDs( 9) u3dgrd(4)=DimIDs(12) ! ! Define dimension vectors for staggered v-momentum type variables. ! v2dgrd(1)=DimIDs( 3) v2dgrd(2)=DimIDs( 7) v2dgrd(3)=DimIDs(12) v3dgrd(1)=DimIDs( 3) v3dgrd(2)=DimIDs( 7) v3dgrd(3)=DimIDs( 9) v3dgrd(4)=DimIDs(12) ! ! Define dimension vector for staggered w-momentum type variables. ! w3dgrd(1)=DimIDs( 1) w3dgrd(2)=DimIDs( 5) w3dgrd(3)=DimIDs(10) w3dgrd(4)=DimIDs(12) ! ! Initialize unlimited time record dimension. ! HIS(ng)%Rindex=0 ! ! Initialize local information variable arrays. ! DO i=1,Natt DO j=1,LEN(Vinfo(1)) Vinfo(i)(j:j)=' ' END DO END DO DO i=1,6 Aval(i)=0.0_r8 END DO ! !----------------------------------------------------------------------- ! Define time-recordless information variables. !----------------------------------------------------------------------- ! CALL def_info (ng, model, HIS(ng)%ncid, ncname, DimIDs) IF (FoundError(exit_flag, NoError, 489, MyFile)) RETURN ! !----------------------------------------------------------------------- ! Define time-varying variables. !----------------------------------------------------------------------- ! ! Define model time. ! Vinfo( 1)=Vname(1,idtime) Vinfo( 2)=Vname(2,idtime) WRITE (Vinfo( 3),'(a,a)') 'seconds since ', TRIM(Rclock%string) Vinfo( 4)=TRIM(Rclock%calendar) Vinfo(14)=Vname(4,idtime) Vinfo(21)=Vname(6,idtime) status=def_var(ng, model, HIS(ng)%ncid, HIS(ng)%Vid(idtime), & & NF_TOUT, 1, (/recdim/), Aval, Vinfo, ncname, & & SetParAccess = .TRUE.) IF (FoundError(exit_flag, NoError, 506, MyFile)) RETURN ! ! Define time-varying depth of RHO-points. ! IF (Hout(idpthR,ng)) THEN Vinfo( 1)=Vname(1,idpthR) WRITE (Vinfo( 2),40) TRIM(Vname(2,idpthR)) Vinfo( 3)=Vname(3,idpthR) Vinfo(14)=Vname(4,idpthR) Vinfo(16)=Vname(1,idtime) Vinfo(21)=Vname(6,idpthR) Vinfo(22)='coordinates' Aval(5)=REAL(Iinfo(1,idpthR,ng),r8) status=def_var(ng, model, HIS(ng)%ncid, HIS(ng)%Vid(idpthR), & & NF_FOUT, nvd4, t3dgrd, Aval, Vinfo, ncname, & & SetFillVal = .FALSE.) IF (FoundError(exit_flag, NoError, 616, MyFile)) RETURN END IF ! ! Define time-varying depth of U-points. ! IF (Hout(idpthU,ng)) THEN Vinfo( 1)=Vname(1,idpthU) WRITE (Vinfo( 2),40) TRIM(Vname(2,idpthU)) Vinfo( 3)=Vname(3,idpthU) Vinfo(14)=Vname(4,idpthU) Vinfo(16)=Vname(1,idtime) Vinfo(21)=Vname(6,idpthU) Vinfo(22)='coordinates' Aval(5)=REAL(Iinfo(1,idpthU,ng),r8) status=def_var(ng, model, HIS(ng)%ncid, HIS(ng)%Vid(idpthU), & & NF_FOUT, nvd4, u3dgrd, Aval, Vinfo, ncname, & & SetFillVal = .FALSE.) IF (FoundError(exit_flag, NoError, 636, MyFile)) RETURN END IF ! ! Define time-varying depth of V-points. ! IF (Hout(idpthV,ng)) THEN Vinfo( 1)=Vname(1,idpthV) WRITE (Vinfo( 2),40) TRIM(Vname(2,idpthV)) Vinfo( 3)=Vname(3,idpthV) Vinfo(14)=Vname(4,idpthV) Vinfo(16)=Vname(1,idtime) Vinfo(21)=Vname(6,idpthV) Vinfo(22)='coordinates' Aval(5)=REAL(Iinfo(1,idpthV,ng),r8) status=def_var(ng, model, HIS(ng)%ncid, HIS(ng)%Vid(idpthV), & & NF_FOUT, nvd4, v3dgrd, Aval, Vinfo, ncname, & & SetFillVal = .FALSE.) IF (FoundError(exit_flag, NoError, 656, MyFile)) RETURN END IF ! ! Define time-varying depth of W-points. ! IF (Hout(idpthW,ng)) THEN Vinfo( 1)=Vname(1,idpthW) WRITE (Vinfo( 2),40) TRIM(Vname(2,idpthW)) Vinfo( 3)=Vname(3,idpthW) Vinfo(14)=Vname(4,idpthW) Vinfo(16)=Vname(1,idtime) Vinfo(21)=Vname(6,idpthW) Vinfo(22)='coordinates' Aval(5)=REAL(Iinfo(1,idpthW,ng),r8) status=def_var(ng, model, HIS(ng)%ncid, HIS(ng)%Vid(idpthW), & & NF_FOUT, nvd4, w3dgrd, Aval, Vinfo, ncname, & & SetFillVal = .FALSE.) IF (FoundError(exit_flag, NoError, 676, MyFile)) RETURN END IF ! ! Define free-surface. ! IF (Hout(idFsur,ng)) THEN Vinfo( 1)=Vname(1,idFsur) Vinfo( 2)=Vname(2,idFsur) Vinfo( 3)=Vname(3,idFsur) Vinfo(14)=Vname(4,idFsur) Vinfo(16)=Vname(1,idtime) Vinfo(21)=Vname(6,idFsur) Vinfo(22)='coordinates' Aval(5)=REAL(Iinfo(1,idFsur,ng),r8) status=def_var(ng, model, HIS(ng)%ncid, HIS(ng)%Vid(idFsur), & & NF_FOUT, nvd3, t2dgrd, Aval, Vinfo, ncname) IF (FoundError(exit_flag, NoError, 701, MyFile)) RETURN END IF ! ! Define 2D U-momentum component. ! IF (Hout(idUbar,ng)) THEN Vinfo( 1)=Vname(1,idUbar) Vinfo( 2)=Vname(2,idUbar) Vinfo( 3)=Vname(3,idUbar) Vinfo(14)=Vname(4,idUbar) Vinfo(16)=Vname(1,idtime) Vinfo(21)=Vname(6,idUbar) Vinfo(22)='coordinates' Aval(5)=REAL(Iinfo(1,idUbar,ng),r8) status=def_var(ng, model, HIS(ng)%ncid, HIS(ng)%Vid(idUbar), & & NF_FOUT, nvd3, u2dgrd, Aval, Vinfo, ncname) IF (FoundError(exit_flag, NoError, 758, MyFile)) RETURN ! Vinfo( 1)=Vname(1,idUfx1) Vinfo( 2)=Vname(2,idUfx1) Vinfo( 3)=Vname(3,idUfx1) Vinfo(14)=Vname(4,idUfx1) Vinfo(16)=Vname(1,idtime) Vinfo(21)=Vname(6,idUfx1) Vinfo(22)='coordinates' Aval(5)=REAL(Iinfo(1,idUfx1,ng),r8) status=def_var(ng, model, HIS(ng)%ncid, HIS(ng)%Vid(idUfx1), & & NF_FOUT, nvd3, u2dgrd, Aval, Vinfo, ncname) IF (FoundError(exit_flag, NoError, 810, MyFile)) RETURN ! Vinfo( 1)=Vname(1,idUfx2) Vinfo( 2)=Vname(2,idUfx2) Vinfo( 3)=Vname(3,idUfx2) Vinfo(14)=Vname(4,idUfx2) Vinfo(16)=Vname(1,idtime) Vinfo(21)=Vname(6,idUfx2) Vinfo(22)='coordinates' Aval(5)=REAL(Iinfo(1,idUfx2,ng),r8) status=def_var(ng, model, HIS(ng)%ncid, HIS(ng)%Vid(idUfx2), & & NF_FOUT, nvd3, u2dgrd, Aval, Vinfo, ncname) IF (FoundError(exit_flag, NoError, 825, MyFile)) RETURN END IF ! ! Define 2D V-momentum component. ! IF (Hout(idVbar,ng)) THEN Vinfo( 1)=Vname(1,idVbar) Vinfo( 2)=Vname(2,idVbar) Vinfo( 3)=Vname(3,idVbar) Vinfo(14)=Vname(4,idVbar) Vinfo(16)=Vname(1,idtime) Vinfo(21)=Vname(6,idVbar) Vinfo(22)='coordinates' Aval(5)=REAL(Iinfo(1,idVbar,ng),r8) status=def_var(ng, model, HIS(ng)%ncid, HIS(ng)%Vid(idVbar), & & NF_FOUT, nvd3, v2dgrd, Aval, Vinfo, ncname) IF (FoundError(exit_flag, NoError, 866, MyFile)) RETURN ! Vinfo( 1)=Vname(1,idVfx1) Vinfo( 2)=Vname(2,idVfx1) Vinfo( 3)=Vname(3,idVfx1) Vinfo(14)=Vname(4,idVfx1) Vinfo(16)=Vname(1,idtime) Vinfo(21)=Vname(6,idVfx1) Vinfo(22)='coordinates' Aval(5)=REAL(Iinfo(1,idVfx1,ng),r8) status=def_var(ng, model, HIS(ng)%ncid, HIS(ng)%Vid(idVfx1), & & NF_FOUT, nvd3, v2dgrd, Aval, Vinfo, ncname) IF (FoundError(exit_flag, NoError, 918, MyFile)) RETURN ! Vinfo( 1)=Vname(1,idVfx2) Vinfo( 2)=Vname(2,idVfx2) Vinfo( 3)=Vname(3,idVfx2) Vinfo(14)=Vname(4,idVfx2) Vinfo(16)=Vname(1,idtime) Vinfo(21)=Vname(6,idVfx2) Vinfo(22)='coordinates' Aval(5)=REAL(Iinfo(1,idVfx2,ng),r8) status=def_var(ng, model, HIS(ng)%ncid, HIS(ng)%Vid(idVfx2), & & NF_FOUT, nvd3, v2dgrd, Aval, Vinfo, ncname) IF (FoundError(exit_flag, NoError, 933, MyFile)) RETURN END IF ! ! Define 2D Eastward momentum component at RHO-points. ! IF (Hout(idu2dE,ng)) THEN Vinfo( 1)=Vname(1,idu2dE) Vinfo( 2)=Vname(2,idu2dE) Vinfo( 3)=Vname(3,idu2dE) Vinfo(14)=Vname(4,idu2dE) Vinfo(16)=Vname(1,idtime) Vinfo(21)=Vname(6,idu2dE) Vinfo(22)='coordinates' Aval(5)=REAL(Iinfo(1,idu2dE,ng),r8) status=def_var(ng, model, HIS(ng)%ncid, HIS(ng)%Vid(idu2dE), & & NF_FOUT, nvd3, t2dgrd, Aval, Vinfo, ncname) IF (FoundError(exit_flag, NoError, 974, MyFile)) RETURN END IF ! ! Define 2D Northward momentum component at RHO-points. ! IF (Hout(idv2dN,ng)) THEN Vinfo( 1)=Vname(1,idv2dN) Vinfo( 2)=Vname(2,idv2dN) Vinfo( 3)=Vname(3,idv2dN) Vinfo(14)=Vname(4,idv2dN) Vinfo(16)=Vname(1,idtime) Vinfo(21)=Vname(6,idv2dN) Vinfo(22)='coordinates' Aval(5)=REAL(Iinfo(1,idv2dN,ng),r8) status=def_var(ng, model, HIS(ng)%ncid, HIS(ng)%Vid(idv2dN), & & NF_FOUT, nvd3, t2dgrd, Aval, Vinfo, ncname) IF (FoundError(exit_flag, NoError, 993, MyFile)) RETURN END IF ! ! Define 3D U-momentum component. ! IF (Hout(idUvel,ng)) THEN Vinfo( 1)=Vname(1,idUvel) Vinfo( 2)=Vname(2,idUvel) Vinfo( 3)=Vname(3,idUvel) Vinfo(14)=Vname(4,idUvel) Vinfo(16)=Vname(1,idtime) Vinfo(21)=Vname(6,idUvel) Vinfo(22)='coordinates' Aval(5)=REAL(Iinfo(1,idUvel,ng),r8) status=def_var(ng, model, HIS(ng)%ncid, HIS(ng)%Vid(idUvel), & & NF_FOUT, nvd4, u3dgrd, Aval, Vinfo, ncname) IF (FoundError(exit_flag, NoError, 1014, MyFile)) RETURN END IF ! ! Define 3D V-momentum component. ! IF (Hout(idVvel,ng)) THEN Vinfo( 1)=Vname(1,idVvel) Vinfo( 2)=Vname(2,idVvel) Vinfo( 3)=Vname(3,idVvel) Vinfo(14)=Vname(4,idVvel) Vinfo(16)=Vname(1,idtime) Vinfo(21)=Vname(6,idVvel) Vinfo(22)='coordinates' Aval(5)=REAL(Iinfo(1,idVvel,ng),r8) status=def_var(ng, model, HIS(ng)%ncid, HIS(ng)%Vid(idVvel), & & NF_FOUT, nvd4, v3dgrd, Aval, Vinfo, ncname) IF (FoundError(exit_flag, NoError, 1071, MyFile)) RETURN END IF ! ! Define 3D Eastward momentum component at RHO-points. ! IF (Hout(idu3dE,ng)) THEN Vinfo( 1)=Vname(1,idu3dE) Vinfo( 2)=Vname(2,idu3dE) Vinfo( 3)=Vname(3,idu3dE) Vinfo(14)=Vname(4,idu3dE) Vinfo(16)=Vname(1,idtime) Vinfo(21)=Vname(6,idu3dE) Vinfo(22)='coordinates' Aval(5)=REAL(Iinfo(1,idu3dE,ng),r8) status=def_var(ng, model, HIS(ng)%ncid, HIS(ng)%Vid(idu3dE), & & NF_FOUT, nvd4, t3dgrd, Aval, Vinfo, ncname) IF (FoundError(exit_flag, NoError, 1128, MyFile)) RETURN END IF ! ! Define 3D Northward momentum component at RHO-points. ! IF (Hout(idv3dN,ng)) THEN Vinfo( 1)=Vname(1,idv3dN) Vinfo( 2)=Vname(2,idv3dN) Vinfo( 3)=Vname(3,idv3dN) Vinfo(14)=Vname(4,idv3dN) Vinfo(16)=Vname(1,idtime) Vinfo(21)=Vname(6,idv3dN) Vinfo(22)='coordinates' Aval(5)=REAL(Iinfo(1,idv3dN,ng),r8) status=def_var(ng, model, HIS(ng)%ncid, HIS(ng)%Vid(idv3dN), & & NF_FOUT, nvd4, t3dgrd, Aval, Vinfo, ncname) IF (FoundError(exit_flag, NoError, 1147, MyFile)) RETURN END IF ! ! Define 3D momentum component in the Z-direction. ! IF (Hout(idWvel,ng)) THEN Vinfo( 1)=Vname(1,idWvel) Vinfo( 2)=Vname(2,idWvel) Vinfo( 3)=Vname(3,idWvel) Vinfo(14)=Vname(4,idWvel) Vinfo(16)=Vname(1,idtime) Vinfo(21)=Vname(6,idWvel) Vinfo(22)='coordinates' Aval(5)=REAL(Iinfo(1,idWvel,ng),r8) status=def_var(ng, model, HIS(ng)%ncid, HIS(ng)%Vid(idWvel), & & NF_FOUT, nvd4, w3dgrd, Aval, Vinfo, ncname) IF (FoundError(exit_flag, NoError, 1166, MyFile)) RETURN END IF ! ! Define S-coordinate vertical "omega" momentum component. ! IF (Hout(idOvel,ng)) THEN Vinfo( 1)=Vname(1,idOvel) Vinfo( 2)=Vname(2,idOvel) Vinfo( 3)='meter second-1' Vinfo(14)=Vname(4,idOvel) Vinfo(16)=Vname(1,idtime) Vinfo(21)=Vname(6,idOvel) Vinfo(22)='coordinates' Aval(5)=REAL(Iinfo(1,idOvel,ng),r8) status=def_var(ng, model, HIS(ng)%ncid, HIS(ng)%Vid(idOvel), & & NF_FOUT, nvd4, w3dgrd, Aval, Vinfo, ncname) IF (FoundError(exit_flag, NoError, 1185, MyFile)) RETURN END IF ! ! Define tracer type variables. ! DO itrc=1,NT(ng) IF (Hout(idTvar(itrc),ng)) THEN Vinfo( 1)=Vname(1,idTvar(itrc)) Vinfo( 2)=Vname(2,idTvar(itrc)) Vinfo( 3)=Vname(3,idTvar(itrc)) Vinfo(14)=Vname(4,idTvar(itrc)) Vinfo(16)=Vname(1,idtime) Vinfo(21)=Vname(6,idTvar(itrc)) Vinfo(22)='coordinates' Aval(5)=REAL(Iinfo(1,idTvar(itrc),ng),r8) status=def_var(ng, model, HIS(ng)%ncid, HIS(ng)%Tid(itrc), & & NF_FOUT, nvd4, t3dgrd, Aval, Vinfo, ncname) IF (FoundError(exit_flag, NoError, 1234, MyFile)) RETURN END IF END DO ! ! Define density anomaly. ! IF (Hout(idDano,ng)) THEN Vinfo( 1)=Vname(1,idDano) Vinfo( 2)=Vname(2,idDano) Vinfo( 3)=Vname(3,idDano) Vinfo(14)=Vname(4,idDano) Vinfo(16)=Vname(1,idtime) Vinfo(21)=Vname(6,idDano) Vinfo(22)='coordinates' Aval(5)=REAL(Iinfo(1,idDano,ng),r8) status=def_var(ng, model, HIS(ng)%ncid, HIS(ng)%Vid(idDano), & & NF_FOUT, nvd4, t3dgrd, Aval, Vinfo, ncname) IF (FoundError(exit_flag, NoError, 1283, MyFile)) RETURN END IF ! ! Define vertical viscosity coefficient. ! IF (Hout(idVvis,ng)) THEN Vinfo( 1)=Vname(1,idVvis) Vinfo( 2)=Vname(2,idVvis) Vinfo( 3)=Vname(3,idVvis) Vinfo(14)=Vname(4,idVvis) Vinfo(16)=Vname(1,idtime) Vinfo(21)=Vname(6,idVvis) Vinfo(22)='coordinates' Aval(5)=REAL(Iinfo(1,idVvis,ng),r8) status=def_var(ng, model, HIS(ng)%ncid, HIS(ng)%Vid(idVvis), & & NF_FOUT, nvd4, w3dgrd, Aval, Vinfo, ncname, & & SetFillVal = .FALSE.) IF (FoundError(exit_flag, NoError, 1370, MyFile)) RETURN END IF ! ! Define vertical diffusion coefficient for potential temperature. ! IF (Hout(idTdif,ng)) THEN Vinfo( 1)=Vname(1,idTdif) Vinfo( 2)=Vname(2,idTdif) Vinfo( 3)=Vname(3,idTdif) Vinfo(14)=Vname(4,idTdif) Vinfo(16)=Vname(1,idtime) Vinfo(21)=Vname(6,idTdif) Vinfo(22)='coordinates' Aval(5)=REAL(Iinfo(1,idTdif,ng),r8) status=def_var(ng, model, HIS(ng)%ncid, HIS(ng)%Vid(idTdif), & & NF_FOUT, nvd4, w3dgrd, Aval, Vinfo, ncname, & & SetFillVal = .FALSE.) IF (FoundError(exit_flag, NoError, 1390, MyFile)) RETURN END IF ! ! Define vertical diffusion coefficient for salinity. ! IF (Hout(idSdif,ng)) THEN Vinfo( 1)=Vname(1,idSdif) Vinfo( 2)=Vname(2,idSdif) Vinfo( 3)=Vname(3,idSdif) Vinfo(14)=Vname(4,idSdif) Vinfo(16)=Vname(1,idtime) Vinfo(21)=Vname(6,idSdif) Vinfo(22)='coordinates' Aval(5)=REAL(Iinfo(1,idSdif,ng),r8) status=def_var(ng, model, HIS(ng)%ncid, HIS(ng)%Vid(idSdif), & & NF_FOUT, nvd4, w3dgrd, Aval, Vinfo, ncname, & & SetFillVal = .FALSE.) IF (FoundError(exit_flag, NoError, 1412, MyFile)) RETURN END IF ! ! Define turbulent kinetic energy. ! IF (Hout(idMtke,ng)) THEN Vinfo( 1)=Vname(1,idMtke) Vinfo( 2)=Vname(2,idMtke) Vinfo( 3)=Vname(3,idMtke) Vinfo(14)=Vname(4,idMtke) Vinfo(16)=Vname(1,idtime) Vinfo(21)=Vname(6,idMtke) Vinfo(22)='coordinates' Aval(5)=REAL(Iinfo(1,idMtke,ng),r8) status=def_var(ng, model, HIS(ng)%ncid, HIS(ng)%Vid(idMtke), & & NF_FOUT, nvd4, w3dgrd, Aval, Vinfo, ncname, & & SetFillVal = .FALSE.) IF (FoundError(exit_flag, NoError, 1434, MyFile)) RETURN ! Vinfo( 1)=Vname(1,idVmKK) Vinfo( 2)=Vname(2,idVmKK) Vinfo( 3)=Vname(3,idVmKK) Vinfo(14)=Vname(4,idVmKK) Vinfo(16)=Vname(1,idtime) Vinfo(21)=Vname(6,idVmKK) Vinfo(22)='coordinates' Aval(5)=REAL(Iinfo(1,idVmKK,ng),r8) status=def_var(ng, model, HIS(ng)%ncid, HIS(ng)%Vid(idVmKK), & & NF_FOUT, nvd4, w3dgrd, Aval, Vinfo, ncname) IF (FoundError(exit_flag, NoError, 1451, MyFile)) RETURN END IF ! ! Define turbulent kinetic energy time length scale. ! IF (Hout(idMtls,ng)) THEN Vinfo( 1)=Vname(1,idMtls) Vinfo( 2)=Vname(2,idMtls) Vinfo( 3)=Vname(3,idMtls) Vinfo(14)=Vname(4,idMtls) Vinfo(16)=Vname(1,idtime) Vinfo(21)=Vname(6,idMtls) Vinfo(22)='coordinates' Aval(5)=REAL(Iinfo(1,idMtls,ng),r8) status=def_var(ng, model, HIS(ng)%ncid, HIS(ng)%Vid(idMtls), & & NF_FOUT, nvd4, w3dgrd, Aval, Vinfo, ncname, & & SetFillVal = .FALSE.) IF (FoundError(exit_flag, NoError, 1472, MyFile)) RETURN ! Vinfo( 1)=Vname(1,idVmLS) Vinfo( 2)=Vname(2,idVmLS) Vinfo( 3)=Vname(3,idVmLS) Vinfo(14)=Vname(4,idVmLS) Vinfo(16)=Vname(1,idtime) Vinfo(21)=Vname(6,idVmLS) Vinfo(22)='coordinates' Aval(5)=REAL(Iinfo(1,idVmLS,ng),r8) status=def_var(ng, model, HIS(ng)%ncid, HIS(ng)%Vid(idVmLS), & & NF_FOUT, nvd4, w3dgrd, Aval, Vinfo, ncname) IF (FoundError(exit_flag, NoError, 1489, MyFile)) RETURN END IF ! ! Define surface air pressure. ! IF (Hout(idPair,ng)) THEN Vinfo( 1)=Vname(1,idPair) Vinfo( 2)=Vname(2,idPair) Vinfo( 3)=Vname(3,idPair) Vinfo(14)=Vname(4,idPair) Vinfo(16)=Vname(1,idtime) Vinfo(21)=Vname(6,idPair) Vinfo(22)='coordinates' Aval(5)=REAL(Iinfo(1,idPair,ng),r8) status=def_var(ng, model, HIS(ng)%ncid, HIS(ng)%Vid(idPair), & & NF_FOUT, nvd3, t2dgrd, Aval, Vinfo, ncname) IF (FoundError(exit_flag, NoError, 1528, MyFile)) RETURN END IF ! ! Define surface winds. ! IF (Hout(idUair,ng)) THEN Vinfo( 1)=Vname(1,idUair) Vinfo( 2)=Vname(2,idUair) Vinfo( 3)=Vname(3,idUair) Vinfo(14)=Vname(4,idUair) Vinfo(16)=Vname(1,idtime) Vinfo(21)=Vname(6,idUair) Vinfo(22)='coordinates' Aval(5)=REAL(Iinfo(1,idUair,ng),r8) status=def_var(ng, model, HIS(ng)%ncid, HIS(ng)%Vid(idUair), & & NF_FOUT, nvd3, t2dgrd, Aval, Vinfo, ncname) IF (FoundError(exit_flag, NoError, 1549, MyFile)) RETURN END IF ! IF (Hout(idVair,ng)) THEN Vinfo( 1)=Vname(1,idVair) Vinfo( 2)=Vname(2,idVair) Vinfo( 3)=Vname(3,idVair) Vinfo(14)=Vname(4,idVair) Vinfo(16)=Vname(1,idtime) Vinfo(21)=Vname(6,idVair) Vinfo(22)='coordinates' Aval(5)=REAL(Iinfo(1,idVair,ng),r8) status=def_var(ng, model, HIS(ng)%ncid, HIS(ng)%Vid(idVair), & & NF_FOUT, nvd3, t2dgrd, Aval, Vinfo, ncname) IF (FoundError(exit_flag, NoError, 1566, MyFile)) RETURN END IF ! ! Define Eastward/Northward surface winds at RHO-points. ! IF (Hout(idUaiE,ng)) THEN Vinfo( 1)=Vname(1,idUaiE) Vinfo( 2)=Vname(2,idUaiE) Vinfo( 3)=Vname(3,idUaiE) Vinfo(14)=Vname(4,idUaiE) Vinfo(16)=Vname(1,idtime) Vinfo(21)=Vname(6,idUaiE) Vinfo(22)='coordinates' Aval(5)=REAL(Iinfo(1,idUaiE,ng),r8) status=def_var(ng, model, HIS(ng)%ncid, HIS(ng)%Vid(idUaiE), & & NF_FOUT, nvd3, t2dgrd, Aval, Vinfo, ncname) IF (FoundError(exit_flag, NoError, 1585, MyFile)) RETURN END IF ! IF (Hout(idVaiN,ng)) THEN Vinfo( 1)=Vname(1,idVaiN) Vinfo( 2)=Vname(2,idVaiN) Vinfo( 3)=Vname(3,idVaiN) Vinfo(14)=Vname(4,idVaiN) Vinfo(16)=Vname(1,idtime) Vinfo(21)=Vname(6,idVaiN) Vinfo(22)='coordinates' Aval(5)=REAL(Iinfo(1,idVaiN,ng),r8) status=def_var(ng, model, HIS(ng)%ncid, HIS(ng)%Vid(idVaiN), & & NF_FOUT, nvd3, t2dgrd, Aval, Vinfo, ncname) IF (FoundError(exit_flag, NoError, 1602, MyFile)) RETURN END IF ! ! Define surface active tracer fluxes. ! DO itrc=1,NAT IF (Hout(idTsur(itrc),ng)) THEN Vinfo( 1)=Vname(1,idTsur(itrc)) Vinfo( 2)=Vname(2,idTsur(itrc)) Vinfo( 3)=Vname(3,idTsur(itrc)) IF (itrc.eq.itemp) THEN Vinfo(11)='upward flux, cooling' Vinfo(12)='downward flux, heating' ELSE IF (itrc.eq.isalt) THEN Vinfo(11)='upward flux, freshening (net precipitation)' Vinfo(12)='downward flux, salting (net evaporation)' END IF Vinfo(14)=Vname(4,idTsur(itrc)) Vinfo(16)=Vname(1,idtime) Vinfo(21)=Vname(6,idTsur(itrc)) Vinfo(22)='coordinates' Aval(5)=REAL(Iinfo(1,idTsur(itrc),ng),r8) status=def_var(ng, model, HIS(ng)%ncid, & & HIS(ng)%Vid(idTsur(itrc)), NF_FOUT, & & nvd3, t2dgrd, Aval, Vinfo, ncname) IF (FoundError(exit_flag, NoError, 1631, MyFile)) RETURN END IF END DO ! ! Define latent heat flux. ! IF (Hout(idLhea,ng)) THEN Vinfo( 1)=Vname(1,idLhea) Vinfo( 2)=Vname(2,idLhea) Vinfo( 3)=Vname(3,idLhea) Vinfo(11)='upward flux, cooling' Vinfo(12)='downward flux, heating' Vinfo(14)=Vname(4,idLhea) Vinfo(16)=Vname(1,idtime) Vinfo(21)=Vname(6,idLhea) Vinfo(22)='coordinates' Aval(5)=REAL(Iinfo(1,idLhea,ng),r8) status=def_var(ng, model, HIS(ng)%ncid, HIS(ng)%Vid(idLhea), & & NF_FOUT, nvd3, t2dgrd, Aval, Vinfo, ncname) IF (FoundError(exit_flag, NoError, 1655, MyFile)) RETURN END IF ! ! Define sensible heat flux. ! IF (Hout(idShea,ng)) THEN Vinfo( 1)=Vname(1,idShea) Vinfo( 2)=Vname(2,idShea) Vinfo( 3)=Vname(3,idShea) Vinfo(11)='upward flux, cooling' Vinfo(12)='downward flux, heating' Vinfo(14)=Vname(4,idShea) Vinfo(16)=Vname(1,idtime) Vinfo(21)=Vname(6,idShea) Vinfo(22)='coordinates' Aval(5)=REAL(Iinfo(1,idShea,ng),r8) status=def_var(ng, model, HIS(ng)%ncid, HIS(ng)%Vid(idShea), & & NF_FOUT, nvd3, t2dgrd, Aval, Vinfo, ncname) IF (FoundError(exit_flag, NoError, 1676, MyFile)) RETURN END IF ! ! Define net longwave radiation flux. ! IF (Hout(idLrad,ng)) THEN Vinfo( 1)=Vname(1,idLrad) Vinfo( 2)=Vname(2,idLrad) Vinfo( 3)=Vname(3,idLrad) Vinfo(11)='upward flux, cooling' Vinfo(12)='downward flux, heating' Vinfo(14)=Vname(4,idLrad) Vinfo(16)=Vname(1,idtime) Vinfo(21)=Vname(6,idLrad) Vinfo(22)='coordinates' Aval(5)=REAL(Iinfo(1,idLrad,ng),r8) status=def_var(ng, model, HIS(ng)%ncid, HIS(ng)%Vid(idLrad), & & NF_FOUT, nvd3, t2dgrd, Aval, Vinfo, ncname) IF (FoundError(exit_flag, NoError, 1697, MyFile)) RETURN END IF ! ! Define atmospheric air temperature. ! IF (Hout(idTair,ng)) THEN Vinfo( 1)=Vname(1,idTair) Vinfo( 2)=Vname(2,idTair) Vinfo( 3)=Vname(3,idTair) Vinfo(14)=Vname(4,idTair) Vinfo(16)=Vname(1,idtime) Vinfo(21)=Vname(6,idTair) Vinfo(22)='coordinates' Aval(5)=REAL(Iinfo(1,idTair,ng),r8) status=def_var(ng, model, HIS(ng)%ncid, HIS(ng)%Vid(idTair), & & NF_FOUT, nvd3, t2dgrd, Aval, Vinfo, ncname) IF (FoundError(exit_flag, NoError, 1719, MyFile)) RETURN END IF ! ! Define evaporation rate. ! IF (Hout(idevap,ng)) THEN Vinfo( 1)=Vname(1,idevap) Vinfo( 2)=Vname(2,idevap) Vinfo( 3)=Vname(3,idevap) Vinfo(11)='downward flux, freshening (condensation)' Vinfo(12)='upward flux, salting (evaporation)' Vinfo(14)=Vname(4,idevap) Vinfo(16)=Vname(1,idtime) Vinfo(21)=Vname(6,idevap) Vinfo(22)='coordinates' Aval(5)=REAL(Iinfo(1,idevap,ng),r8) status=def_var(ng, model, HIS(ng)%ncid, HIS(ng)%Vid(idevap), & & NF_FOUT, nvd3, t2dgrd, Aval, Vinfo, ncname) IF (FoundError(exit_flag, NoError, 1742, MyFile)) RETURN END IF ! ! Define precipitation rate. ! IF (Hout(idrain,ng)) THEN Vinfo( 1)=Vname(1,idrain) Vinfo( 2)=Vname(2,idrain) Vinfo( 3)=Vname(3,idrain) Vinfo(11)='upward flux, salting (NOT POSSIBLE)' Vinfo(12)='downward flux, freshening (precipitation)' Vinfo(14)=Vname(4,idrain) Vinfo(16)=Vname(1,idtime) Vinfo(21)=Vname(6,idrain) Vinfo(22)='coordinates' Aval(5)=REAL(Iinfo(1,idrain,ng),r8) status=def_var(ng, model, HIS(ng)%ncid, HIS(ng)%Vid(idrain), & & NF_FOUT, nvd3, t2dgrd, Aval, Vinfo, ncname) IF (FoundError(exit_flag, NoError, 1763, MyFile)) RETURN END IF ! ! Define E-P flux. ! IF (Hout(idEmPf,ng)) THEN Vinfo( 1)=Vname(1,idEmPf) Vinfo( 2)=Vname(2,idEmPf) Vinfo( 3)=Vname(3,idEmPf) Vinfo(11)='upward flux, freshening (net precipitation)' Vinfo(12)='downward flux, salting (net evaporation)' Vinfo(14)=Vname(4,idEmPf) Vinfo(16)=Vname(1,idtime) Vinfo(21)=Vname(6,idEmPf) Vinfo(22)='coordinates' Aval(5)=REAL(Iinfo(1,idEmPf,ng),r8) status=def_var(ng, model, HIS(ng)%ncid, HIS(ng)%Vid(idEmPf), & & NF_FOUT, nvd3, t2dgrd, Aval, Vinfo, ncname) IF (FoundError(exit_flag, NoError, 1786, MyFile)) RETURN END IF ! ! Define net shortwave radiation flux. ! IF (Hout(idSrad,ng)) THEN Vinfo( 1)=Vname(1,idSrad) Vinfo( 2)=Vname(2,idSrad) Vinfo( 3)=Vname(3,idSrad) Vinfo(11)='upward flux, cooling' Vinfo(12)='downward flux, heating' Vinfo(14)=Vname(4,idSrad) Vinfo(16)=Vname(1,idtime) Vinfo(21)=Vname(6,idSrad) Vinfo(22)='coordinates' Aval(5)=REAL(Iinfo(1,idSrad,ng),r8) status=def_var(ng, model, HIS(ng)%ncid, HIS(ng)%Vid(idSrad), & & NF_FOUT, nvd3, t2dgrd, Aval, Vinfo, ncname) IF (FoundError(exit_flag, NoError, 1809, MyFile)) RETURN END IF ! ! Define surface U-momentum stress. ! IF (Hout(idUsms,ng)) THEN Vinfo( 1)=Vname(1,idUsms) Vinfo( 2)=Vname(2,idUsms) Vinfo( 3)=Vname(3,idUsms) Vinfo(14)=Vname(4,idUsms) Vinfo(16)=Vname(1,idtime) Vinfo(21)=Vname(6,idUsms) Vinfo(22)='coordinates' Aval(5)=REAL(Iinfo(1,idUsms,ng),r8) status=def_var(ng, model, HIS(ng)%ncid, HIS(ng)%Vid(idUsms), & & NF_FOUT, nvd3, u2dgrd, Aval, Vinfo, ncname) IF (FoundError(exit_flag, NoError, 1830, MyFile)) RETURN END IF ! ! Define surface V-momentum stress. ! IF (Hout(idVsms,ng)) THEN Vinfo( 1)=Vname(1,idVsms) Vinfo( 2)=Vname(2,idVsms) Vinfo( 3)=Vname(3,idVsms) Vinfo(14)=Vname(4,idVsms) Vinfo(16)=Vname(1,idtime) Vinfo(21)=Vname(6,idVsms) Vinfo(22)='coordinates' Aval(5)=REAL(Iinfo(1,idVsms,ng),r8) status=def_var(ng, model, HIS(ng)%ncid, HIS(ng)%Vid(idVsms), & & NF_FOUT, nvd3, v2dgrd, Aval, Vinfo, ncname) IF (FoundError(exit_flag, NoError, 1849, MyFile)) RETURN END IF ! ! Define bottom U-momentum stress. ! IF (Hout(idUbms,ng)) THEN Vinfo( 1)=Vname(1,idUbms) Vinfo( 2)=Vname(2,idUbms) Vinfo( 3)=Vname(3,idUbms) Vinfo(14)=Vname(4,idUbms) Vinfo(16)=Vname(1,idtime) Vinfo(21)=Vname(6,idUbms) Vinfo(22)='coordinates' Aval(5)=REAL(Iinfo(1,idUbms,ng),r8) status=def_var(ng, model, HIS(ng)%ncid, HIS(ng)%Vid(idUbms), & & NF_FOUT, nvd3, u2dgrd, Aval, Vinfo, ncname) IF (FoundError(exit_flag, NoError, 1868, MyFile)) RETURN END IF ! ! Define bottom V-momentum stress. ! IF (Hout(idVbms,ng)) THEN Vinfo( 1)=Vname(1,idVbms) Vinfo( 2)=Vname(2,idVbms) Vinfo( 3)=Vname(3,idVbms) Vinfo(14)=Vname(4,idVbms) Vinfo(16)=Vname(1,idtime) Vinfo(21)=Vname(6,idVbms) Vinfo(22)='coordinates' Aval(5)=REAL(Iinfo(1,idVbms,ng),r8) status=def_var(ng, model, HIS(ng)%ncid, HIS(ng)%Vid(idVbms), & & NF_FOUT, nvd3, v2dgrd, Aval, Vinfo, ncname) IF (FoundError(exit_flag, NoError, 1887, MyFile)) RETURN END IF ! !----------------------------------------------------------------------- ! Leave definition mode. !----------------------------------------------------------------------- ! CALL netcdf_enddef (ng, model, ncname, HIS(ng)%ncid) IF (FoundError(exit_flag, NoError, 1941, MyFile)) RETURN ! !----------------------------------------------------------------------- ! Write out time-recordless, information variables. !----------------------------------------------------------------------- ! CALL wrt_info (ng, model, HIS(ng)%ncid, ncname) IF (FoundError(exit_flag, NoError, 1948, MyFile)) RETURN END IF DEFINE ! !======================================================================= ! Open an existing history file, check its contents, and prepare for ! appending data. !======================================================================= ! QUERY : IF (.not.ldef) THEN ncname=HIS(ng)%name ! ! Open history file for read/write. ! CALL netcdf_open (ng, model, ncname, 1, HIS(ng)%ncid) IF (FoundError(exit_flag, NoError, 1963, MyFile)) THEN WRITE (stdout,60) TRIM(ncname) RETURN END IF ! ! Inquire about the dimensions and check for consistency. ! CALL netcdf_check_dim (ng, model, ncname, & & ncid = HIS(ng)%ncid) IF (FoundError(exit_flag, NoError, 1972, MyFile)) RETURN ! ! Inquire about the variables. ! CALL netcdf_inq_var (ng, model, ncname, & & ncid = HIS(ng)%ncid) IF (FoundError(exit_flag, NoError, 1978, MyFile)) RETURN ! ! Initialize logical switches. ! DO i=1,NV got_var(i)=.FALSE. END DO ! ! Scan variable list from input NetCDF and activate switches for ! history variables. Get variable IDs. ! DO i=1,n_var IF (TRIM(var_name(i)).eq.TRIM(Vname(1,idtime))) THEN got_var(idtime)=.TRUE. HIS(ng)%Vid(idtime)=var_id(i) ELSE IF (TRIM(var_name(i)).eq.TRIM(Vname(1,idpthR))) THEN got_var(idpthR)=.TRUE. HIS(ng)%Vid(idpthR)=var_id(i) ELSE IF (TRIM(var_name(i)).eq.TRIM(Vname(1,idpthU))) THEN got_var(idpthU)=.TRUE. HIS(ng)%Vid(idpthU)=var_id(i) ELSE IF (TRIM(var_name(i)).eq.TRIM(Vname(1,idpthV))) THEN got_var(idpthV)=.TRUE. HIS(ng)%Vid(idpthV)=var_id(i) ELSE IF (TRIM(var_name(i)).eq.TRIM(Vname(1,idpthW))) THEN got_var(idpthW)=.TRUE. HIS(ng)%Vid(idpthW)=var_id(i) ELSE IF (TRIM(var_name(i)).eq.TRIM(Vname(1,idFsur))) THEN got_var(idFsur)=.TRUE. HIS(ng)%Vid(idFsur)=var_id(i) ELSE IF (TRIM(var_name(i)).eq.TRIM(Vname(1,idUbar))) THEN got_var(idUbar)=.TRUE. HIS(ng)%Vid(idUbar)=var_id(i) ELSE IF (TRIM(var_name(i)).eq.TRIM(Vname(1,idVbar))) THEN got_var(idVbar)=.TRUE. HIS(ng)%Vid(idVbar)=var_id(i) ELSE IF (TRIM(var_name(i)).eq.TRIM(Vname(1,idu2dE))) THEN got_var(idu2dE)=.TRUE. HIS(ng)%Vid(idu2dE)=var_id(i) ELSE IF (TRIM(var_name(i)).eq.TRIM(Vname(1,idv2dN))) THEN got_var(idv2dN)=.TRUE. HIS(ng)%Vid(idv2dN)=var_id(i) ELSE IF (TRIM(var_name(i)).eq.TRIM(Vname(1,idUfx1))) THEN got_var(idUfx1)=.TRUE. HIS(ng)%Vid(idUfx1)=var_id(i) ELSE IF (TRIM(var_name(i)).eq.TRIM(Vname(1,idUfx2))) THEN got_var(idUfx2)=.TRUE. HIS(ng)%Vid(idUfx2)=var_id(i) ELSE IF (TRIM(var_name(i)).eq.TRIM(Vname(1,idVfx1))) THEN got_var(idVfx1)=.TRUE. HIS(ng)%Vid(idVfx1)=var_id(i) ELSE IF (TRIM(var_name(i)).eq.TRIM(Vname(1,idVfx2))) THEN got_var(idVfx2)=.TRUE. HIS(ng)%Vid(idVfx2)=var_id(i) ELSE IF (TRIM(var_name(i)).eq.TRIM(Vname(1,idUvel))) THEN got_var(idUvel)=.TRUE. HIS(ng)%Vid(idUvel)=var_id(i) ELSE IF (TRIM(var_name(i)).eq.TRIM(Vname(1,idVvel))) THEN got_var(idVvel)=.TRUE. HIS(ng)%Vid(idVvel)=var_id(i) ELSE IF (TRIM(var_name(i)).eq.TRIM(Vname(1,idu3dE))) THEN got_var(idu3dE)=.TRUE. HIS(ng)%Vid(idu3dE)=var_id(i) ELSE IF (TRIM(var_name(i)).eq.TRIM(Vname(1,idv3dN))) THEN got_var(idv3dN)=.TRUE. HIS(ng)%Vid(idv3dN)=var_id(i) ELSE IF (TRIM(var_name(i)).eq.TRIM(Vname(1,idWvel))) THEN got_var(idWvel)=.TRUE. HIS(ng)%Vid(idWvel)=var_id(i) ELSE IF (TRIM(var_name(i)).eq.TRIM(Vname(1,idOvel))) THEN got_var(idOvel)=.TRUE. HIS(ng)%Vid(idOvel)=var_id(i) ELSE IF (TRIM(var_name(i)).eq.TRIM(Vname(1,idDano))) THEN got_var(idDano)=.TRUE. HIS(ng)%Vid(idDano)=var_id(i) ELSE IF (TRIM(var_name(i)).eq.TRIM(Vname(1,idVvis))) THEN got_var(idVvis)=.TRUE. HIS(ng)%Vid(idVvis)=var_id(i) ELSE IF (TRIM(var_name(i)).eq.TRIM(Vname(1,idTdif))) THEN got_var(idTdif)=.TRUE. HIS(ng)%Vid(idTdif)=var_id(i) ELSE IF (TRIM(var_name(i)).eq.TRIM(Vname(1,idSdif))) THEN got_var(idSdif)=.TRUE. HIS(ng)%Vid(idSdif)=var_id(i) ELSE IF (TRIM(var_name(i)).eq.TRIM(Vname(1,idMtke))) THEN got_var(idMtke)=.TRUE. HIS(ng)%Vid(idMtke)=var_id(i) ELSE IF (TRIM(var_name(i)).eq.TRIM(Vname(1,idMtls))) THEN got_var(idMtls)=.TRUE. HIS(ng)%Vid(idMtls)=var_id(i) ELSE IF (TRIM(var_name(i)).eq.TRIM(Vname(1,idPair))) THEN got_var(idPair)=.TRUE. HIS(ng)%Vid(idPair)=var_id(i) ELSE IF (TRIM(var_name(i)).eq.TRIM(Vname(1,idUair))) THEN got_var(idUair)=.TRUE. HIS(ng)%Vid(idUair)=var_id(i) ELSE IF (TRIM(var_name(i)).eq.TRIM(Vname(1,idVair))) THEN got_var(idVair)=.TRUE. HIS(ng)%Vid(idVair)=var_id(i) ELSE IF (TRIM(var_name(i)).eq.TRIM(Vname(1,idUaiE))) THEN got_var(idUaiE)=.TRUE. HIS(ng)%Vid(idUaiE)=var_id(i) ELSE IF (TRIM(var_name(i)).eq.TRIM(Vname(1,idVaiN))) THEN got_var(idVaiN)=.TRUE. HIS(ng)%Vid(idVaiN)=var_id(i) ELSE IF (TRIM(var_name(i)).eq.TRIM(Vname(1,idLhea))) THEN got_var(idLhea)=.TRUE. HIS(ng)%Vid(idLhea)=var_id(i) ELSE IF (TRIM(var_name(i)).eq.TRIM(Vname(1,idShea))) THEN got_var(idShea)=.TRUE. HIS(ng)%Vid(idShea)=var_id(i) ELSE IF (TRIM(var_name(i)).eq.TRIM(Vname(1,idLrad))) THEN got_var(idLrad)=.TRUE. HIS(ng)%Vid(idLrad)=var_id(i) ELSE IF (TRIM(var_name(i)).eq.TRIM(Vname(1,idTair))) THEN got_var(idTair)=.TRUE. HIS(ng)%Vid(idTair)=var_id(i) ELSE IF (TRIM(var_name(i)).eq.TRIM(Vname(1,idevap))) THEN got_var(idevap)=.TRUE. HIS(ng)%Vid(idevap)=var_id(i) ELSE IF (TRIM(var_name(i)).eq.TRIM(Vname(1,idrain))) THEN got_var(idrain)=.TRUE. HIS(ng)%Vid(idrain)=var_id(i) ELSE IF (TRIM(var_name(i)).eq.TRIM(Vname(1,idEmPf))) THEN got_var(idEmPf)=.TRUE. HIS(ng)%Vid(idEmPf)=var_id(i) ELSE IF (TRIM(var_name(i)).eq.TRIM(Vname(1,idSrad))) THEN got_var(idSrad)=.TRUE. HIS(ng)%Vid(idSrad)=var_id(i) ELSE IF (TRIM(var_name(i)).eq.TRIM(Vname(1,idUsms))) THEN got_var(idUsms)=.TRUE. HIS(ng)%Vid(idUsms)=var_id(i) ELSE IF (TRIM(var_name(i)).eq.TRIM(Vname(1,idVsms))) THEN got_var(idVsms)=.TRUE. HIS(ng)%Vid(idVsms)=var_id(i) ELSE IF (TRIM(var_name(i)).eq.TRIM(Vname(1,idUbms))) THEN got_var(idUbms)=.TRUE. HIS(ng)%Vid(idUbms)=var_id(i) ELSE IF (TRIM(var_name(i)).eq.TRIM(Vname(1,idVbms))) THEN got_var(idVbms)=.TRUE. HIS(ng)%Vid(idVbms)=var_id(i) END IF DO itrc=1,NT(ng) IF (TRIM(var_name(i)).eq.TRIM(Vname(1,idTvar(itrc)))) THEN got_var(idTvar(itrc))=.TRUE. HIS(ng)%Tid(itrc)=var_id(i) END IF END DO DO itrc=1,NAT IF (TRIM(var_name(i)).eq.TRIM(Vname(1,idTsur(itrc)))) THEN got_var(idTsur(itrc))=.TRUE. HIS(ng)%Vid(idTsur(itrc))=var_id(i) END IF END DO END DO ! ! Check if history variables are available in input NetCDF file. ! IF (.not.got_var(idtime)) THEN IF (Master) WRITE (stdout,70) TRIM(Vname(1,idtime)), & & TRIM(ncname) exit_flag=3 RETURN END IF IF (.not.got_var(idpthR).and.Hout(idpthR,ng)) THEN IF (Master) WRITE (stdout,70) TRIM(Vname(1,idpthR)), & & TRIM(ncname) exit_flag=3 RETURN END IF IF (.not.got_var(idpthU).and.Hout(idpthU,ng)) THEN IF (Master) WRITE (stdout,70) TRIM(Vname(1,idpthU)), & & TRIM(ncname) exit_flag=3 RETURN END IF IF (.not.got_var(idpthV).and.Hout(idpthV,ng)) THEN IF (Master) WRITE (stdout,70) TRIM(Vname(1,idpthV)), & & TRIM(ncname) exit_flag=3 RETURN END IF IF (.not.got_var(idpthW).and.Hout(idpthW,ng)) THEN IF (Master) WRITE (stdout,70) TRIM(Vname(1,idpthW)), & & TRIM(ncname) exit_flag=3 RETURN END IF IF (.not.got_var(idFsur).and.Hout(idFsur,ng)) THEN IF (Master) WRITE (stdout,70) TRIM(Vname(1,idFsur)), & & TRIM(ncname) exit_flag=3 RETURN END IF IF (.not.got_var(idUbar).and.Hout(idUbar,ng)) THEN IF (Master) WRITE (stdout,70) TRIM(Vname(1,idUbar)), & & TRIM(ncname) exit_flag=3 RETURN END IF IF (.not.got_var(idVbar).and.Hout(idVbar,ng)) THEN IF (Master) WRITE (stdout,70) TRIM(Vname(1,idVbar)), & & TRIM(ncname) exit_flag=3 RETURN END IF IF (.not.got_var(idu2dE).and.Hout(idu2dE,ng)) THEN IF (Master) WRITE (stdout,70) TRIM(Vname(1,idu2dE)), & & TRIM(ncname) exit_flag=3 RETURN END IF IF (.not.got_var(idv2dN).and.Hout(idv2dN,ng)) THEN IF (Master) WRITE (stdout,70) TRIM(Vname(1,idv2dN)), & & TRIM(ncname) exit_flag=3 RETURN END IF IF (.not.got_var(idUfx1).and.Hout(idUfx1,ng)) THEN IF (Master) WRITE (stdout,70) TRIM(Vname(1,idUfx1)), & & TRIM(ncname) exit_flag=3 RETURN END IF IF (.not.got_var(idUfx2).and.Hout(idUfx2,ng)) THEN IF (Master) WRITE (stdout,70) TRIM(Vname(1,idUfx2)), & & TRIM(ncname) exit_flag=3 RETURN END IF IF (.not.got_var(idVfx1).and.Hout(idVfx1,ng)) THEN IF (Master) WRITE (stdout,70) TRIM(Vname(1,idVfx1)), & & TRIM(ncname) exit_flag=3 RETURN END IF IF (.not.got_var(idVfx2).and.Hout(idVfx2,ng)) THEN IF (Master) WRITE (stdout,70) TRIM(Vname(1,idVfx2)), & & TRIM(ncname) exit_flag=3 RETURN END IF IF (.not.got_var(idUvel).and.Hout(idUvel,ng)) THEN IF (Master) WRITE (stdout,70) TRIM(Vname(1,idUvel)), & & TRIM(ncname) exit_flag=3 RETURN END IF IF (.not.got_var(idVvel).and.Hout(idVvel,ng)) THEN IF (Master) WRITE (stdout,70) TRIM(Vname(1,idVvel)), & & TRIM(ncname) exit_flag=3 RETURN END IF IF (.not.got_var(idu3dE).and.Hout(idu3dE,ng)) THEN IF (Master) WRITE (stdout,70) TRIM(Vname(1,idu3dE)), & & TRIM(ncname) exit_flag=3 RETURN END IF IF (.not.got_var(idv3dN).and.Hout(idv3dN,ng)) THEN IF (Master) WRITE (stdout,70) TRIM(Vname(1,idv3dN)), & & TRIM(ncname) exit_flag=3 RETURN END IF IF (.not.got_var(idWvel).and.Hout(idWvel,ng)) THEN IF (Master) WRITE (stdout,70) TRIM(Vname(1,idWvel)), & & TRIM(ncname) exit_flag=3 RETURN END IF IF (.not.got_var(idOvel).and.Hout(idOvel,ng)) THEN IF (Master) WRITE (stdout,70) TRIM(Vname(1,idOvel)), & & TRIM(ncname) exit_flag=3 RETURN END IF IF (.not.got_var(idDano).and.Hout(idDano,ng)) THEN IF (Master) WRITE (stdout,70) TRIM(Vname(1,idDano)), & & TRIM(ncname) exit_flag=3 RETURN END IF IF (.not.got_var(idVvis).and.Hout(idVvis,ng)) THEN IF (Master) WRITE (stdout,70) TRIM(Vname(1,idVvis)), & & TRIM(ncname) exit_flag=3 RETURN END IF IF (.not.got_var(idTdif).and.Hout(idTdif,ng)) THEN IF (Master) WRITE (stdout,70) TRIM(Vname(1,idTdif)), & & TRIM(ncname) exit_flag=3 RETURN END IF IF (.not.got_var(idSdif).and.Hout(idSdif,ng)) THEN IF (Master) WRITE (stdout,70) TRIM(Vname(1,idSdif)), & & TRIM(ncname) exit_flag=3 RETURN END IF IF (.not.got_var(idMtke).and.Hout(idMtke,ng)) THEN IF (Master) WRITE (stdout,70) TRIM(Vname(1,idMtke)), & & TRIM(ncname) exit_flag=3 RETURN END IF IF (.not.got_var(idMtls).and.Hout(idMtls,ng)) THEN IF (Master) WRITE (stdout,70) TRIM(Vname(1,idMtls)), & & TRIM(ncname) exit_flag=3 RETURN END IF IF (.not.got_var(idPair).and.Hout(idPair,ng)) THEN IF (Master) WRITE (stdout,70) TRIM(Vname(1,idPair)), & & TRIM(ncname) exit_flag=3 RETURN END IF IF (.not.got_var(idUair).and.Hout(idUair,ng)) THEN IF (Master) WRITE (stdout,70) TRIM(Vname(1,idUair)), & & TRIM(ncname) exit_flag=3 RETURN END IF IF (.not.got_var(idVair).and.Hout(idVair,ng)) THEN IF (Master) WRITE (stdout,70) TRIM(Vname(1,idVair)), & & TRIM(ncname) exit_flag=3 RETURN END IF IF (.not.got_var(idUaiE).and.Hout(idUaiE,ng)) THEN IF (Master) WRITE (stdout,70) TRIM(Vname(1,idUaiE)), & & TRIM(ncname) exit_flag=3 RETURN END IF IF (.not.got_var(idVaiN).and.Hout(idVaiN,ng)) THEN IF (Master) WRITE (stdout,70) TRIM(Vname(1,idVaiN)), & & TRIM(ncname) exit_flag=3 RETURN END IF IF (.not.got_var(idLhea).and.Hout(idLhea,ng)) THEN IF (Master) WRITE (stdout,70) TRIM(Vname(1,idLhea)), & & TRIM(ncname) exit_flag=3 RETURN END IF IF (.not.got_var(idShea).and.Hout(idShea,ng)) THEN IF (Master) WRITE (stdout,70) TRIM(Vname(1,idShea)), & & TRIM(ncname) exit_flag=3 RETURN END IF IF (.not.got_var(idLrad).and.Hout(idLrad,ng)) THEN IF (Master) WRITE (stdout,70) TRIM(Vname(1,idLrad)), & & TRIM(ncname) exit_flag=3 RETURN END IF IF (.not.got_var(idTair).and.Hout(idTair,ng)) THEN IF (Master) WRITE (stdout,70) TRIM(Vname(1,idTair)), & & TRIM(ncname) exit_flag=3 RETURN END IF IF (.not.got_var(idevap).and.Hout(idevap,ng)) THEN IF (Master) WRITE (stdout,70) TRIM(Vname(1,idevap)), & & TRIM(ncname) exit_flag=3 RETURN END IF IF (.not.got_var(idrain).and.Hout(idrain,ng)) THEN IF (Master) WRITE (stdout,70) TRIM(Vname(1,idrain)), & & TRIM(ncname) exit_flag=3 RETURN END IF IF (.not.got_var(idEmPf).and.Hout(idEmPf,ng)) THEN IF (Master) WRITE (stdout,70) TRIM(Vname(1,idEmPf)), & & TRIM(ncname) exit_flag=3 RETURN END IF IF (.not.got_var(idSrad).and.Hout(idSrad,ng)) THEN IF (Master) WRITE (stdout,70) TRIM(Vname(1,idSrad)), & & TRIM(ncname) exit_flag=3 RETURN END IF IF (.not.got_var(idUsms).and.Hout(idUsms,ng)) THEN IF (Master) WRITE (stdout,70) TRIM(Vname(1,idUsms)), & & TRIM(ncname) exit_flag=3 RETURN END IF IF (.not.got_var(idVsms).and.Hout(idVsms,ng)) THEN IF (Master) WRITE (stdout,70) TRIM(Vname(1,idVsms)), & & TRIM(ncname) exit_flag=3 RETURN END IF IF (.not.got_var(idUbms).and.Hout(idUbms,ng)) THEN IF (Master) WRITE (stdout,70) TRIM(Vname(1,idUbms)), & & TRIM(ncname) exit_flag=3 RETURN END IF IF (.not.got_var(idVbms).and.Hout(idVbms,ng)) THEN IF (Master) WRITE (stdout,70) TRIM(Vname(1,idVbms)), & & TRIM(ncname) exit_flag=3 RETURN END IF DO itrc=1,NT(ng) IF (.not.got_var(idTvar(itrc)).and.Hout(idTvar(itrc),ng)) THEN IF (Master) WRITE (stdout,70) TRIM(Vname(1,idTvar(itrc))), & & TRIM(ncname) exit_flag=3 RETURN END IF END DO DO itrc=1,NAT IF (.not.got_var(idTsur(itrc)).and.Hout(idTsur(itrc),ng)) THEN IF (Master) WRITE (stdout,70) TRIM(Vname(1,idTsur(itrc))), & & TRIM(ncname) exit_flag=3 RETURN END IF END DO ! ! Set unlimited time record dimension to the appropriate value. ! IF (ndefHIS(ng).gt.0) THEN HIS(ng)%Rindex=((ntstart(ng)-1)- & & ndefHIS(ng)*((ntstart(ng)-1)/ndefHIS(ng)))/ & & nHIS(ng) ELSE HIS(ng)%Rindex=(ntstart(ng)-1)/nHIS(ng) END IF HIS(ng)%Rindex=MIN(HIS(ng)%Rindex,rec_size) END IF QUERY ! 10 FORMAT (2x,'DEF_HIS_NF90 - creating history file,',t56, & & 'Grid ',i2.2,': ',a) 20 FORMAT (2x,'DEF_HIS_NF90 - inquiring history file,',t56, & & 'Grid ',i2.2,': ',a) 30 FORMAT (/,' DEF_HIS_NF90 - unable to create history NetCDF', & & ' file: ',a) 40 FORMAT ('time dependent',1x,a) 50 FORMAT (1pe11.4,1x,'millimeter') 60 FORMAT (/,' DEF_HIS_NF90 - unable to open history NetCDF', & & ' file: ',a) 70 FORMAT (/,' DEF_HIS_NF90 - unable to find variable: ',a,2x, & & ' in history NetCDF file: ',a) ! RETURN END SUBROUTINE def_his_nf90 ! END MODULE def_his_mod