! !====================================================================== ! ROMS_AGRIF is a branch of ROMS developped at IRD and INRIA, in France ! The two other branches from UCLA (Shchepetkin et al) ! and Rutgers University (Arango et al) are under MIT/X style license. ! ROMS_AGRIF specific routines (nesting) are under CeCILL-C license. ! ! ROMS_AGRIF website : http://www.romsagrif.org !====================================================================== ! #include "cppdefs.h" #if defined DIAGNOSTICS_EK && defined AVERAGES ! !--------------------------------------------------------------- ! Write diagnostics fields at requested levels into diagnostics ! netCDF file. !--------------------------------------------------------------- ! subroutine wrt_diags_ek_avg implicit none integer ierr, record, lstr, lvar, lenstr & , start(2), count(2), ibuff(4), nf_fwrite, type #if defined MPI & !defined PARALLEL_FILES & !defined NC4PAR include 'mpif.h' integer status(MPI_STATUS_SIZE), blank #endif #include "param.h" #include "scalars.h" #include "ncscrum.h" #include "forces.h" #include "grid.h" #include "ocean2d.h" #include "ocean3d.h" #include "mixing.h" #include "diags_ek.h" #include "mpi_cpl.h" #ifdef SEDIMENT # include "sediment.h" #endif #ifdef BBL # include "bbl.h" #endif #ifdef SOLVE3D integer tile,itrc,i,j,k,ivar # ifdef SEDIMENT & , indxWrk # endif # include "work.h" #endif #include "netcdf.inc" #if defined MPI & !defined PARALLEL_FILES & !defined NC4PAR if (mynode.gt.0) then call MPI_Recv (blank, 1, MPI_INTEGER, mynode-1, & 1, MPI_COMM_WORLD, status, ierr) endif #endif ! #undef DEBUG ! ! ! Create/open diagnostic file; write grid arrays, if so needed. ! call def_diags_ek_avg (nciddiags_ek_avg, nrecdiags_ek_avg, ierr) if (ierr .ne. nf_noerr) goto 99 lstr=lenstr(diags_ekname_avg) ! !!! WARNING: Once time ! Set record within the file. !!! stepping has been ! !!! started, it is assumed if (iic.eq.0) nrecdiags_ek_avg=nrecdiags_ek_avg+1 !!! that global history if (nrpfdiags_ek_avg.eq.0) then !!! record index "nrecdiags_ek" record=nrecdiags_ek_avg !!! is advanced by main. else record=1+mod(nrecdiags_ek_avg-1, nrpfdiags_ek_avg) endif ! !--------------------------------------------------------------- ! Write out evolving model variables: !--------------------------------------------------------------- ! ! Time step number and record numbers. ! type=filetype_diags_ek_avg ! ibuff(1)=iic ibuff(2)=nrecrst ibuff(3)=nrechis ibuff(4)=nrecdiags_ek_avg start(1)=1 start(2)=record count(1)=4 count(2)=1 ierr=nf_put_vara_int (nciddiags_ek_avg, diags_ekTstep_avg, & start, count, ibuff) if (ierr .ne. nf_noerr) then write(stdout,1) 'time_step_avg', record, ierr & MYID goto 99 !--> ERROR endif ! ! Time ! ierr=nf_put_var1_FTYPE (nciddiags_ek_avg, diags_ekTime_avg, & record, timediags_ek_avg) if (ierr .ne. nf_noerr) then lvar=lenstr(vname(1,indxTime)) write(stdout,1) vname(1,indxTime)(1:lvar), record, ierr & MYID goto 99 !--> ERROR endif ! ! Time2 ! ierr=nf_put_var1_FTYPE (nciddiags_ek_avg, diags_ekTime2_avg, & record, time) if (ierr .ne. nf_noerr) then lvar=lenstr(vname(1,indxTime2)) write(stdout,1) vname(1,indxTime2)(1:lvar), record, ierr & MYID goto 99 !--> ERROR endif !--------------------------------------------------------------- ! Momentum diagnostic variables. !--------------------------------------------------------------- ! ! itrc = 1 if (wrtdiags_ek_avg(itrc)) then ivar=r2dvar ! ! indxekHadv ! work2d=ekHadv_avg(:,:) call fillvalue2d(work2d,nciddiags_ek_avg, & diags_ekHadv_avg(itrc), & indxekHadv+itrc-1, & record,ivar,type) ! ! indxekHdiff ! work2d=ekHdiff_avg(:,:) call fillvalue2d(work2d,nciddiags_ek_avg, & diags_ekHdiff_avg(itrc), & indxekHdiff+itrc-1, & record,ivar,type) ! ! indxekVadv ! work2d=ekVadv_avg(:,:) call fillvalue2d(work2d,nciddiags_ek_avg, & diags_ekVadv_avg(itrc), & indxekVadv+itrc-1, & record,ivar,type) ! ! indxekCor ! work2d=ekCor_avg(:,:) call fillvalue2d(work2d,nciddiags_ek_avg, & diags_ekCor_avg(itrc), & indxekCor+itrc-1, & record,ivar,type) ! ! indxekPrsgrd ! work2d=ekPrsgrd_avg(:,:) call fillvalue2d(work2d,nciddiags_ek_avg, & diags_ekPrsgrd_avg(itrc), & indxekPrsgrd+itrc-1, & record,ivar,type) ! ! indxekHmix ! work2d=ekHmix_avg(:,:) call fillvalue2d(work2d,nciddiags_ek_avg, & diags_ekHmix_avg(itrc), & indxekHmix+itrc-1, & record,ivar,type) ! ! indxekVmix ! work2d=ekVmix_avg(:,:) call fillvalue2d(work2d,nciddiags_ek_avg, & diags_ekVmix_avg(itrc), & indxekVmix+itrc-1, & record,ivar,type) ! ! indxekrate ! work2d=ekrate_avg(:,:) call fillvalue2d(work2d,nciddiags_ek_avg, & diags_ekrate_avg(itrc), & indxekrate+itrc-1, & record,ivar,type) ! ! ! indxekvol ! work2d=ekvol_avg(:,:) call fillvalue2d(work2d,nciddiags_ek_avg, & diags_ekvol_avg(itrc), & indxekvol+itrc-1, & record,ivar,type) ! ! ! indxekVmix2 ! work2d=ekVmix2_avg(:,:) call fillvalue2d(work2d,nciddiags_ek_avg, & diags_ekVmix2_avg(itrc), & indxekVmix2+itrc-1, & record,ivar,type) ! ! indxekWind ! work2d=ekWind_avg(:,:) call fillvalue2d(work2d,nciddiags_ek_avg, & diags_ekWind_avg(itrc), & indxekWind+itrc-1, & record,ivar,type) ! ! indxekDrag ! work2d=ekDrag_avg(:,:) call fillvalue2d(work2d,nciddiags_ek_avg, & diags_ekDrag_avg(itrc), & indxekDrag+itrc-1, & record,ivar,type) # if defined DIAGNOSTICS_BARO ! ! indxekBaro ! work2d=ekBaro_avg(:,:) call fillvalue2d(work2d,nciddiags_ek_avg, & diags_ekBaro_avg(itrc), & indxekBaro+itrc-1, & record,ivar,type) # endif # if defined M3FAST ! ! indxekfast ! work2d=ekfast_avg(:,:) call fillvalue2d(work2d,nciddiags_ek_avg, & diags_ekfast_avg(itrc), & indxekfast+itrc-1, & record,ivar,type) # endif # if defined DIAGNOSTICS_EK_MLD ! ! indxekHadv ! work2d=ekHadv_mld_avg(:,:) call fillvalue2d(work2d,nciddiags_ek_avg, & diags_ekHadv_mld_avg(itrc), & indxekHadv_mld+itrc-1, & record,ivar,type) ! ! indxekHdiff ! work2d=ekHdiff_mld_avg(:,:) call fillvalue2d(work2d,nciddiags_ek_avg, & diags_ekHdiff_mld_avg(itrc), & indxekHdiff_mld+itrc-1, & record,ivar,type) ! ! indxekVadv ! work2d=ekVadv_mld_avg(:,:) call fillvalue2d(work2d,nciddiags_ek_avg, & diags_ekVadv_mld_avg(itrc), & indxekVadv_mld+itrc-1, & record,ivar,type) ! ! indxekCor ! work2d=ekCor_mld_avg(:,:) call fillvalue2d(work2d,nciddiags_ek_avg, & diags_ekCor_mld_avg(itrc), & indxekCor_mld+itrc-1, & record,ivar,type) ! ! indxekPrsgrd ! work2d=ekPrsgrd_mld_avg(:,:) call fillvalue2d(work2d,nciddiags_ek_avg, & diags_ekPrsgrd_mld_avg(itrc), & indxekPrsgrd_mld+itrc-1, & record,ivar,type) ! ! indxekHmix ! work2d=ekHmix_mld_avg(:,:) call fillvalue2d(work2d,nciddiags_ek_avg, & diags_ekHmix_mld_avg(itrc), & indxekHmix_mld+itrc-1, & record,ivar,type) ! ! indxekVmix ! work2d=ekVmix_mld_avg(:,:) call fillvalue2d(work2d,nciddiags_ek_avg, & diags_ekVmix_mld_avg(itrc), & indxekVmix_mld+itrc-1, & record,ivar,type) ! ! indxekrate ! work2d=ekrate_mld_avg(:,:) call fillvalue2d(work2d,nciddiags_ek_avg, & diags_ekrate_mld_avg(itrc), & indxekrate_mld+itrc-1, & record,ivar,type) ! ! ! indxekvol ! work2d=ekvol_mld_avg(:,:) call fillvalue2d(work2d,nciddiags_ek_avg, & diags_ekvol_mld_avg(itrc), & indxekvol_mld+itrc-1, & record,ivar,type) ! ! ! indxekVmix2 ! work2d=ekVmix2_mld_avg(:,:) call fillvalue2d(work2d,nciddiags_ek_avg, & diags_ekVmix2_mld_avg(itrc), & indxekVmix2_mld+itrc-1, & record,ivar,type) # if defined DIAGNOSTICS_BARO ! ! indxekBaro ! work2d=ekBaro_mld_avg(:,:) call fillvalue2d(work2d,nciddiags_ek_avg, & diags_ekBaro_mld_avg(itrc), & indxekBaro_mld+itrc-1, & record,ivar,type) # endif # endif endif ! #ifdef DEBUG i=5 j=5 write(*,*) 'Write diag ek his at : i=' & ,i,' j=',j write(*,*) 'ekHadv_avg(i,j) ',ekHadv_avg(i,j) write(*,*) 'ekHdiff_avg(i,j) ',ekHdiff_avg(i,j) write(*,*) 'ekVadv_avg(i,j) ',ekVadv_avg(i,j) write(*,*) 'ekCor_avg(i,j) ',ekCor_avg(i,j) write(*,*) 'ekPrsgrd_avg(i,j) ',ekPrsgrd_avg(i,j) write(*,*) 'ekHmix_avg(i,j) ',ekHmix_avg(i,j) write(*,*) 'ekVmix_avg(i,j) ',ekVmix_avg(i,j) write(*,*) 'ekvol_avg(i,j) ',ekvol_avg(i,j) # if defined DIAGNOSTICS_BARO write(*,*) 'ekBaro_avg(i,j) ',ekBaro_avg(i,j) # endif # if defined M3FAST write(*,*) 'ekfast_avg(i,j) ',ekfast_avg(i,j) # endif write(*,*) 'ekrate_avg(i,j) ',ekrate_avg(i,j) write(*,*) 'SumUVhis_avg(i,j) = ',ekHadv_avg(i,j) & + ekVadv_avg(i,j) & + ekCor_avg(i,j) & + ekPrsgrd_avg(i,j) & + ekHmix_avg(i,j) & + ekVmix_avg(i,j) & + ekvol_avg(i,j) & - ekrate_avg(i,j) write(*,*) '-----------------------------------------' #endif /* DEBUG */ 1 format(/1x,'WRT_DIAGS_EK_AVG ERROR while writing variable ''', A, & ''' into diag file.', /11x, 'Time record:', & I6,3x,'netCDF error code',i4,3x,a,i4) goto 100 99 may_day_flag=3 100 continue ! !--------------------------------------------------------------- ! Synchronize netCDF file to disk to allow other processes ! to access data immediately after it is written. !--------------------------------------------------------------- ! #if defined MPI & !defined PARALLEL_FILES & !defined NC4PAR ierr=nf_close (nciddiags_ek_avg) if (nrpfdiags_ek_avg.gt.0 .and. record.ge.nrpfdiags_ek_avg) & nciddiags_ek_avg=-1 #else if (nrpfdiags_ek_avg.gt.0 .and. record.ge.nrpfdiags_ek_avg) then ierr=nf_close (nciddiags_ek_avg) nciddiags_ek_avg=-1 else ierr=nf_sync(nciddiags_ek_avg) endif #endif if (ierr .eq. nf_noerr) then MPI_master_only write(stdout,'(6x,A,2(A,I4,1x),A,I3)') & 'WRT_DIAGS_EK_AVG -- wrote', & ' diag fields into time record =', record, '/', & nrecdiags_ek_avg MYID else MPI_master_only write(stdout,'(/1x,2A/)') & 'WRT_DIAGS_EK_AVG ERROR: Cannot ', & 'synchronize/close diag netCDF file.' may_day_flag=3 endif #if defined MPI & !defined PARALLEL_FILES & !defined NC4PAR if (mynode .lt. NNODES-1) then call MPI_Send (blank, 1, MPI_INTEGER, mynode+1, & 1, MPI_COMM_WORLD, ierr) endif #endif return end #else subroutine wrt_diags_ek_avg_empty end #endif /* (DIAGNOSTICS_EK) */