! $Id: def_diags_vrt.F 1468 2014-02-10 12:58:35Z rblod $ ! !====================================================================== ! 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 !====================================================================== ! #ifndef AVRH # include "cppdefs.h" #endif #ifdef DIAGNOSTICS_VRT #ifndef AVRH subroutine def_diags_vrt (ncid, total_rec, ierr) #else subroutine def_diags_vrt_avg(ncid, total_rec, ierr) #endif ! !--------------------------------------------------------------- ! Create diag data NetCDF file: ! Define its variables, dimensions, and attributes !--------------------------------------------------------------- ! implicit none # include "param.h" # include "mixing.h" # include "ncscrum.h" # include "scalars.h" # include "strings.h" # include "diags_vrt.h" # include "netcdf.inc" #ifdef NC4PAR # include "mpi_cpl.h" include 'mpif.h' #endif logical create_new_file, res integer ncid, total_rec, ierr, rec, lstr,lvar,lenstr, timedim & , r2dgrd(3),u2dgrd(3),v2dgrd(3),auxil(2),checkdims #ifdef SOLVE3D & , r3dgrd(4), u3dgrd(4), v3dgrd(4), w3dgrd(4), itrc & , p2dgrd(3), p3dgrd(4), pw3dgrd(4) #endif #ifdef NC4PAR & , csize,cmode #endif character*60 text ! #ifndef AVRH # define ncname diags_vrtname # define rec_per_file nrpfdiags_vrt # define wrt wrtdiags_vrt # define vidTime diags_vrtTime # define vidTime2 diags_vrtTime2 # define vidTstep diags_vrtTstep # define viddiags_vrtXadv diags_vrtXadv # define viddiags_vrtYadv diags_vrtYadv # define viddiags_vrtHdiff diags_vrtHdiff # define viddiags_vrtCor diags_vrtCor # define viddiags_vrtPrsgrd diags_vrtPrsgrd # define viddiags_vrtHmix diags_vrtHmix # define viddiags_vrtVmix diags_vrtVmix # define viddiags_vrtrate diags_vrtrate # define viddiags_vrtVmix2 diags_vrtVmix2 # define viddiags_vrtWind diags_vrtWind # define viddiags_vrtDrag diags_vrtDrag # if defined DIAGNOSTICS_BARO # define viddiags_vrtBaro diags_vrtBaro # endif # if defined M3FAST # define viddiags_vrtfast diags_vrtfast # endif #else # define ncname diags_vrtname_avg # define rec_per_file nrpfdiags_vrt_avg # define wrt wrtdiags_vrt_avg # define vidTime diags_vrtTime_avg # define vidTime2 diags_vrtTime2_avg # define vidTstep diags_vrtTstep_avg # define viddiags_vrtXadv diags_vrtXadv_avg # define viddiags_vrtYadv diags_vrtYadv_avg # define viddiags_vrtHdiff diags_vrtHdiff_avg # define viddiags_vrtCor diags_vrtCor_avg # define viddiags_vrtPrsgrd diags_vrtPrsgrd_avg # define viddiags_vrtHmix diags_vrtHmix_avg # define viddiags_vrtVmix diags_vrtVmix_avg # define viddiags_vrtrate diags_vrtrate_avg # define viddiags_vrtVmix2 diags_vrtVmix2_avg # define viddiags_vrtWind diags_vrtWind_avg # define viddiags_vrtDrag diags_vrtDrag_avg # if defined DIAGNOSTICS_BARO # define viddiags_vrtBaro diags_vrtBaro_avg # endif # if defined M3FAST # define viddiags_vrtfast diags_vrtfast_avg # endif #endif ! if (may_day_flag.ne.0) return !--> EXIT ! ierr=0 lstr=lenstr(ncname) if (rec_per_file.gt.0) then lvar=total_rec-(1+mod(total_rec-1, rec_per_file)) call insert_time_index (ncname, lstr, lvar, ierr) if (ierr .ne. 0) goto 99 endif ! ! Create a new diagnostics data file. !------------------------------------- ! #ifdef DO_NOT_OVERWRITE if (lvar.eq.total_rec-1) then # ifndef AVRH create_new_file=ldefdiags_vrt # else create_new_file=ldefdiags_vrt_avg # endif else # ifndef AVRH create_new_file=.false. # else create_new_file=.false. # endif endif #else # ifndef AVRH create_new_file=ldefdiags_vrt # else create_new_file=ldefdiags_vrt_avg # endif #endif ! if (ncid.ne.-1) create_new_file=.false. #if defined MPI & !defined PARALLEL_FILES & !defined NC4PAR if (mynode.gt.0) create_new_file=.false. #endif ! 10 if (create_new_file) then lstr=lenstr(ncname) #ifndef NC4PAR ierr=nf_create(ncname(1:lstr),NF_CLOBBER,ncid) #else cmode = ior(nf_netcdf4,nf_classic_model) cmode = ior(cmode, nf_mpiio) csize=xi_rho*eta_rho/NNODES MPI_master_only write(stdout,*)'CREATE DIAG NC4 PARALLEL FILE' ierr=nf_create_par(ncname(1:lstr),cmode, & MPI_COMM_WORLD,MPI_INFO_NULL,ncid) #endif if (ierr.ne.nf_noerr) then write(stdout,11) ncname(1:lstr) may_day_flag=3 return !--> EXIT endif ! ! Put global attributes. ! --- ------ ----------- ! call put_global_atts (ncid, ierr) if (ierr.ne.nf_noerr) then write(stdout,11) ncname(1:lstr) may_day_flag=3 return !--> EXIT endif ! ! Define dimensions of staggered fields. ! ------ ---------- -- --------- ------- ! ierr=nf_def_dim (ncid, 'xi_rho', xi_rho, r2dgrd(1)) ierr=nf_def_dim (ncid, 'xi_u', xi_u, u2dgrd(1)) ierr=nf_def_dim (ncid, 'eta_rho', eta_rho, r2dgrd(2)) ierr=nf_def_dim (ncid, 'eta_v', eta_v, v2dgrd(2)) #ifdef SOLVE3D ierr=nf_def_dim (ncid, 's_rho', N, r3dgrd(3)) ierr=nf_def_dim (ncid, 's_w', N+1, w3dgrd(3)) #endif ierr=nf_def_dim (ncid, 'time', nf_unlimited, timedim) ierr=nf_def_dim (ncid, 'auxil', 4, auxil(1)) ! auxil(2)=timedim r2dgrd(3)=timedim ! Free surface u2dgrd(2)=r2dgrd(2) ! 2D UBAR-type u2dgrd(3)=timedim v2dgrd(1)=r2dgrd(1) ! 2D VBAR-type v2dgrd(3)=timedim p2dgrd(1)=u2dgrd(1) ! p2dgrd(2)=v2dgrd(2) ! 2D vort-type p2dgrd(3)=timedim #ifdef SOLVE3D r3dgrd(1)=r2dgrd(1) ! r3dgrd(2)=r2dgrd(2) ! 3D RHO-type r3dgrd(4)=timedim ! u3dgrd(1)=u2dgrd(1) ! u3dgrd(2)=r2dgrd(2) ! 3D U-type u3dgrd(3)=r3dgrd(3) ! u3dgrd(4)=timedim v3dgrd(1)=r2dgrd(1) ! v3dgrd(2)=v2dgrd(2) ! 3D V-type v3dgrd(3)=r3dgrd(3) ! v3dgrd(4)=timedim w3dgrd(1)=r2dgrd(1) ! w3dgrd(2)=r2dgrd(2) ! 3D W-type w3dgrd(4)=timedim ! p3dgrd(1)=u2dgrd(1) ! p3dgrd(2)=v2dgrd(2) ! 3D vort-type p3dgrd(3)=r2dgrd(3) ! p3dgrd(4)=timedim ! pw3dgrd(1)=u2dgrd(1) ! pw3dgrd(2)=v2dgrd(2) ! 3D vortW-type pw3dgrd(3)=w3dgrd(3) ! pw3dgrd(4)=timedim #endif ! ! ! Define running parameters : !-------------------------- ! ! Define variables (time step number and time record indices) ! and their attributes ! ierr=nf_def_var (ncid, 'time_step', nf_int, 2, auxil, & vidTstep) #ifdef NC4PAR ierr=nf_var_par_access(ncid,vidTstep,nf_collective) #endif ierr=nf_put_att_text (ncid, vidTstep, 'long_name', 48, & 'time step and record numbers from initialization') ! ! Time. ! lvar=lenstr(vname(1,indxTime)) ierr=nf_def_var (ncid, vname(1,indxTime)(1:lvar), & NF_DOUBLE, 1, timedim, vidTime) #ifdef NC4PAR ierr=nf_var_par_access(ncid,vidTime,nf_collective) #endif ! #ifndef AVRH lvar=lenstr(vname(2,indxTime)) ierr=nf_put_att_text (ncid, vidTime, 'long_name', & lvar, vname(2,indxTime)(1:lvar)) #else text='avg'/ /vname(2,indxTime) lvar=lenstr(text) ierr=nf_put_att_text (ncid, vidTime, 'long_name', & lvar, text(1:lvar)) #endif ! lvar=lenstr(vname(2,indxTime)) ierr=nf_put_att_text (ncid, vidTime, 'long_name', lvar, & vname(2,indxTime)(1:lvar)) ! lvar=lenstr(vname(3,indxTime)) ierr=nf_put_att_text (ncid, vidTime, 'units', lvar, & vname(3,indxTime)(1:lvar)) ! lvar=lenstr(vname(4,indxTime)) ierr=nf_put_att_text (ncid, vidTime, 'field', lvar, & vname(4,indxTime)(1:lvar)) call nf_add_attribute(ncid, vidTime, indxTime, 5, & NF_FOUT, ierr) ! ! Time2. ! lvar=lenstr(vname(1,indxTime2)) ierr=nf_def_var (ncid, vname(1,indxTime2)(1:lvar), & NF_DOUBLE, 1, timedim, vidTime2) #ifdef NC4PAR ierr=nf_var_par_access(ncid,vidTime2,nf_collective) #endif ! #ifndef AVRH lvar=lenstr(vname(2,indxTime2)) ierr=nf_put_att_text (ncid, vidTime2, 'long_name', & lvar, vname(2,indxTime)(1:lvar)) #else text='avg'/ /vname(2,indxTime2) lvar=lenstr(text) ierr=nf_put_att_text (ncid, vidTime2, 'long_name', & lvar, text(1:lvar)) #endif ! lvar=lenstr(vname(2,indxTime2)) ierr=nf_put_att_text (ncid, vidTime2, 'long_name', lvar, & vname(2,indxTime2)(1:lvar)) ! lvar=lenstr(vname(3,indxTime2)) ierr=nf_put_att_text (ncid, vidTime2, 'units', lvar, & vname(3,indxTime2)(1:lvar)) ! lvar=lenstr(vname(4,indxTime2)) ierr=nf_put_att_text (ncid, vidTime2, 'field', lvar, & vname(4,indxTime2)(1:lvar)) call nf_add_attribute(ncid, vidTime2, indxTime2, 5, & NF_FOUT, ierr) ! Momentum diagnostics variables. ! -------- ----------- -------- ! itrc=1 ! if (wrt(itrc)) then !------------------------------ ! ! indxvrtXadv ! lvar=lenstr(vname(1,indxvrtXadv+itrc-1)) ierr=nf_def_var (ncid, vname(1,indxvrtXadv+itrc-1)(1:lvar), & NF_FOUT, 3, p2dgrd, viddiags_vrtXadv(itrc)) #ifdef NC4PAR ierr=nf_var_par_access(ncid,viddiags_vrtXadv(itrc),nf_collective) #endif # ifdef AVRH text='averaged '/ /vname(2,indxvrtXadv+itrc-1) # else text=vname(2,indxvrtXadv+itrc-1) # endif lvar=lenstr(text) ierr=nf_put_att_text (ncid, viddiags_vrtXadv(itrc), 'long_name', & lvar, text(1:lvar)) lvar=lenstr(vname(3,indxvrtXadv+itrc-1)) ierr=nf_put_att_text (ncid, viddiags_vrtXadv(itrc), 'units', lvar, & vname(3,indxvrtXadv+itrc-1)(1:lvar)) lvar=lenstr(vname(4,indxvrtXadv+itrc-1)) ierr=nf_put_att_text (ncid,viddiags_vrtXadv(itrc), 'field', & lvar, vname(4,indxvrtXadv+itrc-1)(1:lvar)) call nf_add_attribute(ncid, viddiags_vrtXadv(itrc), & indxvrtXadv+itrc-1, 5, NF_FOUT, ierr) !------------------------------ ! ! indxvrtYadv ! lvar=lenstr(vname(1,indxvrtYadv+itrc-1)) ierr=nf_def_var (ncid, vname(1,indxvrtYadv+itrc-1)(1:lvar), & NF_FOUT, 3, p2dgrd, viddiags_vrtYadv(itrc)) #ifdef NC4PAR ierr=nf_var_par_access(ncid,viddiags_vrtYadv(itrc),nf_collective) #endif # ifdef AVRH text='averaged '/ /vname(2,indxvrtYadv+itrc-1) # else text=vname(2,indxvrtYadv+itrc-1) # endif lvar=lenstr(text) ierr=nf_put_att_text (ncid, viddiags_vrtYadv(itrc), 'long_name', & lvar, text(1:lvar)) lvar=lenstr(vname(3,indxvrtYadv+itrc-1)) ierr=nf_put_att_text (ncid, viddiags_vrtYadv(itrc), 'units', lvar, & vname(3,indxvrtYadv+itrc-1)(1:lvar)) lvar=lenstr(vname(4,indxvrtYadv+itrc-1)) ierr=nf_put_att_text (ncid,viddiags_vrtYadv(itrc), 'field', & lvar, vname(4,indxvrtYadv+itrc-1)(1:lvar)) call nf_add_attribute(ncid, viddiags_vrtYadv(itrc), & indxvrtYadv+itrc-1, 5, NF_FOUT, ierr) !------------------------------ ! ! indxvrtHdiff ! lvar=lenstr(vname(1,indxvrtHdiff+itrc-1)) ierr=nf_def_var (ncid, vname(1,indxvrtHdiff+itrc-1)(1:lvar), & NF_FOUT, 3, p2dgrd, viddiags_vrtHdiff(itrc)) #ifdef NC4PAR ierr=nf_var_par_access(ncid,viddiags_vrtHdiff(itrc),nf_collective) #endif # ifdef AVRH text='averaged '/ /vname(2,indxvrtHdiff+itrc-1) # else text=vname(2,indxvrtHdiff+itrc-1) # endif lvar=lenstr(text) ierr=nf_put_att_text (ncid, viddiags_vrtHdiff(itrc), 'long_name', & lvar, text(1:lvar)) lvar=lenstr(vname(3,indxvrtHdiff+itrc-1)) ierr=nf_put_att_text (ncid, viddiags_vrtHdiff(itrc), 'units', lvar, & vname(3,indxvrtHdiff+itrc-1)(1:lvar)) lvar=lenstr(vname(4,indxvrtHdiff+itrc-1)) ierr=nf_put_att_text (ncid,viddiags_vrtHdiff(itrc), 'field', & lvar, vname(4,indxvrtHdiff+itrc-1)(1:lvar)) call nf_add_attribute(ncid, viddiags_vrtHdiff(itrc), & indxvrtHdiff+itrc-1, 5,NF_FOUT, ierr) !------------------------------! ! indxvrtCor ! lvar=lenstr(vname(1,indxvrtCor+itrc-1)) ierr=nf_def_var (ncid, vname(1,indxvrtCor+itrc-1)(1:lvar), & NF_FOUT, 3, p2dgrd, viddiags_vrtCor(itrc)) #ifdef NC4PAR ierr=nf_var_par_access(ncid,viddiags_vrtCor(itrc),nf_collective) #endif # ifdef AVRH text='averaged '/ /vname(2,indxvrtCor+itrc-1) # else text=vname(2,indxvrtCor+itrc-1) # endif lvar=lenstr(text) ierr=nf_put_att_text (ncid, viddiags_vrtCor(itrc), 'long_name', & lvar, text(1:lvar)) lvar=lenstr(vname(3,indxvrtCor+itrc-1)) ierr=nf_put_att_text (ncid, viddiags_vrtCor(itrc), 'units', lvar, & vname(3,indxvrtCor+itrc-1)(1:lvar)) lvar=lenstr(vname(4,indxvrtCor+itrc-1)) ierr=nf_put_att_text (ncid,viddiags_vrtCor(itrc), 'field', & lvar, vname(4,indxvrtCor+itrc-1)(1:lvar)) call nf_add_attribute(ncid, viddiags_vrtCor(itrc), & indxvrtCor+itrc-1, 5, NF_FOUT, ierr) !------------------------------ ! ! indxvrtPrsgrd ! lvar=lenstr(vname(1,indxvrtPrsgrd+itrc-1)) ierr=nf_def_var (ncid, vname(1,indxvrtPrsgrd+itrc-1)(1:lvar), & NF_FOUT, 3, p2dgrd, viddiags_vrtPrsgrd(itrc)) #ifdef NC4PAR ierr=nf_var_par_access(ncid,viddiags_vrtPrsgrd(itrc),nf_collective) #endif # ifdef AVRH text='averaged '/ /vname(2,indxvrtPrsgrd+itrc-1) # else text=vname(2,indxvrtPrsgrd+itrc-1) # endif lvar=lenstr(text) ierr=nf_put_att_text (ncid, viddiags_vrtPrsgrd(itrc), 'long_name', & lvar, text(1:lvar)) lvar=lenstr(vname(3,indxvrtPrsgrd+itrc-1)) ierr=nf_put_att_text (ncid, viddiags_vrtPrsgrd(itrc), 'units', lvar, & vname(3,indxvrtPrsgrd+itrc-1)(1:lvar)) lvar=lenstr(vname(4,indxvrtPrsgrd+itrc-1)) ierr=nf_put_att_text (ncid,viddiags_vrtPrsgrd(itrc), 'field', & lvar, vname(4,indxvrtPrsgrd+itrc-1)(1:lvar)) call nf_add_attribute(ncid, viddiags_vrtPrsgrd(itrc), & indxvrtPrsgrd+itrc-1, 5,NF_FOUT, ierr) !------------------------------ ! ! indxvrtHmix ! lvar=lenstr(vname(1,indxvrtHmix+itrc-1)) ierr=nf_def_var (ncid, vname(1,indxvrtHmix+itrc-1)(1:lvar), & NF_FOUT, 3, p2dgrd, viddiags_vrtHmix(itrc)) #ifdef NC4PAR ierr=nf_var_par_access(ncid,viddiags_vrtHmix(itrc),nf_collective) #endif # ifdef AVRH text='averaged '/ /vname(2,indxvrtHmix+itrc-1) # else text=vname(2,indxvrtHmix+itrc-1) # endif lvar=lenstr(text) ierr=nf_put_att_text (ncid, viddiags_vrtHmix(itrc), 'long_name', & lvar, text(1:lvar)) lvar=lenstr(vname(3,indxvrtHmix+itrc-1)) ierr=nf_put_att_text (ncid, viddiags_vrtHmix(itrc), 'units', lvar, & vname(3,indxvrtHmix+itrc-1)(1:lvar)) lvar=lenstr(vname(4,indxvrtHmix+itrc-1)) ierr=nf_put_att_text (ncid,viddiags_vrtHmix(itrc), 'field', & lvar, vname(4,indxvrtHmix+itrc-1)(1:lvar)) call nf_add_attribute(ncid, viddiags_vrtHmix(itrc), & indxvrtHmix+itrc-1,5, NF_FOUT, ierr) !------------------------------ ! ! indxvrtVmix ! lvar=lenstr(vname(1,indxvrtVmix+itrc-1)) ierr=nf_def_var (ncid, vname(1,indxvrtVmix+itrc-1)(1:lvar), & NF_FOUT, 3, p2dgrd, viddiags_vrtVmix(itrc)) #ifdef NC4PAR ierr=nf_var_par_access(ncid,viddiags_vrtVmix(itrc),nf_collective) #endif # ifdef AVRH text='averaged '/ /vname(2,indxvrtVmix+itrc-1) # else text=vname(2,indxvrtVmix+itrc-1) # endif lvar=lenstr(text) ierr=nf_put_att_text (ncid, viddiags_vrtVmix(itrc), 'long_name', & lvar, text(1:lvar)) lvar=lenstr(vname(3,indxvrtVmix+itrc-1)) ierr=nf_put_att_text (ncid, viddiags_vrtVmix(itrc), 'units', lvar, & vname(3,indxvrtVmix+itrc-1)(1:lvar)) lvar=lenstr(vname(4,indxvrtVmix+itrc-1)) ierr=nf_put_att_text (ncid,viddiags_vrtVmix(itrc), 'field', & lvar, vname(4,indxvrtVmix+itrc-1)(1:lvar)) call nf_add_attribute(ncid, viddiags_vrtVmix(itrc), & indxvrtVmix+itrc-1, 5,NF_FOUT, ierr) !------------------------------ ! ! indxvrtrate ! lvar=lenstr(vname(1,indxvrtrate+itrc-1)) ierr=nf_def_var (ncid, vname(1,indxvrtrate+itrc-1)(1:lvar), & NF_FOUT, 3, p2dgrd, viddiags_vrtrate(itrc)) #ifdef NC4PAR ierr=nf_var_par_access(ncid,viddiags_vrtrate(itrc),nf_collective) #endif # ifdef AVRH text='averaged '/ /vname(2,indxvrtrate+itrc-1) # else text=vname(2,indxvrtrate+itrc-1) # endif lvar=lenstr(text) ierr=nf_put_att_text (ncid, viddiags_vrtrate(itrc), 'long_name', & lvar, text(1:lvar)) lvar=lenstr(vname(3,indxvrtrate+itrc-1)) ierr=nf_put_att_text (ncid, viddiags_vrtrate(itrc), 'units', lvar, & vname(3,indxvrtrate+itrc-1)(1:lvar)) lvar=lenstr(vname(4,indxvrtrate+itrc-1)) ierr=nf_put_att_text (ncid,viddiags_vrtrate(itrc), 'field', & lvar, vname(4,indxvrtrate+itrc-1)(1:lvar)) call nf_add_attribute(ncid, viddiags_vrtrate(itrc), & indxvrtrate+itrc-1, 5,NF_FOUT, ierr) !------------------------------ ! ! indxvrtVmix2 ! lvar=lenstr(vname(1,indxvrtVmix2+itrc-1)) ierr=nf_def_var (ncid, vname(1,indxvrtVmix2+itrc-1)(1:lvar), & NF_FOUT, 3, p2dgrd, viddiags_vrtVmix2(itrc)) #ifdef NC4PAR ierr=nf_var_par_access(ncid,viddiags_vrtVmix2(itrc),nf_collective) #endif # ifdef AVRH text='averaged '/ /vname(2,indxvrtVmix2+itrc-1) # else text=vname(2,indxvrtVmix2+itrc-1) # endif lvar=lenstr(text) ierr=nf_put_att_text (ncid, viddiags_vrtVmix2(itrc), 'long_name', & lvar, text(1:lvar)) lvar=lenstr(vname(3,indxvrtVmix2+itrc-1)) ierr=nf_put_att_text (ncid, viddiags_vrtVmix2(itrc), 'units', lvar, & vname(3,indxvrtVmix2+itrc-1)(1:lvar)) lvar=lenstr(vname(4,indxvrtVmix2+itrc-1)) ierr=nf_put_att_text (ncid, viddiags_vrtVmix2(itrc),'field', & lvar, vname(4,indxvrtVmix2+itrc-1)(1:lvar)) call nf_add_attribute(ncid, viddiags_vrtVmix2(itrc), & indxvrtVmix2+itrc-1, 5,NF_FOUT, ierr) ! !------------------------------ ! ! indxvrtWind ! lvar=lenstr(vname(1,indxvrtWind+itrc-1)) ierr=nf_def_var (ncid, vname(1,indxvrtWind+itrc-1)(1:lvar), & NF_FOUT, 3, p2dgrd, viddiags_vrtWind(itrc)) #ifdef NC4PAR ierr=nf_var_par_access(ncid,viddiags_vrtWind(itrc),nf_collective) #endif # ifdef AVRH text='averaged '/ /vname(2,indxvrtWind+itrc-1) # else text=vname(2,indxvrtWind+itrc-1) # endif lvar=lenstr(text) ierr=nf_put_att_text (ncid, viddiags_vrtWind(itrc), 'long_name', & lvar, text(1:lvar)) lvar=lenstr(vname(3,indxvrtWind+itrc-1)) ierr=nf_put_att_text (ncid, viddiags_vrtWind(itrc), 'units', lvar, & vname(3,indxvrtWind+itrc-1)(1:lvar)) lvar=lenstr(vname(4,indxvrtWind+itrc-1)) ierr=nf_put_att_text (ncid, viddiags_vrtWind(itrc),'field', & lvar, vname(4,indxvrtWind+itrc-1)(1:lvar)) call nf_add_attribute(ncid, viddiags_vrtWind(itrc), & indxvrtWind+itrc-1, 5,NF_FOUT, ierr) !------------------------------ ! ! indxvrtDrag ! lvar=lenstr(vname(1,indxvrtDrag+itrc-1)) ierr=nf_def_var (ncid, vname(1,indxvrtDrag+itrc-1)(1:lvar), & NF_FOUT, 3, p2dgrd, viddiags_vrtDrag(itrc)) #ifdef NC4PAR ierr=nf_var_par_access(ncid,viddiags_vrtDrag(itrc),nf_collective) #endif # ifdef AVRH text='averaged '/ /vname(2,indxvrtDrag+itrc-1) # else text=vname(2,indxvrtDrag+itrc-1) # endif lvar=lenstr(text) ierr=nf_put_att_text (ncid, viddiags_vrtDrag(itrc), 'long_name', & lvar, text(1:lvar)) lvar=lenstr(vname(3,indxvrtDrag+itrc-1)) ierr=nf_put_att_text (ncid, viddiags_vrtDrag(itrc), 'units', lvar, & vname(3,indxvrtDrag+itrc-1)(1:lvar)) lvar=lenstr(vname(4,indxvrtDrag+itrc-1)) ierr=nf_put_att_text (ncid, viddiags_vrtWind(itrc),'field', & lvar, vname(4,indxvrtDrag+itrc-1)(1:lvar)) call nf_add_attribute(ncid, viddiags_vrtWind(itrc), & indxvrtDrag+itrc-1, 5, NF_FOUT, ierr) endif # if defined DIAGNOSTICS_BARO !------------------------------ ! ! indxvrtBaro ! lvar=lenstr(vname(1,indxvrtBaro+itrc-1)) ierr=nf_def_var (ncid, vname(1,indxvrtBaro+itrc-1)(1:lvar), & NF_FOUT, 3, p2dgrd, viddiags_vrtBaro(itrc)) #ifdef NC4PAR ierr=nf_var_par_access(ncid,viddiags_vrtBaro(itrc),nf_collective) #endif # ifdef AVRH text='averaged '/ /vname(2,indxvrtBaro+itrc-1) # else text=vname(2,indxvrtBaro+itrc-1) # endif lvar=lenstr(text) ierr=nf_put_att_text (ncid, viddiags_vrtBaro(itrc), 'long_name', & lvar, text(1:lvar)) lvar=lenstr(vname(3,indxvrtBaro+itrc-1)) ierr=nf_put_att_text (ncid, viddiags_vrtBaro(itrc), 'units', lvar, & vname(3,indxvrtBaro+itrc-1)(1:lvar)) lvar=lenstr(vname(4,indxvrtBaro+itrc-1)) ierr=nf_put_att_text (ncid,viddiags_vrtBaro(itrc), 'field', & lvar, vname(4,indxvrtBaro+itrc-1)(1:lvar)) call nf_add_attribute(ncid, viddiags_vrtBaro(itrc), & indxvrtBaro+itrc-1, 5,NF_FOUT, ierr) # endif # if defined M3FAST !------------------------------ ! ! indxvrtfast ! lvar=lenstr(vname(1,indxvrtfast+itrc-1)) ierr=nf_def_var (ncid, vname(1,indxvrtfast+itrc-1)(1:lvar), & NF_FOUT, 3, p2dgrd, viddiags_vrtfast(itrc)) #ifdef NC4PAR ierr=nf_var_par_access(ncid,viddiags_vrtfast(itrc),nf_collective) #endif # ifdef AVRH text='averaged '/ /vname(2,indxvrtfast+itrc-1) # else text=vname(2,indxvrtfast+itrc-1) # endif lvar=lenstr(text) ierr=nf_put_att_text (ncid, viddiags_vrtfast(itrc), 'long_name', & lvar, text(1:lvar)) lvar=lenstr(vname(3,indxvrtfast+itrc-1)) ierr=nf_put_att_text (ncid, viddiags_vrtfast(itrc), 'units', lvar, & vname(3,indxvrtfast+itrc-1)(1:lvar)) lvar=lenstr(vname(4,indxvrtfast+itrc-1)) ierr=nf_put_att_text (ncid,viddiags_vrtfast(itrc), 'field', & lvar, vname(4,indxvrtfast+itrc-1)(1:lvar)) call nf_add_attribute(ncid, viddiags_vrtfast(itrc), & indxvrtfast+itrc-1, 5,NF_FOUT, ierr) # endif ! ! Leave definition mode. ! ----- ---------- ----- ! ierr=nf_enddef(ncid) MPI_master_only write(stdout,'(6x,4A,1x,A,i4)') #ifdef AVRH & 'DEF_DIAGS_VRT_AVG - Created ', #else & 'DEF_DIAGS_VRT - Created ', #endif /*AVRH*/ & 'new netCDF file ''', & ncname(1:lstr), '''.' & MYID ! ! Open an existing file and prepare for appending data. ! ==== == ======== ==== === ======= === ========= ===== ! Inquire about the dimensions and variables. Check for ! consistency with model dimensions. In the case when file ! is rejected (whether it cannot be opened, or something ! is wrong with its dimensions) create a new file.2 ! ! After that verify that all necessary variables are already ! defined there and find their netCDF IDs. ! elseif (ncid.eq.-1) then #ifndef NC4PAR ierr=nf_open (ncname(1:lstr), nf_write, ncid) #else MPI_master_only write(stdout,*) "Open file in parallel" ierr=nf_open_par (ncname(1:lstr), IOR(nf_write, nf_mpiio), & MPI_COMM_WORLD, MPI_INFO_NULL, ncid) #endif if (ierr.eq. nf_noerr) then ierr=checkdims (ncid, ncname, lstr, rec) if (ierr .eq. nf_noerr) then if (rec_per_file.eq.0) then ierr=rec+1 - total_rec else ierr=rec+1 - (1+mod(total_rec-1, rec_per_file)) endif if (ierr.gt.0) then MPI_master_only write( stdout, & '(/1x,A,I5,1x,A/8x,3A,I5,/8x,A,I5,1x,A/)' & ) 'WARNING: def_diags_vrt: Actual number of records', & rec, 'in netCDF file', '''', ncname(1:lstr), & ''' exceeds the record number from restart data', & rec+1-ierr,'/', total_rec,', restart is assumed.' rec=rec-ierr elseif (rec_per_file.eq.0) then total_rec=rec+1 ! <-- set to the next record #if defined MPI & !defined PARALLEL_FILES if (mynode.gt.0) total_rec=total_rec-1 #endif endif ierr=nf_noerr endif endif ! if (ierr. ne. nf_noerr) then #if defined MPI & !defined PARALLEL_FILES & !defined NC4PAR if (mynode.eq.0) then create_new_file=.true. goto 10 else write(stdout,'(/1x,4A,2x,A,I4/)') 'def_his/avg ERROR: ', & 'Cannot open file ''', ncname(1:lstr), '''.' & MYID goto 99 !--> ERROR endif #else create_new_file=.true. goto 10 #endif endif ! ! Find netCDF IDs of evolving model variables: ! ---- ------ --- -- -------- ----- ---------- ! ! Time step indices: ! ierr=nf_inq_varid (ncid, 'time_step', vidTstep) if (ierr .ne. nf_noerr) then write(stdout,1) 'time_step', ncname(1:lstr) goto 99 !--> ERROR endif #ifdef NC4PAR ierr=nf_var_par_access(ncid,vidTstep,nf_collective) #endif ! ! Time. ! lvar=lenstr(vname(1,indxTime)) ierr=nf_inq_varid (ncid,vname(1,indxTime)(1:lvar),vidTime) if (ierr .ne. nf_noerr) then write(stdout,1) vname(1,indxTime)(1:lvar), ncname(1:lstr) goto 99 !--> ERROR endif #ifdef NC4PAR ierr=nf_var_par_access(ncid,vidTime,nf_collective) #endif ! ! Time2. ! lvar=lenstr(vname(1,indxTime2)) ierr=nf_inq_varid (ncid,vname(1,indxTime2)(1:lvar),vidTime2) if (ierr .ne. nf_noerr) then write(stdout,1) vname(1,indxTime2)(1:lvar), ncname(1:lstr) goto 99 !--> ERROR endif #ifdef NC4PAR ierr=nf_var_par_access(ncid,vidTime2,nf_collective) #endif ! momentum flux diagnostics variables : ! -------- ---- ----------- ---------- ! ! itrc=1 if (wrt(itrc)) then ! ! indxvrtXadv ! lvar=lenstr(vname(1,indxvrtXadv+itrc-1)) ierr=nf_inq_varid (ncid, vname(1,indxvrtXadv+itrc-1)(1:lvar), & viddiags_vrtXadv(itrc)) if (ierr .ne. nf_noerr) then write(stdout,1) vname(1,indxvrtXadv+itrc-1)(1:lvar), & ncname(1:lstr) goto 99 !--> ERROR endif #ifdef NC4PAR ierr=nf_var_par_access(ncid,viddiags_vrtXadv(itrc), & nf_collective) #endif ! ! indxvrtYadv ! lvar=lenstr(vname(1,indxvrtYadv+itrc-1)) ierr=nf_inq_varid (ncid, vname(1,indxvrtYadv+itrc-1)(1:lvar), & viddiags_vrtYadv(itrc)) if (ierr .ne. nf_noerr) then write(stdout,1) vname(1,indxvrtYadv+itrc-1)(1:lvar), & ncname(1:lstr) goto 99 !--> ERROR endif #ifdef NC4PAR ierr=nf_var_par_access(ncid,viddiags_vrtYadv(itrc), & nf_collective) #endif ! ! indxvrtHdiff ! lvar=lenstr(vname(1,indxvrtHdiff+itrc-1)) ierr=nf_inq_varid (ncid, vname(1,indxvrtHdiff+itrc-1)(1:lvar), & viddiags_vrtHdiff(itrc)) if (ierr .ne. nf_noerr) then write(stdout,1) vname(1,indxvrtHdiff+itrc-1)(1:lvar), & ncname(1:lstr) goto 99 !--> ERROR endif #ifdef NC4PAR ierr=nf_var_par_access(ncid,viddiags_vrtHdiff(itrc), & nf_collective) #endif ! ! indxvrtCor ! lvar=lenstr(vname(1,indxvrtCor+itrc-1)) ierr=nf_inq_varid (ncid, vname(1,indxvrtCor+itrc-1)(1:lvar), & viddiags_vrtCor(itrc)) if (ierr .ne. nf_noerr) then write(stdout,1) vname(1,indxvrtCor+itrc-1)(1:lvar), & ncname(1:lstr) goto 99 !--> ERROR endif #ifdef NC4PAR ierr=nf_var_par_access(ncid,viddiags_vrtCor(itrc), & nf_collective) #endif ! ! indxvrtPrsgrd ! lvar=lenstr(vname(1,indxvrtPrsgrd+itrc-1)) ierr=nf_inq_varid (ncid, vname(1,indxvrtPrsgrd+itrc-1)(1:lvar), & viddiags_vrtPrsgrd(itrc)) if (ierr .ne. nf_noerr) then write(stdout,1) vname(1,indxvrtPrsgrd+itrc-1)(1:lvar), & ncname(1:lstr) goto 99 !--> ERROR endif #ifdef NC4PAR ierr=nf_var_par_access(ncid,viddiags_vrtPrsgrd(itrc), & nf_collective) #endif ! ! indxvrtHmix ! lvar=lenstr(vname(1,indxvrtHmix+itrc-1)) ierr=nf_inq_varid (ncid, vname(1,indxvrtHmix+itrc-1)(1:lvar), & viddiags_vrtHmix(itrc)) if (ierr .ne. nf_noerr) then write(stdout,1) vname(1,indxvrtHmix+itrc-1)(1:lvar), & ncname(1:lstr) goto 99 !--> ERROR endif #ifdef NC4PAR ierr=nf_var_par_access(ncid,viddiags_vrtHmix(itrc), & nf_collective) #endif ! ! indxvrtVmix ! lvar=lenstr(vname(1,indxvrtVmix+itrc-1)) ierr=nf_inq_varid (ncid, vname(1,indxvrtVmix+itrc-1)(1:lvar), & viddiags_vrtVmix(itrc)) if (ierr .ne. nf_noerr) then write(stdout,1) vname(1,indxvrtVmix+itrc-1)(1:lvar), & ncname(1:lstr) goto 99 !--> ERROR endif #ifdef NC4PAR ierr=nf_var_par_access(ncid,viddiags_vrtVmix(itrc), & nf_collective) #endif ! ! indxvrtrate ! lvar=lenstr(vname(1,indxvrtrate+itrc-1)) ierr=nf_inq_varid (ncid, vname(1,indxvrtrate+itrc-1)(1:lvar), & viddiags_vrtrate(itrc)) if (ierr .ne. nf_noerr) then write(stdout,1) vname(1,indxvrtrate+itrc-1)(1:lvar), & ncname(1:lstr) goto 99 !--> ERROR endif #ifdef NC4PAR ierr=nf_var_par_access(ncid,viddiags_vrtrate(itrc), & nf_collective) #endif ! ! indxvrtVmix2 ! lvar=lenstr(vname(1,indxvrtVmix2+itrc-1)) ierr=nf_inq_varid (ncid, vname(1,indxvrtVmix2+itrc-1)(1:lvar), & viddiags_vrtVmix2(itrc)) if (ierr .ne. nf_noerr) then write(stdout,1) vname(1,indxvrtVmix2+itrc-1)(1:lvar), & ncname(1:lstr) goto 99 !--> ERROR endif #ifdef NC4PAR ierr=nf_var_par_access(ncid,viddiags_vrtVmix2(itrc), & nf_collective) #endif ! ! indxvrtWind ! lvar=lenstr(vname(1,indxvrtWind+itrc-1)) ierr=nf_inq_varid (ncid, vname(1,indxvrtWind+itrc-1)(1:lvar), & viddiags_vrtWind(itrc)) if (ierr .ne. nf_noerr) then write(stdout,1) vname(1,indxvrtWind+itrc-1)(1:lvar), & ncname(1:lstr) goto 99 !--> ERROR endif #ifdef NC4PAR ierr=nf_var_par_access(ncid,viddiags_vrtWind(itrc), & nf_collective) #endif ! ! indxvrtDrag ! lvar=lenstr(vname(1,indxvrtDrag+itrc-1)) ierr=nf_inq_varid (ncid, vname(1,indxvrtDrag+itrc-1)(1:lvar), & viddiags_vrtDrag(itrc)) if (ierr .ne. nf_noerr) then write(stdout,1) vname(1,indxvrtDrag+itrc-1)(1:lvar), & ncname(1:lstr) goto 99 !--> ERROR endif #ifdef NC4PAR ierr=nf_var_par_access(ncid,viddiags_vrtDrag(itrc), & nf_collective) #endif # if defined DIAGNOSTICS_BARO ! ! indxvrtBaro ! lvar=lenstr(vname(1,indxvrtBaro+itrc-1)) ierr=nf_inq_varid (ncid, vname(1,indxvrtBaro+itrc-1)(1:lvar), & viddiags_vrtBaro(itrc)) if (ierr .ne. nf_noerr) then write(stdout,1) vname(1,indxvrtBaro+itrc-1)(1:lvar), & ncname(1:lstr) goto 99 !--> ERROR endif # ifdef NC4PAR ierr=nf_var_par_access(ncid,viddiags_vrtBaro(itrc), & nf_collective) # endif # endif # if defined M3FAST ! ! indxvrtfast ! lvar=lenstr(vname(1,indxvrtfast+itrc-1)) ierr=nf_inq_varid (ncid, vname(1,indxvrtfast+itrc-1)(1:lvar), & viddiags_vrtfast(itrc)) if (ierr .ne. nf_noerr) then write(stdout,1) vname(1,indxvrtfast+itrc-1)(1:lvar), & ncname(1:lstr) goto 99 !--> ERROR endif # ifdef NC4PAR ierr=nf_var_par_access(ncid,viddiags_vrtfast(itrc), & nf_collective) # endif # endif ! endif ! MPI_master_only write(*,'(6x,2A,i4,1x,A,i4)') & 'def_diags_vrt: -- Opened ', & 'existing file from record =', rec & MYID ! MPI_master_only write(*,'(6x,2A,i4,1x,A,i4)') & 'def_diags_vrt: -- Opened ', & 'existing file from record =', rec & MYID ! #if defined MPI & !defined PARALLEL_FILES & !defined NC4PAR else ierr=nf_open (ncname(1:lstr), nf_write, ncid) if (ierr .ne. nf_noerr) then MPI_master_only write(stdout,'(/1x,4A,2x,A,I4/)') & 'def_diags_vrt: ERROR: ', & 'Cannot open file ''', ncname(1:lstr), '''.' & MYID goto 99 !--> ERROR endif #endif ! endif !<-- create_new_file ! ierr=nf_set_fill (ncid, nf_nofill, lvar) if (ierr .ne. nf_noerr) then MPI_master_only write(*,'(6x,2A,i4,1x,A,i4)') & 'def_diags_vrt ERROR: Cannot ', & 'switch to ''nf_nofill'' more; netCDF error code =', ierr endif 1 format(/1x,'def_diags_vrt ERROR: Cannot find variable ''', & A, ''' in netCDF file ''', A, '''.'/) ! 11 format(/' def_diags_vrt - unable to create diag file: ',a) 20 format(/' def_diags_vrt - error while writing variable: ',a, & /,15x,'into diag file: ',a) ! 99 return end ! #undef ncname #undef rec_per_file #undef wrt #undef vidTime #undef vidTime2 #undef vidTstep ! #undef viddiags_vrtXadv #undef viddiags_vrtYadv #undef viddiags_vrtHdiff #undef viddiags_vrtCor #undef viddiags_vrtPrsgrd #undef viddiags_vrtHmix #undef viddiags_vrtVmix #undef viddiags_vrtrate #undef viddiags_vrtVmix2 #undef viddiags_vrtWind #undef viddiags_vrtDrag # if defined DIAGNOSTICS_BARO #undef viddiags_vrtBaro # endif # if defined M3FAST #undef viddiags_vrtfast # endif ! # ifdef AVERAGES # ifndef AVRH # define AVRH # include "def_diags_vrt.F" # endif # endif /* AVERAGES */ ! #else /*DIAGNOSTICS_VRT */ subroutine def_diags_vrt_empty() return end #endif /* DIAGNOSTICS_VRT */