! ! $Id: grilles_gcm_netcdf.F 1952 2014-01-28 13:05:47Z fairhead $ ! c c PROGRAM create_fausse_var C IMPLICIT NONE C C #include "dimensions.h" #include "paramet.h" #include "comconst.h" #include "comgeom.h" #include "comvert.h" real temp(iim+1,jjm+1) #include "netcdf.inc" c Attributs netcdf sortie character*64 fich_out integer*4 ncid_out,rcode_out integer*4 out_lonuid,out_lonvid,out_latuid,out_latvid integer*4 out_varid integer*4 out_lonudim,out_lonvdim integer*4 out_latudim,out_latvdim,out_dim(3) INTEGER longcles PARAMETER ( longcles = 20 ) REAL clesphy0( longcles ) integer start(4),count(4) integer status,i,j real rlatudeg(jjp1),rlatvdeg(jjm) real rlonudeg(iip1),rlonvdeg(iip1) real dlon1(iip1),dlon2(iip1),dlat1(jjp1),dlat2(jjp1) real acoslat,dxkm,dykm,resol(iip1,jjp1) #include "serre.h" #include "fxyprim.h" print*,'OK0' rad = 6400000 omeg = 7.272205e-05 g = 9.8 kappa = 0.285716 daysec = 86400 cpp = 1004.70885 preff = 101325. pa= 50000. c open(99,file='run.def',status='old',form='formatted') c CALL defrun_new( 99, .TRUE.,clesphy0 ) c close(99) CALL conf_gcm( 99, .TRUE. , clesphy0 ) CALL iniconst CALL inigeom print*,'OK1' do j=1,jjp1 rlatudeg(j)=rlatu(j)*180./pi enddo do j=1,jjm rlatvdeg(j)=rlatv(j)*180./pi enddo do i=1,iip1 rlonudeg(i)=rlonu(i)*180./pi + 360. rlonvdeg(i)=rlonv(i)*180./pi + 360. enddo print*,'OK2' c 2 ----- OUVERTURE DE LA SORTIE NETCDF c --------------------------------------------------- c CREATION OUTPUT c ouverture fichier netcdf de sortie out fich_out='grilles_gcm.nc' status=NF_CREATE(fich_out,NF_NOCLOBBER,ncid_out) status=NF_DEF_DIM(ncid_out,'lonu',iim+1,out_lonudim) status=NF_DEF_DIM(ncid_out,'lonv',iim+1,out_lonvdim) status=NF_DEF_DIM(ncid_out,'latu',jjm+1,out_latudim) status=NF_DEF_DIM(ncid_out,'latv',jjm,out_latvdim) print*,'OK3' c Longitudes en u print *,'OUTID: ',ncid_out status=NF_DEF_VAR(ncid_out,'lonu',NF_FLOAT,1,out_lonudim, % out_lonuid) call handle_err(status) status=NF_PUT_ATT_TEXT(ncid_out,out_lonuid,'units', % 12,'degrees_east') status=NF_PUT_ATT_TEXT(ncid_out,out_lonuid,'long_name', % 9,'Longitude en u') c Longitudes en v print *,'OUTID: ',ncid_out status=NF_DEF_VAR(ncid_out,'lonv',NF_FLOAT,1,out_lonvdim, % out_lonvid) call handle_err(status) status=NF_PUT_ATT_TEXT(ncid_out,out_lonvid,'units', % 12,'degrees_east') status=NF_PUT_ATT_TEXT(ncid_out,out_lonvid,'long_name', % 9,'Longitude en v') c Latitude en u status=NF_DEF_VAR(ncid_out,'latu',NF_FLOAT,1,out_latudim, % out_latuid) call handle_err(status) status=NF_PUT_ATT_TEXT(ncid_out,out_latuid,'units', % 13,'degrees_north') status=NF_PUT_ATT_TEXT(ncid_out,out_latuid,'long_name', % 8,'Latitude en u') c Latitude en v status=NF_DEF_VAR(ncid_out,'latv',NF_FLOAT,1,out_latvdim, % out_latvid) call handle_err(status) status=NF_PUT_ATT_TEXT(ncid_out,out_latvid,'units', % 13,'degrees_north') status=NF_PUT_ATT_TEXT(ncid_out,out_latvid,'long_name', % 8,'Latitude en v') c ecriture de la grille u out_dim(1)=out_lonudim out_dim(2)=out_latudim status=NF_DEF_VAR(ncid_out,'grille_u',NF_FLOAT,2,out_dim, % out_varid) call handle_err(status) status=NF_PUT_ATT_TEXT(ncid_out,out_varid,'units', % 6,'Kelvin') status=NF_PUT_ATT_TEXT(ncid_out,out_varid,'long_name', % 16,'Grille aux point u') c ecriture de la grille v out_dim(1)=out_lonvdim out_dim(2)=out_latvdim status=NF_DEF_VAR(ncid_out,'grille_v',NF_FLOAT,2,out_dim, % out_varid) call handle_err(status) status=NF_PUT_ATT_TEXT(ncid_out,out_varid,'units', % 6,'Kelvin') status=NF_PUT_ATT_TEXT(ncid_out,out_varid,'long_name', % 16,'Grille aux point v') c ecriture de la grille u out_dim(1)=out_lonvdim out_dim(2)=out_latudim status=NF_DEF_VAR(ncid_out,'grille_s',NF_FLOAT,2,out_dim, % out_varid) call handle_err(status) status=NF_PUT_ATT_TEXT(ncid_out,out_varid,'units', % 6,'Kelvin') status=NF_PUT_ATT_TEXT(ncid_out,out_varid,'long_name', % 16,'Grille aux point u') print*,'OK4' status=NF_ENDDEF(ncid_out) c 5) ----- FERMETURE DES FICHIERS NETCDF------------------ c -------------------------------------------------------- c 3-b- Ecriture de la grille pour la sortie c rajoute l'ecriture de la grille #ifdef NC_DOUBLE status=NF_PUT_VARA_DOUBLE(ncid_out,out_lonuid,1,iim+1,rlonudeg) status=NF_PUT_VARA_DOUBLE(ncid_out,out_lonvid,1,iim+1,rlonvdeg) status=NF_PUT_VARA_DOUBLE(ncid_out,out_latuid,1,jjm+1,rlatudeg) status=NF_PUT_VARA_DOUBLE(ncid_out,out_latvid,1,jjm,rlatvdeg) #else status=NF_PUT_VARA_REAL(ncid_out,out_lonuid,1,iim+1,rlonudeg) status=NF_PUT_VARA_REAL(ncid_out,out_lonvid,1,iim+1,rlonvdeg) status=NF_PUT_VARA_REAL(ncid_out,out_latuid,1,jjm+1,rlatudeg) status=NF_PUT_VARA_REAL(ncid_out,out_latvid,1,jjm,rlatvdeg) #endif start(1)=1 start(2)=1 start(3)=1 start(4)=1 count(1)=iim+1 count(2)=jjm+1 count(3)=1 count(4)=1 do j=1,jjm+1 do i=1,iim+1 temp(i,j)=mod(i,2)+mod(j,2) enddo enddo #ifdef NC_DOUBLE status=NF_PUT_VARA_DOUBLE(ncid_out,out_varid,start, s count,temp) #else status=NF_PUT_VARA_REAL(ncid_out,out_varid,start, s count,temp) #endif c fermeture du fichier netcdf call ncclos(ncid_out,rcode_out) write(*,*) 'Fermeture: ',fich_out print*,'OK5' c Ecriture grads open (20,file='grille.dat',form='unformatted',access='direct' s ,recl=4*ip1jmp1) write(20,rec=1) ((REAL(mod(i,2)+mod(j,2)),i=1,iip1),j=1,jjp1) write(20,rec=2) ((REAL(mod(i,2)*mod(j,2)),i=1,iip1),j=1,jjp1) do j=2,jjm dlat1(j)=180.*(rlatv(j)-rlatv(j-1))/pi c dlat2(j)=180.*fyprim(REAL(j))/pi enddo do i=2,iip1 dlon1(i)=180.*(rlonu(i)-rlonu(i-1))/pi c dlon2(i)=180.*fxprim(REAL(i))/pi enddo do j=2,jjm dykm=(rlatv(j)-rlatv(j-1))*6400. acoslat=6400.*cos(rlatu(j)) do i=2,iip1 dxkm=acoslat*(rlonu(i)-rlonu(i-1)) resol(i,j)=sqrt(dykm*dykm+dxkm*dxkm) enddo resol(1,j)=resol(iip1,j) enddo write(20,rec=3) resol dlon1(1)=dlon1(iip1) dlon2(1)=dlon2(iip1) write(20,rec=4) ((dlon1(i),i=1,iip1),j=1,jjp1) write(20,rec=5) ((dlon1(i)*pi/180.*0.001* s cos(rlatu(j))*rad,i=1,iip1),j=1,jjp1) write(20,rec=6) ((dlon2(i),i=1,iip1),j=1,jjp1) write(20,rec=7) ((dlat1(j),i=1,iip1),j=1,jjp1) write(20,rec=8) ((dlat1(j)*pi/180.*rad*0.001,i=1,iip1),j=1,jjp1) write(20,rec=9) ((dlat2(j),i=1,iip1),j=1,jjp1) print*,'I, LON, DX (km)' do i=1,iip1 print*,i,rlonu(i)*180./pi,dlon1(i)*pi/180.*0.001* s cos(clat*pi/180.)*rad enddo print*,'J, LAT, DY (km)' do j=1,jjp1 print*,j,rlatu(j)*180./pi,dlat1(j)*pi/180.*0.001*rad enddo open (21,file='grille.ctl',form='formatted') c WARNING! on reecrase le fichier .ctl a chaque ecriture write(21,'(a5,1x,a40)') & 'DSET ','^grille.dat' write(21,'(a12)') 'UNDEF 1.0E30' write(21,'(a5,1x,a40)') 'TITLE ','grille' call formcoord(21,iip1,rlonv,180./pi,.false.,'XDEF') call formcoord(21,jjp1,rlatu,180./pi,.true.,'YDEF') call formcoord(21,1,0.,1.,.false.,'ZDEF') write(21,'(a4,i10,a30)') & 'TDEF ',1,' LINEAR 23OCT1994 3hr ' write(21,'(a4,2x,i5)') 'VARS',9 write(21,'(a18)') 'grille 0 99 grille' write(21,'(a18)') 'gril 0 99 gril ' write(21,'(a29)') 'resol 0 99 resolution (km) ' write(21,'(a18)') 'dlon1 0 99 dlon1 ' write(21,'(a20)') 'dx 0 99 dx (km) ' write(21,'(a18)') 'dlon2 0 99 dlon2 ' write(21,'(a18)') 'dlat1 0 99 dlat1 ' write(21,'(a20)') 'dy 0 99 dy (km) ' write(21,'(a18)') 'dlat2 0 99 dlat2 ' write(21,'(a7)') 'ENDVARS' print*,'OK6' end subroutine handle_err(status) #include "netcdf.inc" integer status print *,'handle code err: ',NF_NOERR IF (status.NE.nf_noerr) THEN print *,NF_STRERROR(status) stop 'stopped' ENDIF END