c======================================================================= PROGRAM start2archive c======================================================================= c c c Date: 01/1997 c ---- c c c Objet: Passage des fichiers netcdf d'etat initial "start" et c ----- "startfi" a un fichier netcdf unique "start_archive" c c "start_archive" est une banque d'etats initiaux: c On peut stocker plusieurs etats initiaux dans un meme fichier "start_archive" c (Veiller dans ce cas avoir un day_ini different pour chacun des start) c c c c======================================================================= use infotrac, only: iniadvtrac, nqtot, tname USE comsoil_h USE comgeomfi_h, ONLY: lati, long, area ! use control_mod use comgeomphy, only: initcomgeomphy use slab_ice_h, only: noceanmx ! to use 'getin' USE ioipsl_getincom USE planete_mod implicit none #include "dimensions.h" integer, parameter :: ngridmx = (2+(jjm-1)*iim - 1/jjm) #include "paramet.h" #include "comconst.h" #include "comdissip.h" #include "comvert.h" #include "comgeom.h" #include "logic.h" #include "temps.h" !#include "control.h" #include "ener.h" !#include "dimphys.h" !#include "planete.h" !#include"advtrac.h" #include "netcdf.inc" #include "callkeys.h" c----------------------------------------------------------------------- c Declarations c----------------------------------------------------------------------- c variables dynamiques du GCM c ----------------------------- REAL vcov(ip1jm,llm),ucov(ip1jmp1,llm) ! vents covariants REAL teta(ip1jmp1,llm) ! temperature potentielle REAL,ALLOCATABLE :: q(:,:,:) ! champs advectes REAL pks(ip1jmp1) ! exner (f pour filtre) REAL pk(ip1jmp1,llm) REAL pkf(ip1jmp1,llm) REAL beta(iip1,jjp1,llm) REAL phis(ip1jmp1) ! geopotentiel au sol REAL masse(ip1jmp1,llm) ! masse de l'atmosphere REAL ps(ip1jmp1) ! pression au sol REAL p3d(iip1, jjp1, llm+1) ! pression aux interfaces c Variable Physiques (grille physique) c ------------------------------------ REAL tsurf(ngridmx) ! Surface temperature REAL tsoil(ngridmx,nsoilmx) ! Soil temperature REAL co2ice(ngridmx) ! CO2 ice layer REAL q2(ngridmx,llm+1) REAL,ALLOCATABLE :: qsurf(:,:) REAL emis(ngridmx) INTEGER start,length PARAMETER (length = 100) REAL tab_cntrl_fi(length) ! tableau des parametres de startfi REAL tab_cntrl_dyn(length) ! tableau des parametres de start INTEGER*4 day_ini_fi ! added by FF for cloud fraction setup REAL hice(ngridmx) REAL cloudfrac(ngridmx,llm),totalcloudfrac(ngridmx) ! added by BC for slab ocean REAL rnat(ngridmx),pctsrf_sic(ngridmx),sea_ice(ngridmx) REAL tslab(ngridmx,noceanmx),tsea_ice(ngridmx) c Variable naturelle / grille scalaire c ------------------------------------ REAL T(ip1jmp1,llm),us(ip1jmp1,llm),vs(ip1jmp1,llm) REAL tsurfS(ip1jmp1) REAL tsoilS(ip1jmp1,nsoilmx) REAL ithS(ip1jmp1,nsoilmx) ! Soil Thermal Inertia REAL co2iceS(ip1jmp1) REAL q2S(ip1jmp1,llm+1) REAL,ALLOCATABLE :: qsurfS(:,:) REAL emisS(ip1jmp1) ! added by FF for cloud fraction setup REAL hiceS(ip1jmp1) REAL cloudfracS(ip1jmp1,llm),totalcloudfracS(ip1jmp1) ! added by BC for slab ocean REAL rnatS(ip1jmp1),pctsrf_sicS(ip1jmp1),sea_iceS(ip1jmp1) REAL tslabS(ip1jmp1,noceanmx),tsea_iceS(ip1jmp1) c Variables intermediaires : vent naturel, mais pas coord scalaire c---------------------------------------------------------------- REAL vn(ip1jm,llm),un(ip1jmp1,llm) c Autres variables c ----------------- LOGICAL startdrs INTEGER Lmodif REAL ptotal, co2icetotal REAL timedyn,timefi !fraction du jour dans start, startfi REAL date CHARACTER*2 str2 CHARACTER*80 fichier data fichier /'startfi'/ INTEGER ij, l,i,j,isoil,iq character*80 fichnom integer :: ierr,ntime integer :: nq,numvanle character(len=30) :: txt ! to store some text c Netcdf c------- integer varid,dimid,timelen INTEGER nid,nid1 c----------------------------------------------------------------------- c Initialisations c----------------------------------------------------------------------- CALL defrun_new(99, .TRUE. ) grireg = .TRUE. ! initialize "serial/parallel" related stuff CALL init_phys_lmdz(iim,jjp1,llm,1,(/(jjm-1)*iim+2/)) call initcomgeomphy ! ALLOCATE ARRAYS IN comgeomfi_h (usually done in inifis) ! this must be here for start2archive to work IF (.not. ALLOCATED(lati)) ALLOCATE(lati(ngridmx)) IF (.not. ALLOCATED(long)) ALLOCATE(long(ngridmx)) IF (.not. ALLOCATED(area)) ALLOCATE(area(ngridmx)) c======================================================================= c Lecture des donnees c======================================================================= ! Load tracer number and names: call iniadvtrac(nqtot,numvanle) ! allocate arrays: allocate(q(ip1jmp1,llm,nqtot)) allocate(qsurf(ngridmx,nqtot)) allocate(qsurfS(ip1jmp1,nqtot)) ! other array allocations: call ini_comsoil_h(ngridmx) fichnom = 'start.nc' CALL dynetat0(fichnom,nqtot,vcov,ucov,teta,q,masse, . ps,phis,timedyn) ! load 'controle' array from dynamics start file ierr = NF_OPEN (fichnom, NF_NOWRITE,nid1) IF (ierr.NE.NF_NOERR) THEN write(6,*)' Pb d''ouverture du fichier'//trim(fichnom) CALL ABORT ENDIF ierr = NF_INQ_VARID (nid1, "controle", varid) IF (ierr .NE. NF_NOERR) THEN PRINT*, "start2archive: Le champ est absent" CALL abort ENDIF #ifdef NC_DOUBLE ierr = NF_GET_VAR_DOUBLE(nid1, varid, tab_cntrl_dyn) #else ierr = NF_GET_VAR_REAL(nid1, varid, tab_cntrl_dyn) #endif IF (ierr .NE. NF_NOERR) THEN PRINT*, "start2archive: Lecture echoue pour " CALL abort ENDIF ierr = NF_CLOSE(nid1) fichnom = 'startfi.nc' Lmodif=0 CALL phyetat0 (ngridmx,llm,fichnom,0,Lmodif,nsoilmx,nqtot, . day_ini_fi,timefi, . tsurf,tsoil,emis,q2,qsurf, ! change FF 05/2011 . cloudfrac,totalcloudfrac,hice, ! change BC 05/2014 . rnat,pctsrf_sic,tslab,tsea_ice,sea_ice) ! load 'controle' array from physics start file ierr = NF_OPEN (fichnom, NF_NOWRITE,nid1) IF (ierr.NE.NF_NOERR) THEN write(6,*)' Pb d''ouverture du fichier'//trim(fichnom) CALL ABORT ENDIF ierr = NF_INQ_VARID (nid1, "controle", varid) IF (ierr .NE. NF_NOERR) THEN PRINT*, "start2archive: Le champ est absent" CALL abort ENDIF #ifdef NC_DOUBLE ierr = NF_GET_VAR_DOUBLE(nid1, varid, tab_cntrl_fi) #else ierr = NF_GET_VAR_REAL(nid1, varid, tab_cntrl_fi) #endif IF (ierr .NE. NF_NOERR) THEN PRINT*, "start2archive: Lecture echoue pour " CALL abort ENDIF ierr = NF_CLOSE(nid1) c----------------------------------------------------------------------- c Controle de la synchro c----------------------------------------------------------------------- !mars a voir if ((day_ini_fi.ne.day_ini).or.(abs(timefi-timedyn).gt.1.e-10)) if ((day_ini_fi.ne.day_ini)) & stop ' Probleme de Synchro entre start et startfi !!!' c ***************************************************************** c Option : Reinitialisation des dates dans la premieres annees : do while (day_ini.ge.year_day) day_ini=day_ini-year_day enddo c ***************************************************************** c----------------------------------------------------------------------- c Initialisations c----------------------------------------------------------------------- CALL defrun_new(99, .FALSE. ) call iniconst call inigeom call inifilr CALL pression(ip1jmp1, ap, bp, ps, p3d) call exner_hyb(ip1jmp1, ps, p3d, beta, pks, pk, pkf) c======================================================================= c Transformation EN VARIABLE NATURELLE / GRILLE SCALAIRE si necessaire c======================================================================= c Les variables modeles dependent de la resolution. Il faut donc c eliminer les facteurs responsables de cette dependance c (pour utiliser newstart) c======================================================================= c----------------------------------------------------------------------- c Vent (depend de la resolution horizontale) c----------------------------------------------------------------------- c c ucov --> un et vcov --> vn c un --> us et vn --> vs c c----------------------------------------------------------------------- call covnat(llm,ucov, vcov, un, vn) call wind_scal(un,vn,us,vs) c----------------------------------------------------------------------- c Temperature (depend de la resolution verticale => de "sigma.def") c----------------------------------------------------------------------- c c h --> T c c----------------------------------------------------------------------- DO l=1,llm DO ij=1,ip1jmp1 T(ij,l)=teta(ij,l)*pk(ij,l)/cpp !mars deduit de l'equation dans newstart ENDDO ENDDO c----------------------------------------------------------------------- c Variable physique c----------------------------------------------------------------------- c c tsurf --> tsurfS c co2ice --> co2iceS c tsoil --> tsoilS c emis --> emisS c q2 --> q2S c qsurf --> qsurfS c c----------------------------------------------------------------------- call gr_fi_dyn(1,ngridmx,iip1,jjp1,tsurf,tsurfS) ! call gr_fi_dyn(1,ngridmx,iip1,jjp1,co2ice,co2iceS) call gr_fi_dyn(nsoilmx,ngridmx,iip1,jjp1,tsoil,tsoilS) ! Note: thermal inertia "inertiedat" is in comsoil.h call gr_fi_dyn(nsoilmx,ngridmx,iip1,jjp1,inertiedat,ithS) call gr_fi_dyn(1,ngridmx,iip1,jjp1,emis,emisS) call gr_fi_dyn(llm+1,ngridmx,iip1,jjp1,q2,q2S) call gr_fi_dyn(nqtot,ngridmx,iip1,jjp1,qsurf,qsurfS) call gr_fi_dyn(llm,ngridmx,iip1,jjp1,cloudfrac,cloudfracS) call gr_fi_dyn(1,ngridmx,iip1,jjp1,hice,hiceS) call gr_fi_dyn(1,ngridmx,iip1,jjp1,totalcloudfrac,totalcloudfracS) call gr_fi_dyn(1,ngridmx,iip1,jjp1,rnat,rnatS) call gr_fi_dyn(1,ngridmx,iip1,jjp1,pctsrf_sic,pctsrf_sicS) call gr_fi_dyn(1,ngridmx,iip1,jjp1,tsea_ice,tsea_iceS) call gr_fi_dyn(1,ngridmx,iip1,jjp1,sea_ice,sea_iceS) call gr_fi_dyn(noceanmx,ngridmx,iip1,jjp1,tslab,tslabS) c======================================================================= c Info pour controler c======================================================================= ptotal = 0. co2icetotal = 0. DO j=1,jjp1 DO i=1,iim ptotal=ptotal+aire(i+(iim+1)*(j-1))*ps(i+(iim+1)*(j-1))/g ! co2icetotal = co2icetotal + ! & co2iceS(i+(iim+1)*(j-1))*aire(i+(iim+1)*(j-1)) ENDDO ENDDO write(*,*)'Ancienne grille : masse de l''atm :',ptotal ! write(*,*)'Ancienne grille : masse de la glace CO2 :',co2icetotal c----------------------------------------------------------------------- c Passage de "ptotal" et "co2icetotal" par tab_cntrl_fi c----------------------------------------------------------------------- tab_cntrl_fi(49) = ptotal tab_cntrl_fi(50) = co2icetotal c======================================================================= c Ecriture dans le fichier "start_archive" c======================================================================= c----------------------------------------------------------------------- c Ouverture de "start_archive" c----------------------------------------------------------------------- ierr = NF_OPEN ('start_archive.nc', NF_WRITE,nid) c----------------------------------------------------------------------- c si "start_archive" n'existe pas: c 1_ ouverture c 2_ creation de l'entete dynamique ("ini_archive") c----------------------------------------------------------------------- c ini_archive: c On met dans l'entete le tab_cntrl dynamique (1 a 16) c On y ajoute les valeurs du tab_cntrl_fi (a partir de 51) c En plus les deux valeurs ptotal et co2icetotal (99 et 100) c----------------------------------------------------------------------- if (ierr.ne.NF_NOERR) then write(*,*)'OK, Could not open file "start_archive.nc"' write(*,*)'So let s create a new "start_archive"' ierr = NF_CREATE('start_archive.nc', NF_CLOBBER, nid) call ini_archive(nid,day_ini,phis,ithS,tab_cntrl_fi, & tab_cntrl_dyn) endif c----------------------------------------------------------------------- c Ecriture de la coordonnee temps (date en jours) c----------------------------------------------------------------------- date = day_ini ierr= NF_INQ_VARID(nid,"Time",varid) ierr= NF_INQ_DIMID(nid,"Time",dimid) ierr= NF_INQ_DIMLEN(nid,dimid,timelen) ntime=timelen+1 write(*,*) "******************" write(*,*) "ntime",ntime write(*,*) "******************" #ifdef NC_DOUBLE ierr= NF_PUT_VARA_DOUBLE(nid,varid,ntime,1,date) #else ierr= NF_PUT_VARA_REAL(nid,varid,ntime,1,date) #endif if (ierr.ne.NF_NOERR) then write(*,*) "time matter ",NF_STRERROR(ierr) stop endif c----------------------------------------------------------------------- c Ecriture des champs (co2ice,emis,ps,Tsurf,T,u,v,q2,q,qsurf) c----------------------------------------------------------------------- c ATTENTION: q2 a une couche de plus!!!! c Pour creer un fichier netcdf lisible par grads, c On passe donc une des couches de q2 a part c comme une variable 2D (la couche au sol: "q2surf") c Les lmm autres couches sont nommees "q2atm" (3D) c----------------------------------------------------------------------- ! call write_archive(nid,ntime,'co2ice','couche de glace co2', ! & 'kg/m2',2,co2iceS) call write_archive(nid,ntime,'emis','grd emis',' ',2,emisS) call write_archive(nid,ntime,'ps','Psurf','Pa',2,ps) call write_archive(nid,ntime,'tsurf','surf T','K',2,tsurfS) call write_archive(nid,ntime,'temp','temperature','K',3,t) call write_archive(nid,ntime,'u','Vent zonal','m.s-1',3,us) call write_archive(nid,ntime,'v','Vent merid','m.s-1',3,vs) call write_archive(nid,ntime,'q2surf','wind variance','m2.s-2',2, . q2S) call write_archive(nid,ntime,'q2atm','wind variance','m2.s-2',3, . q2S(1,2)) c----------------------------------------------------------------------- c Ecriture du champs q ( q[1,nqtot] ) c----------------------------------------------------------------------- do iq=1,nqtot call write_archive(nid,ntime,tname(iq),'tracer','kg/kg', & 3,q(1,1,iq)) end do c----------------------------------------------------------------------- c Ecriture du champs qsurf ( qsurf[1,nqtot] ) c----------------------------------------------------------------------- do iq=1,nqtot txt=trim(tname(iq))//"_surf" call write_archive(nid,ntime,txt,'Tracer on surface', & 'kg.m-2',2,qsurfS(1,iq)) enddo c----------------------------------------------------------------------- c Ecriture du champs tsoil ( Tg[1,10] ) c----------------------------------------------------------------------- c "tsoil" Temperature au sol definie dans 10 couches dans le sol c Les 10 couches sont lues comme 10 champs c nommees Tg[1,10] c do isoil=1,nsoilmx c write(str2,'(i2.2)') isoil c call write_archive(nid,ntime,'Tg'//str2,'Ground Temperature ', c . 'K',2,tsoilS(1,isoil)) c enddo ! Write soil temperatures tsoil call write_archive(nid,ntime,'tsoil','Soil temperature', & 'K',-3,tsoilS) ! Write soil thermal inertia call write_archive(nid,ntime,'inertiedat', & 'Soil thermal inertia', & 'J.s-1/2.m-2.K-1',-3,ithS) ! Write (0D) volumetric heat capacity (stored in comsoil.h) ! call write_archive(nid,ntime,'volcapa', ! & 'Soil volumetric heat capacity', ! & 'J.m-3.K-1',0,volcapa) ! Note: no need to write volcapa, it is stored in "controle" table c----------------------------------------------------------------------- c Ecriture du champs cloudfrac,hice,totalcloudfrac c----------------------------------------------------------------------- call write_archive(nid,ntime,'hice', & 'Height of oceanic ice','m',2,hiceS) call write_archive(nid,ntime,'totalcloudfrac', & 'Total cloud Fraction','',2,totalcloudfracS) call write_archive(nid,ntime,'cloudfrac' & ,'Cloud fraction','',3,cloudfracS) c----------------------------------------------------------------------- c Slab ocean c----------------------------------------------------------------------- OPEN(99,file='callphys.def',status='old',form='formatted' & ,iostat=ierr) CLOSE(99) IF(ierr.EQ.0) THEN write(*,*) "Use slab-ocean ?" ok_slab_ocean=.false. ! default value call getin("ok_slab_ocean",ok_slab_ocean) write(*,*) "ok_slab_ocean = ",ok_slab_ocean if(ok_slab_ocean) then call write_archive(nid,ntime,'rnat' & ,'rnat','',2,rnatS) call write_archive(nid,ntime,'pctsrf_sic' & ,'pctsrf_sic','',2,pctsrf_sicS) call write_archive(nid,ntime,'sea_ice' & ,'sea_ice','',2,sea_iceS) call write_archive(nid,ntime,'tslab' & ,'tslab','',3,tslabS) call write_archive(nid,ntime,'tsea_ice' & ,'tsea_ice','',2,tsea_iceS) endif !ok_slab_ocean ENDIF c----------------------------------------------------------------------- c Fin c----------------------------------------------------------------------- ierr=NF_CLOSE(nid) write(*,*) "start2archive: All is well that ends well." end