MODULE etat0dyn !******************************************************************************* ! Purpose: Create dynamical initial state using atmospheric fields from a ! database of atmospheric to initialize the model. !------------------------------------------------------------------------------- ! Comments: ! * This module is designed to work for Earth (and with ioipsl) ! * etat0dyn_netcdf routine can access to NetCDF data through the following ! routine (to be called after restget): ! CALL startget_dyn3d(varname, lon_in, lat_in, pls, workvar,& ! champ, lon_in2, lat_in2) ! * Variables should have the following names in the NetCDF files: ! 'U' : East ward wind (in "ECDYN.nc") ! 'V' : Northward wind (in "ECDYN.nc") ! 'TEMP' : Temperature (in "ECDYN.nc") ! 'R' : Relative humidity (in "ECDYN.nc") ! 'RELIEF' : High resolution orography (in "Relief.nc") ! * The land mask and corresponding weights can be: ! 1) already known (in particular if etat0dyn has been called before) ; ! in this case, ANY(masque(:,:)/=-99999.) = .TRUE. ! 2) computed using the ocean mask from the ocean model (to ensure ocean ! fractions are the same for atmosphere and ocean) for coupled runs. ! File name: "o2a.nc" ; variable name: "OceMask" ! 3) computed from topography file "Relief.nc" for forced runs. ! * There is a big mess with the longitude size. Should it be iml or iml+1 ? ! I have chosen to use the iml+1 as an argument to this routine and we declare ! internaly smaller fields when needed. This needs to be cleared once and for ! all in LMDZ. A convention is required. !------------------------------------------------------------------------------- USE ioipsl, ONLY: flininfo, flinopen, flinget, flinclo, histclo USE assert_eq_m, ONLY: assert_eq USE comconst_mod, ONLY: pi, cpp, kappa USE comvert_mod, ONLY: ap, bp, preff, pressure_exner USE temps_mod, ONLY: annee_ref, day_ref, itau_dyn, itau_phy, start_time USE strings_mod, ONLY: strLower IMPLICIT NONE PRIVATE PUBLIC :: etat0dyn_netcdf include "iniprint.h" include "dimensions.h" include "paramet.h" include "comgeom2.h" include "comdissnew.h" REAL, SAVE :: deg2rad INTEGER, SAVE :: iml_dyn, jml_dyn, llm_dyn, ttm_dyn, fid_dyn REAL, ALLOCATABLE, SAVE :: lon_dyn(:,:), lat_dyn(:,:), levdyn_ini(:) CHARACTER(LEN=120), PARAMETER :: dynfname='ECDYN.nc' CONTAINS !------------------------------------------------------------------------------- SUBROUTINE etat0dyn_netcdf(masque, phis) !------------------------------------------------------------------------------- ! Purpose: Create dynamical initial states. !------------------------------------------------------------------------------- ! Notes: 1) This routine is designed to work for Earth ! 2) If masque(:,:)/=-99999., masque and phis are already known. ! Otherwise: compute it. !------------------------------------------------------------------------------- USE control_mod USE regr_lat_time_coefoz_m, ONLY: regr_lat_time_coefoz USE regr_pr_o3_m, ONLY: regr_pr_o3 USE press_coefoz_m, ONLY: press_coefoz USE exner_hyb_m, ONLY: exner_hyb USE exner_milieu_m, ONLY: exner_milieu USE infotrac, ONLY: nqtot, tracers USE lmdz_filtreg USE lmdz_cppkeys_wrapper, ONLY: CPPKEY_INCA IMPLICIT NONE !------------------------------------------------------------------------------- ! Arguments: REAL, INTENT(INOUT) :: masque(iip1,jjp1) !--- Land-ocean mask REAL, INTENT(INOUT) :: phis (iip1,jjp1) !--- Ground geopotential !------------------------------------------------------------------------------- ! Local variables: CHARACTER(LEN=256) :: modname, fmt INTEGER :: i, j, l, ji, itau, iday, iq REAL :: xpn, xps, time, phystep REAL, DIMENSION(iip1,jjp1) :: psol REAL, DIMENSION(iip1,jjp1,llm+1) :: p3d REAL, DIMENSION(iip1,jjp1,llm) :: uvent, t3d, tpot, qsat, qd REAL, DIMENSION(iip1,jjp1,llm) :: pk, pls, y, masse REAL, DIMENSION(iip1,jjm ,llm) :: vvent REAL, DIMENSION(ip1jm ,llm) :: pbarv REAL, DIMENSION(ip1jmp1 ,llm) :: pbaru, phi, w REAL, DIMENSION(ip1jmp1) :: pks REAL, DIMENSION(iim) :: xppn, xpps REAL, ALLOCATABLE :: q3d(:,:,:,:) !------------------------------------------------------------------------------- modname='etat0dyn_netcdf' deg2rad = pi/180.0 y(:,:,:)=0 !ym warning unitialized variable ! Compute psol AND tsol, knowing phis. !******************************************************************************* CALL start_init_dyn(rlonv, rlatu, rlonu, rlatv, phis, psol) ! Mid-levels pressure computation !******************************************************************************* CALL pression(ip1jmp1, ap, bp, psol, p3d) !--- Update p3d IF(pressure_exner) THEN !--- Update pk, pks CALL exner_hyb (ip1jmp1,psol,p3d,pks,pk) ELSE CALL exner_milieu(ip1jmp1,psol,p3d,pks,pk) END IF pls(:,:,:)=preff*(pk(:,:,:)/cpp)**(1./kappa) !--- Update pls ! Update uvent, vvent, t3d and tpot !******************************************************************************* uvent(:,:,:) = 0.0 ; vvent(:,:,:) = 0.0 ; t3d (:,:,:) = 0.0 CALL startget_dyn3d('u' ,rlonu,rlatu,pls,y ,uvent,rlonv,rlatv) CALL startget_dyn3d('v' ,rlonv,rlatv,pls(:,:jjm,:),y(:,:jjm,:),vvent, & rlonu,rlatu(:jjm)) CALL startget_dyn3d('t' ,rlonv,rlatu,pls,y ,t3d ,rlonu,rlatv) tpot(:,:,:)=t3d(:,:,:) CALL startget_dyn3d('tpot',rlonv,rlatu,pls,pk,tpot,rlonu,rlatv) WRITE(lunout,*) 'T3D min,max:',MINVAL(t3d(:,:,:)),MAXVAL(t3d(:,:,:)) WRITE(lunout,*) 'PLS min,max:',MINVAL(pls(:,:,:)),MAXVAL(pls(:,:,:)) ! Humidity at saturation computation !******************************************************************************* WRITE(lunout,*) 'avant q_sat' CALL q_sat(llm*jjp1*iip1, t3d, pls, qsat) WRITE(lunout,*) 'apres q_sat' WRITE(lunout,*) 'QSAT min,max:',MINVAL(qsat(:,:,:)),MAXVAL(qsat(:,:,:)) ! WRITE(lunout,*) 'QSAT :',qsat(10,20,:) qd (:,:,:) = 0.0 CALL startget_dyn3d('q',rlonv,rlatu,pls,qsat,qd,rlonu,rlatv) ALLOCATE(q3d(iip1,jjp1,llm,nqtot)); q3d(:,:,:,:)=0.0 ; q3d(:,:,:,1)=qd(:,:,:) CALL flinclo(fid_dyn) ! Parameterization of ozone chemistry: !******************************************************************************* ! Look for ozone tracer: IF (CPPKEY_INCA) THEN DO iq=1,nqtot; IF(strLower(tracers(iq)%name)=="o3") EXIT; END DO IF(iq/=nqtot+1) THEN CALL regr_lat_time_coefoz CALL press_coefoz CALL regr_pr_o3(p3d, q3d(:,:,:,iq)) q3d(:,:,:,iq)=q3d(:,:,:,iq)*48./ 29. !--- Mole->mass fraction END IF END IF q3d(iip1,:,:,:)=q3d(1,:,:,:) ! Writing !******************************************************************************* CALL inidissip(lstardis, nitergdiv, nitergrot, niterh, tetagdiv, tetagrot, & tetatemp, vert_prof_dissip) WRITE(lunout,*)'sortie inidissip' itau=0 itau_dyn=0 itau_phy=0 iday=dayref+itau/day_step time=FLOAT(itau-(iday-dayref)*day_step)/day_step IF(time>1.) THEN time=time-1 iday=iday+1 END IF day_ref=dayref annee_ref=anneeref CALL geopot( ip1jmp1, tpot, pk, pks, phis, phi ) WRITE(lunout,*)'sortie geopot' CALL caldyn0( itau, uvent, vvent, tpot, psol, masse, pk, phis, & phi, w, pbaru, pbarv, time+iday-dayref) WRITE(lunout,*)'sortie caldyn0' start_time = 0. #ifdef CPP_PARA CALL dynredem0_loc( "start.nc", dayref, phis) #else CALL dynredem0( "start.nc", dayref, phis) #endif WRITE(lunout,*)'sortie dynredem0' #ifdef CPP_PARA CALL dynredem1_loc( "start.nc", 0.0, vvent, uvent, tpot, q3d, masse, psol) #else CALL dynredem1( "start.nc", 0.0, vvent, uvent, tpot, q3d, masse, psol) #endif WRITE(lunout,*)'sortie dynredem1' CALL histclo() END SUBROUTINE etat0dyn_netcdf !------------------------------------------------------------------------------- !------------------------------------------------------------------------------- SUBROUTINE startget_dyn3d(var, lon_in, lat_in, pls, workvar,& champ, lon_in2, lat_in2) !------------------------------------------------------------------------------- IMPLICIT NONE !=============================================================================== ! Purpose: Compute some quantities (u,v,t,q,tpot) using variables U,V,TEMP and R ! (3D fields) of file dynfname. !------------------------------------------------------------------------------- ! Note: An input auxilliary field "workvar" has to be specified in two cases: ! * for "q": the saturated humidity. ! * for "tpot": the Exner function. !=============================================================================== ! Arguments: CHARACTER(LEN=*), INTENT(IN) :: var REAL, INTENT(IN) :: lon_in(:) ! dim (iml) REAL, INTENT(IN) :: lat_in(:) ! dim (jml) REAL, INTENT(IN) :: pls (:, :, :) ! dim (iml, jml, lml) REAL, INTENT(IN) :: workvar(:, :, :) ! dim (iml, jml, lml) REAL, INTENT(INOUT) :: champ (:, :, :) ! dim (iml, jml, lml) REAL, INTENT(IN) :: lon_in2(:) ! dim (iml) REAL, INTENT(IN) :: lat_in2(:) ! dim (jml2) !------------------------------------------------------------------------------- ! Local variables: CHARACTER(LEN=10) :: vname CHARACTER(LEN=256) :: msg, modname="startget_dyn3d" INTEGER :: iml, jml, jml2, lml, il REAL :: xppn, xpps !------------------------------------------------------------------------------- iml=assert_eq([SIZE(lon_in),SIZE(pls,1),SIZE(workvar,1),SIZE(champ,1), & SIZE(lon_in2)], TRIM(modname)//" iml") jml=assert_eq( SIZE(lat_in),SIZE(pls,2),SIZE(workvar,2),SIZE(champ,2), & TRIM(modname)//" jml") lml=assert_eq( SIZE(pls,3),SIZE(workvar,3),SIZE(champ,3), & TRIM(modname)//" lml") jml2=SIZE(lat_in2) !--- CHECK IF THE FIELD IS KNOWN SELECT CASE(var) CASE('u'); vname='U' CASE('v'); vname='V' CASE('t'); vname='TEMP' CASE('q'); vname='R'; msg='humidity as the saturated humidity' CASE('tpot'); msg='potential temperature as the Exner function' CASE DEFAULT; msg='No rule to extract variable '//TRIM(var) CALL abort_gcm(modname,TRIM(msg)//' from any data set',1) END SELECT !--- CHECK IF SOMETHING IS MISSING IF((var=='tpot'.OR.var=='q').AND.MINVAL(workvar)==MAXVAL(workvar)) THEN msg='Could not compute '//TRIM(msg)//' is missing or constant.' CALL abort_gcm(modname,TRIM(msg),1) END IF !--- INTERPOLATE 3D FIELD IF NEEDED IF(var/='tpot') CALL start_inter_3d(TRIM(vname),lon_in,lat_in,lon_in2, & lat_in2,pls,champ) !--- COMPUTE THE REQUIRED FILED SELECT CASE(var) CASE('u'); DO il=1,lml; champ(:,:,il)=champ(:,:,il)*cu(:,1:jml); END DO champ(iml,:,:)=champ(1,:,:) !--- Eastward wind CASE('v'); DO il=1,lml; champ(:,:,il)=champ(:,:,il)*cv(:,1:jml); END DO champ(iml,:,:)=champ(1,:,:) !--- Northward wind CASE('tpot','q') IF(var=='tpot') THEN; champ=champ*cpp/workvar !--- Potential temperature ELSE; champ=champ*.01*workvar !--- Relative humidity WHERE(champ<0.) champ=1.0E-10 END IF DO il=1,lml xppn = SUM(aire(:,1 )*champ(:,1 ,il))/apoln xpps = SUM(aire(:,jml)*champ(:,jml,il))/apols champ(:,1 ,il) = xppn champ(:,jml,il) = xpps END DO END SELECT END SUBROUTINE startget_dyn3d !------------------------------------------------------------------------------- !------------------------------------------------------------------------------- SUBROUTINE start_init_dyn(lon_in,lat_in,lon_in2,lat_in2,zs,psol) !------------------------------------------------------------------------------- IMPLICIT NONE !=============================================================================== ! Purpose: Compute psol, knowing phis. !=============================================================================== ! Arguments: REAL, INTENT(IN) :: lon_in (:), lat_in (:) ! dim (iml) (jml) REAL, INTENT(IN) :: lon_in2(:), lat_in2(:) ! dim (iml) (jml2) REAL, INTENT(IN) :: zs (:,:) ! dim (iml,jml) REAL, INTENT(OUT) :: psol(:,:) ! dim (iml,jml) !------------------------------------------------------------------------------- ! Local variables: CHARACTER(LEN=256) :: modname='start_init_dyn' REAL :: date, dt INTEGER :: iml, jml, jml2, itau(1) REAL, ALLOCATABLE :: lon_rad(:), lon_ini(:), var_ana(:,:) REAL, ALLOCATABLE :: lat_rad(:), lat_ini(:) REAL, ALLOCATABLE :: z(:,:), ps(:,:), ts(:,:) !------------------------------------------------------------------------------- iml=assert_eq(SIZE(lon_in),SIZE(zs,1),SIZE(psol,1),SIZE(lon_in2), & TRIM(modname)//" iml") jml=assert_eq(SIZE(lat_in),SIZE(zs,2),SIZE(psol,2),TRIM(modname)//" jml") jml2=SIZE(lat_in2) WRITE(lunout,*) 'Opening the surface analysis' CALL flininfo(dynfname, iml_dyn, jml_dyn, llm_dyn, ttm_dyn, fid_dyn) WRITE(lunout,*) 'Values read: ', iml_dyn, jml_dyn, llm_dyn, ttm_dyn ALLOCATE(lon_dyn(iml_dyn,jml_dyn), lat_dyn(iml_dyn,jml_dyn)) ALLOCATE(levdyn_ini(llm_dyn)) CALL flinopen(dynfname, .FALSE., iml_dyn, jml_dyn, llm_dyn, & lon_dyn,lat_dyn,levdyn_ini,ttm_dyn,itau,date,dt,fid_dyn) !--- IF ANGLES ARE IN DEGREES, THEY ARE CONVERTED INTO RADIANS ALLOCATE(lon_ini(iml_dyn),lat_ini(jml_dyn)) lon_ini(:)=lon_dyn(:,1); IF(MAXVAL(lon_dyn)>pi) lon_ini=lon_ini*deg2rad lat_ini(:)=lat_dyn(1,:); IF(MAXVAL(lat_dyn)>pi) lat_ini=lat_ini*deg2rad ALLOCATE(var_ana(iml_dyn,jml_dyn),lon_rad(iml_dyn),lat_rad(jml_dyn)) CALL get_var_dyn('Z',z) !--- SURFACE GEOPOTENTIAL CALL get_var_dyn('SP',ps) !--- SURFACE PRESSURE CALL get_var_dyn('ST',ts) !--- SURFACE TEMPERATURE ! CALL flinclo(fid_dyn) DEALLOCATE(var_ana,lon_rad,lat_rad,lon_ini,lat_ini) !--- PSOL IS COMPUTED IN PASCALS psol(:iml-1,:) = ps(:iml-1,:)*(1.0+(z(:iml-1,:)-zs(:iml-1,:))/287.0 & /ts(:iml-1,:)) psol(iml,:)=psol(1,:) DEALLOCATE(z,ps,ts) psol(:,1 )=SUM(aire(1:iml-1,1 )*psol(1:iml-1,1 ))/apoln !--- NORTH POLE psol(:,jml)=SUM(aire(1:iml-1,jml)*psol(1:iml-1,jml))/apols !--- SOUTH POLE CONTAINS !------------------------------------------------------------------------------- SUBROUTINE get_var_dyn(title,field) !------------------------------------------------------------------------------- USE conf_dat_m, ONLY: conf_dat2d IMPLICIT NONE !------------------------------------------------------------------------------- ! Arguments: CHARACTER(LEN=*), INTENT(IN) :: title REAL, ALLOCATABLE, INTENT(INOUT) :: field(:,:) !------------------------------------------------------------------------------- ! Local variables: CHARACTER(LEN=256) :: msg INTEGER :: tllm !------------------------------------------------------------------------------- SELECT CASE(title) CASE('Z'); tllm=0; msg='geopotential' CASE('SP'); tllm=0; msg='surface pressure' CASE('ST'); tllm=llm_dyn; msg='temperature' END SELECT IF(.NOT.ALLOCATED(field)) THEN ALLOCATE(field(iml,jml)) CALL flinget(fid_dyn, title, iml_dyn,jml_dyn, tllm, ttm_dyn, 1, 1, var_ana) CALL conf_dat2d(title, lon_ini, lat_ini, lon_rad, lat_rad, var_ana, .TRUE.) CALL interp_startvar(title, .TRUE., lon_rad,lat_rad, var_ana, & lon_in, lat_in, lon_in2, lat_in2, field) ELSE IF(SIZE(field)/=SIZE(z)) THEN msg='The '//TRIM(msg)//' field we have does not have the right size' CALL abort_gcm(TRIM(modname),msg,1) END IF END SUBROUTINE get_var_dyn !------------------------------------------------------------------------------- END SUBROUTINE start_init_dyn !------------------------------------------------------------------------------- !------------------------------------------------------------------------------- SUBROUTINE start_inter_3d(var,lon_in,lat_in,lon_in2,lat_in2,pls_in,var3d) !------------------------------------------------------------------------------- USE conf_dat_m, ONLY: conf_dat3d USE pchsp_95_m, ONLY: pchsp_95 USE pchfe_95_m, ONLY: pchfe_95 IMPLICIT NONE !------------------------------------------------------------------------------- ! Arguments: CHARACTER(LEN=*), INTENT(IN) :: var REAL, INTENT(IN) :: lon_in(:), lat_in(:) ! dim (iml) (jml) REAL, INTENT(IN) :: lon_in2(:), lat_in2(:) ! dim (iml) (jml2) REAL, INTENT(IN) :: pls_in(:,:,:) ! dim (iml,jml,lml) REAL, INTENT(OUT) :: var3d (:,:,:) ! dim (iml,jml,lml) !------------------------------------------------------------------------------- ! Local variables: CHARACTER(LEN=256) :: modname='start_inter_3d' LOGICAL :: skip REAL :: chmin, chmax INTEGER :: iml, jml, lml, jml2, ii, ij, il, ierr INTEGER :: n_extrap ! Extrapolated points number REAL, ALLOCATABLE :: ax(:), lon_rad(:), lon_ini(:), lev_dyn(:), yder(:) REAL, ALLOCATABLE :: ay(:), lat_rad(:), lat_ini(:), var_tmp3d(:,:,:) REAL, ALLOCATABLE, SAVE :: var_ana3d(:,:,:) !------------------------------------------------------------------------------- iml=assert_eq(SIZE(lon_in),SIZE(lon_in2),SIZE(pls_in,1),SIZE(var3d,1),TRIM(modname)//" iml") jml=assert_eq(SIZE(lat_in), SIZE(pls_in,2),SIZE(var3d,2),TRIM(modname)//" jml") lml=assert_eq(SIZE(pls_in,3),SIZE(var3d,3),TRIM(modname)//" lml"); jml2=SIZE(lat_in2) WRITE(lunout, *)'Going into flinget to extract the 3D field.' IF(.NOT.ALLOCATED(var_ana3d)) ALLOCATE(var_ana3d(iml_dyn, jml_dyn, llm_dyn)) CALL flinget(fid_dyn,var,iml_dyn,jml_dyn,llm_dyn,ttm_dyn,1,1,var_ana3d) !--- ANGLES IN DEGREES ARE CONVERTED INTO RADIANS ALLOCATE(lon_ini(iml_dyn), lat_ini(jml_dyn)) lon_ini(:)=lon_dyn(:,1); IF(MAXVAL(lon_dyn)>pi) lon_ini=lon_ini*deg2rad lat_ini(:)=lat_dyn(1,:); IF(MAXVAL(lat_dyn)>pi) lat_ini=lat_ini*deg2rad !--- FIELDS ARE PROCESSED TO BE ON STANDARD ANGULAR DOMAINS ALLOCATE(lon_rad(iml_dyn), lat_rad(jml_dyn), lev_dyn(llm_dyn)) CALL conf_dat3d(var, lon_ini, lat_ini, levdyn_ini, & lon_rad, lat_rad, lev_dyn, var_ana3d, .TRUE.) DEALLOCATE(lon_ini, lat_ini) !--- COMPUTE THE REQUIRED FIELDS USING ROUTINE grid_noro ALLOCATE(var_tmp3d(iml,jml,llm_dyn)) DO il = 1,llm_dyn CALL interp_startvar(var,il==1,lon_rad,lat_rad,var_ana3d(:,:,il), & lon_in,lat_in,lon_in2,lat_in2,var_tmp3d(:,:,il)) END DO DEALLOCATE(lon_rad, lat_rad) !--- VERTICAL INTERPOLATION FROM TOP OF ATMOSPHERE TO GROUND ALLOCATE(ax(llm_dyn),ay(llm_dyn),yder(llm_dyn)) ax = lev_dyn(llm_dyn:1:-1) skip = .FALSE. n_extrap = 0 DO ij=1, jml DO ii=1, iml-1 ay = var_tmp3d(ii, ij, llm_dyn:1:-1) yder = pchsp_95(ax, ay, ibeg=2, iend=2, vc_beg=0., vc_end=0.) CALL pchfe_95(ax, ay, yder, skip, pls_in(ii, ij, lml:1:-1), & var3d(ii, ij, lml:1:-1), ierr) IF(ierr<0) CALL abort_gcm(TRIM(modname),'error in pchfe_95',1) n_extrap = n_extrap + ierr END DO END DO IF(n_extrap/=0) WRITE(lunout,*)TRIM(modname)//" pchfe_95: n_extrap=", n_extrap var3d(iml, :, :) = var3d(1, :, :) DO il=1, lml CALL minmax(iml*jml, var3d(1, 1, il), chmin, chmax) WRITE(lunout, *)' '//TRIM(var)//' min max l ', il, chmin, chmax END DO END SUBROUTINE start_inter_3d !------------------------------------------------------------------------------- !------------------------------------------------------------------------------- SUBROUTINE interp_startvar(nam,ibeg,lon,lat,vari,lon1,lat1,lon2,lat2,varo) !------------------------------------------------------------------------------- USE inter_barxy_m, ONLY: inter_barxy IMPLICIT NONE !------------------------------------------------------------------------------- ! Arguments: CHARACTER(LEN=*), INTENT(IN) :: nam LOGICAL, INTENT(IN) :: ibeg REAL, INTENT(IN) :: lon(:), lat(:) ! dim (ii) (jj) REAL, INTENT(IN) :: vari(:,:) ! dim (ii,jj) REAL, INTENT(IN) :: lon1(:), lat1(:) ! dim (i1) (j1) REAL, INTENT(IN) :: lon2(:), lat2(:) ! dim (i1) (j2) REAL, INTENT(OUT) :: varo(:,:) ! dim (i1) (j1) !------------------------------------------------------------------------------- ! Local variables: CHARACTER(LEN=256) :: modname="interp_startvar" INTEGER :: ii, jj, i1, j1, j2 REAL, ALLOCATABLE :: vtmp(:,:) !------------------------------------------------------------------------------- ii=assert_eq(SIZE(lon), SIZE(vari,1),TRIM(modname)//" ii") jj=assert_eq(SIZE(lat), SIZE(vari,2),TRIM(modname)//" jj") i1=assert_eq(SIZE(lon1),SIZE(lon2),SIZE(varo,1),TRIM(modname)//" i1") j1=assert_eq(SIZE(lat1), SIZE(varo,2),TRIM(modname)//" j1") j2=SIZE(lat2) ALLOCATE(vtmp(i1-1,j1)) IF(ibeg.AND.prt_level>1) THEN WRITE(lunout,*)"---------------------------------------------------------" WRITE(lunout,*)"$$$ Interpolation barycentrique pour "//TRIM(nam)//" $$$" WRITE(lunout,*)"---------------------------------------------------------" END IF CALL inter_barxy(lon, lat(:jj-1), vari, lon2(:i1-1), lat2, vtmp) CALL gr_int_dyn(vtmp, varo, i1-1, j1) END SUBROUTINE interp_startvar !------------------------------------------------------------------------------- END MODULE etat0dyn !*******************************************************************************