! $Id: phys_output_mod.F90 3284 2018-03-17 08:58:45Z adurocher $ ! MODULE phys_output_mod USE indice_sol_mod USE phys_output_var_mod USE phys_output_write_mod, ONLY : phys_output_write REAL, DIMENSION(nfiles),SAVE :: ecrit_files ! Abderrahmane 12 2007 !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!! !!! Ecreture des Sorties du modele dans les fichiers Netcdf : ! histmth.nc : moyennes mensuelles ! histday.nc : moyennes journalieres ! histhf.nc : moyennes toutes les 3 heures ! histins.nc : valeurs instantanees !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!! CONTAINS !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!! !!!!!!!!! Ouverture des fichier et definition des variable de sortie !!!!!!!! !! histbeg, histvert et histdef !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!! SUBROUTINE phys_output_open(rlon,rlat,pim,tabij,ipt,jpt,plon,plat, & jjmp1,nlevSTD,clevSTD,rlevSTD, dtime, ok_veget, & type_ocean, iflag_pbl,iflag_pbl_split,ok_mensuel,ok_journe, & ok_hf,ok_instan,ok_LES,ok_ade,ok_aie, read_climoz, & phys_out_filestations, & new_aod, aerosol_couple, flag_aerosol_strat, & pdtphys, paprs, pphis, pplay, lmax_th, ptconv, ptconvth, ivap, & d_u, d_t, qx, d_qx, zmasse, ok_sync) USE iophy USE dimphy USE infotrac_phy, ONLY: nqtot, nqo, niadv, tname, ttext, type_trac USE ioipsl USE phys_cal_mod, only : hour, calend USE mod_phys_lmdz_para !Martin USE surface_data, ONLY : ok_snow USE phys_output_ctrlout_mod USE mod_grid_phy_lmdz, only: klon_glo,nbp_lon,nbp_lat USE print_control_mod, ONLY: prt_level,lunout USE vertical_layers_mod, ONLY: ap,bp,preff,presnivs, aps, bps, pseudoalt USE time_phylmdz_mod, ONLY: day_ini, itau_phy, start_time, annee_ref, day_ref #ifdef REPROBUS USE chem_rep, ONLY: nbnas, tnamenas, ttextnas #endif #ifdef CPP_XIOS ! ug Pour les sorties XIOS USE wxios #endif IMPLICIT NONE include "clesphys.h" include "thermcell.h" include "YOMCST.h" ! ug Nouveaux arguments n\'ecessaires au histwrite_mod: INTEGER, INTENT(IN) :: ivap INTEGER, DIMENSION(klon), INTENT(IN) :: lmax_th LOGICAL, INTENT(IN) :: ok_sync LOGICAL, DIMENSION(klon, klev), INTENT(IN) :: ptconv, ptconvth REAL, INTENT(IN) :: pdtphys REAL, DIMENSION(klon), INTENT(IN) :: pphis REAL, DIMENSION(klon, klev), INTENT(IN) :: pplay, d_u, d_t REAL, DIMENSION(klon, klev+1), INTENT(IN) :: paprs REAL, DIMENSION(klon,klev,nqtot), INTENT(IN):: qx, d_qx REAL, DIMENSION(klon, klev), INTENT(IN) :: zmasse REAL,DIMENSION(klon),INTENT(IN) :: rlon REAL,DIMENSION(klon),INTENT(IN) :: rlat INTEGER, INTENT(IN) :: pim INTEGER, DIMENSION(pim) :: tabij INTEGER,DIMENSION(pim), INTENT(IN) :: ipt, jpt REAL,DIMENSION(pim), INTENT(IN) :: plat, plon REAL,DIMENSION(pim,2) :: plat_bounds, plon_bounds INTEGER :: jjmp1 INTEGER :: nlevSTD, radpas LOGICAL :: ok_mensuel, ok_journe, ok_hf, ok_instan LOGICAL :: ok_LES,ok_ade,ok_aie INTEGER :: flag_aerosol_strat LOGICAL :: new_aod, aerosol_couple INTEGER, INTENT(IN):: read_climoz ! read ozone climatology ! Allowed values are 0, 1 and 2 ! 0: do not read an ozone climatology ! 1: read a single ozone climatology that will be used day and night ! 2: read two ozone climatologies, the average day and night ! climatology and the daylight climatology REAL :: dtime INTEGER :: idayref REAL :: zjulian_start, zjulian CHARACTER(LEN=4), DIMENSION(nlevSTD) :: clevSTD REAL, DIMENSION(nlevSTD) :: rlevSTD INTEGER :: nsrf, k, iq, iiq, iff, i, j, ilev INTEGER :: naero LOGICAL :: ok_veget INTEGER :: iflag_pbl INTEGER :: iflag_pbl_split CHARACTER(LEN=4) :: bb2 CHARACTER(LEN=2) :: bb3 CHARACTER(LEN=6) :: type_ocean INTEGER, DIMENSION(nbp_lon*jjmp1) :: ndex2d INTEGER, DIMENSION(nbp_lon*jjmp1*klev) :: ndex3d INTEGER :: imin_ins, imax_ins INTEGER :: jmin_ins, jmax_ins INTEGER, DIMENSION(nfiles) :: phys_out_levmin, phys_out_levmax INTEGER, DIMENSION(nfiles) :: phys_out_filelevels CHARACTER(LEN=20), DIMENSION(nfiles) :: chtimestep = (/ 'Default', 'Default', 'Default', 'Default', 'Default', & 'Default', 'Default', 'Default', 'Default', 'Default' /) LOGICAL, DIMENSION(nfiles) :: phys_out_filekeys LOGICAL, DIMENSION(nfiles) :: phys_out_filestations !!!!!!!!!! stockage dans une region limitee pour chaque fichier !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!! ! entre [phys_out_lonmin,phys_out_lonmax] et [phys_out_latmin,phys_out_latmax] LOGICAL, DIMENSION(nfiles), SAVE :: phys_out_regfkey = (/ .FALSE., .FALSE., .FALSE., .FALSE., .FALSE., & .FALSE., .FALSE., .FALSE., .FALSE., .FALSE. /) REAL, DIMENSION(nfiles), SAVE :: phys_out_lonmin = (/ -180., -180., -180., -180., -180., & -180., -180., -180., -180., -180. /) REAL, DIMENSION(nfiles), SAVE :: phys_out_lonmax = (/ 180., 180., 180., 180., 180., & 180., 180., 180., 180., 180. /) REAL, DIMENSION(nfiles), SAVE :: phys_out_latmin = (/ -90., -90., -90., -90., -90., & -90., -90., -90., -90., -90. /) REAL, DIMENSION(nfiles), SAVE :: phys_out_latmax = (/ 90., 90., 90., 90., 90., & 90., 90., 90., 90., 90. /) REAL, DIMENSION(klev,2) :: Ahyb_bounds, Bhyb_bounds REAL, DIMENSION(klev+1) :: lev_index #ifdef CPP_XIOS ! ug Variables utilis\'ees pour r\'ecup\'erer le calendrier pour xios INTEGER :: x_an, x_mois, x_jour REAL :: x_heure INTEGER :: ini_an, ini_mois, ini_jour REAL :: ini_heure #endif INTEGER :: ISW REAL, DIMENSION(NSW) :: wl1_sun, wl2_sun !wavelength bounds (in um) for SW REAL, DIMENSION(NSW) :: wn1_sun, wn2_sun !wavenumber bounds (in m-1) for SW REAL, DIMENSION(NSW) :: spectband !mean wavenumb. of each sp.band REAL, DIMENSION(NSW,2) :: spbnds_sun !bounds of spectband WRITE(lunout,*) 'Debut phys_output_mod.F90' ! Initialisations (Valeurs par defaut DO ilev=1,klev Ahyb_bounds(ilev,1) = ap(ilev) Ahyb_bounds(ilev,2) = ap(ilev+1) Bhyb_bounds(ilev,1) = bp(ilev) Bhyb_bounds(ilev,2) = bp(ilev+1) lev_index(ilev) = REAL(ilev) END DO lev_index(klev+1) = REAL(klev+1) IF (.NOT. ALLOCATED(o_trac)) ALLOCATE(o_trac(nqtot)) IF (.NOT. ALLOCATED(o_trac_cum)) ALLOCATE(o_trac_cum(nqtot)) #ifdef REPROBUS IF (.NOT. ALLOCATED(o_nas)) ALLOCATE(o_nas(nbnas)) #endif ALLOCATE(o_dtr_the(nqtot),o_dtr_con(nqtot),o_dtr_lessi_impa(nqtot)) ALLOCATE(o_dtr_lessi_nucl(nqtot),o_dtr_insc(nqtot),o_dtr_bcscav(nqtot)) ALLOCATE(o_dtr_evapls(nqtot),o_dtr_ls(nqtot),o_dtr_trsp(nqtot)) ALLOCATE(o_dtr_sscav(nqtot),o_dtr_sat(nqtot),o_dtr_uscav(nqtot)) ALLOCATE(o_dtr_dry(nqtot),o_dtr_vdf(nqtot)) levmax = (/ klev, klev, klev, klev, klev, klev, nlevSTD, nlevSTD, nlevSTD, klev /) phys_out_filenames(1) = 'histmth' phys_out_filenames(2) = 'histday' phys_out_filenames(3) = 'histhf6h' phys_out_filenames(4) = 'histhf3h' phys_out_filenames(5) = 'histhf3hm' phys_out_filenames(6) = 'histstn' phys_out_filenames(7) = 'histmthNMC' phys_out_filenames(8) = 'histdayNMC' phys_out_filenames(9) = 'histhfNMC' phys_out_filenames(10)= 'histstrataer' type_ecri(1) = 'ave(X)' type_ecri(2) = 'ave(X)' type_ecri(3) = 'inst(X)' type_ecri(4) = 'inst(X)' type_ecri(5) = 'ave(X)' type_ecri(6) = 'inst(X)' type_ecri(7) = 'inst(X)' type_ecri(8) = 'inst(X)' type_ecri(9) = 'inst(X)' type_ecri(10)= 'ave(X)' clef_files(1) = ok_mensuel clef_files(2) = ok_journe clef_files(3) = ok_hf clef_files(4) = ok_instan clef_files(5) = ok_LES clef_files(6) = ok_instan clef_files(7) = ok_histNMC(1) clef_files(8) = ok_histNMC(2) clef_files(9) = ok_histNMC(3) #ifdef CPP_StratAer clef_files(10)= .TRUE. #else clef_files(10)= .FALSE. #endif !sortir des fichiers "stations" si clef_stations(:)=.TRUE. clef_stations(1) = .FALSE. clef_stations(2) = .FALSE. clef_stations(3) = .FALSE. clef_stations(4) = .FALSE. clef_stations(5) = .FALSE. clef_stations(6) = .FALSE. clef_stations(7) = .FALSE. clef_stations(8) = .FALSE. clef_stations(9) = .FALSE. clef_stations(10)= .FALSE. lev_files(1) = lev_histmth lev_files(2) = lev_histday lev_files(3) = lev_histhf lev_files(4) = lev_histins lev_files(5) = lev_histLES lev_files(6) = lev_histins lev_files(7) = levout_histNMC(1) lev_files(8) = levout_histNMC(2) lev_files(9) = levout_histNMC(3) lev_files(10)= 5 ecrit_files(1) = ecrit_mth ecrit_files(2) = ecrit_day ecrit_files(3) = ecrit_hf ecrit_files(4) = ecrit_ins ecrit_files(5) = ecrit_LES ecrit_files(6) = ecrit_ins ecrit_files(7) = freq_outNMC(1) ecrit_files(8) = freq_outNMC(2) ecrit_files(9) = freq_outNMC(3) ecrit_files(10)= ecrit_mth !! Lectures des parametres de sorties dans physiq.def CALL getin('phys_out_regfkey',phys_out_regfkey) CALL getin('phys_out_lonmin',phys_out_lonmin) CALL getin('phys_out_lonmax',phys_out_lonmax) CALL getin('phys_out_latmin',phys_out_latmin) CALL getin('phys_out_latmax',phys_out_latmax) phys_out_levmin(:)=levmin(:) CALL getin('phys_out_levmin',levmin) phys_out_levmax(:)=levmax(:) CALL getin('phys_out_levmax',levmax) CALL getin('phys_out_filenames',phys_out_filenames) phys_out_filekeys(:)=clef_files(:) CALL getin('phys_out_filekeys',clef_files) phys_out_filestations(:)=clef_stations(:) CALL getin('phys_out_filestations',clef_stations) phys_out_filelevels(:)=lev_files(:) CALL getin('phys_out_filelevels',lev_files) CALL getin('phys_out_filetimesteps',chtimestep) phys_out_filetypes(:)=type_ecri(:) CALL getin('phys_out_filetypes',type_ecri) type_ecri_files(:)=type_ecri(:) ! if (ok_all_xml) phys_out_filelevels = 999 WRITE(lunout,*)'phys_out_lonmin=',phys_out_lonmin WRITE(lunout,*)'phys_out_lonmax=',phys_out_lonmax WRITE(lunout,*)'phys_out_latmin=',phys_out_latmin WRITE(lunout,*)'phys_out_latmax=',phys_out_latmax WRITE(lunout,*)'phys_out_filenames=',phys_out_filenames WRITE(lunout,*)'phys_out_filetypes=',type_ecri WRITE(lunout,*)'phys_out_filekeys=',clef_files WRITE(lunout,*)'phys_out_filestations=',clef_stations WRITE(lunout,*)'phys_out_filelevels=',lev_files WRITE(lunout,*)'phys_out_regfkey=',phys_out_regfkey ! A noter pour ! l heure initiale - dans les fichiers histoire hist* - on met comme ! heure de debut soit la vraie heure (pour le 1D) soit 0h (pour le 3D) ! afin d avoir une seule sortie mensuelle par mois lorsque l on tourne ! par annee (IM). ! idayref = day_ref IF (klon_glo==1) THEN ! current_time (used to compute hour) is updated at the begining of ! the physics; to set the correct outputs "initial time" we thus ! have to use (hour-dtphys). CALL ymds2ju(annee_ref, 1, idayref, hour-pdtphys, zjulian) print *,'phys_output_mod: annee,iday,hour,zjulian=',annee_ref,idayref, hour, zjulian ELSE CALL ymds2ju(annee_ref, 1, idayref, 0.0, zjulian) CALL ymds2ju(annee_ref, 1, day_ini, start_time*rday, zjulian_start) ENDIF #ifdef CPP_XIOS ! ug R\'eglage du calendrier xios !Temps julian => an, mois, jour, heure CALL ju2ymds(zjulian, x_an, x_mois, x_jour, x_heure) CALL ju2ymds(zjulian_start, ini_an, ini_mois, ini_jour, ini_heure) CALL wxios_set_cal(dtime, calend, x_an, x_mois, x_jour, x_heure, ini_an, & ini_mois, ini_jour, ini_heure ) #endif !!!!!!!!!!!!!!!!!!!!!!! Boucle sur les fichiers !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!! ! Appel de histbeg et histvert pour creer le fichier et les niveaux verticaux !! ! Appel des histbeg pour definir les variables (nom, moy ou inst, freq de sortie .. !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!! zdtime_moy = dtime ! Frequence ou l on moyenne ecrit_files(7) = ecrit_files(1) ecrit_files(8) = ecrit_files(2) ecrit_files(9) = ecrit_files(3) DO iff=1,nfiles ! Calculate ecrit_files for all files IF ( chtimestep(iff).eq.'Default' ) THEN ! Par defaut ecrit_files = (ecrit_mensuel ecrit_jour ecrit_hf ! ...)*86400. ecrit_files(iff)=ecrit_files(iff)*86400. ELSE IF (chtimestep(iff).eq.'-1') THEN PRINT*,'ecrit_files(',iff,') < 0 so IOIPSL work on different' PRINT*,'months length' ecrit_files(iff)=-1. ELSE CALL convers_timesteps(chtimestep(iff),dtime,ecrit_files(iff)) ENDIF WRITE(lunout,*)'ecrit_files(',iff,')= ',ecrit_files(iff) zoutm(iff) = ecrit_files(iff) ! Frequence ou l on ecrit en seconde #ifdef CPP_XIOS !!! Ouverture de chaque fichier XIOS !!!!!!!!!!! IF (.not. ok_all_xml) THEN IF (prt_level >= 10) THEN print*,'phys_output_open: call wxios_add_file with phys_out_filenames(iff)=',trim(phys_out_filenames(iff)) ENDIF CALL wxios_add_file(phys_out_filenames(iff),chtimestep(iff),lev_files(iff)) ENDIF !!! Declaration des axes verticaux de chaque fichier: IF (prt_level >= 10) THEN print*,'phys_output_open: Declare vertical axes for each file' ENDIF IF (iff.LE.6.OR.iff.EQ.10) THEN CALL wxios_add_vaxis("presnivs", & levmax(iff) - levmin(iff) + 1, presnivs(levmin(iff):levmax(iff))) CALL wxios_add_vaxis("Ahyb", & levmax(iff) - levmin(iff) + 1, aps(levmin(iff):levmax(iff)), positif='down', & bnds=Ahyb_bounds(levmin(iff):levmax(iff),:)) CALL wxios_add_vaxis("Bhyb", & levmax(iff) - levmin(iff) + 1, bps(levmin(iff):levmax(iff)), positif='down', & bnds=Bhyb_bounds(levmin(iff):levmax(iff),:)) CALL wxios_add_vaxis("klev", levmax(iff) - levmin(iff) + 1, & lev_index(levmin(iff):levmax(iff))) CALL wxios_add_vaxis("klevp1", klev+1, & lev_index(1:klev+1)) CALL wxios_add_vaxis("bnds", 2, (/1.,2./)) CALL wxios_add_vaxis("Alt", & levmax(iff) - levmin(iff) + 1, pseudoalt) IF (NSW.EQ.6) THEN ! !wl1_sun: minimum bound of wavelength (in um) ! wl1_sun(1)=0.180 wl1_sun(2)=0.250 wl1_sun(3)=0.440 wl1_sun(4)=0.690 wl1_sun(5)=1.190 wl1_sun(6)=2.380 ! !wl2_sun: maximum bound of wavelength (in um) ! wl2_sun(1)=0.250 wl2_sun(2)=0.440 wl2_sun(3)=0.690 wl2_sun(4)=1.190 wl2_sun(5)=2.380 wl2_sun(6)=4.000 ! ELSE IF(NSW.EQ.2) THEN ! !wl1_sun: minimum bound of wavelength (in um) ! wl1_sun(1)=0.250 wl1_sun(2)=0.690 ! !wl2_sun: maximum bound of wavelength (in um) ! wl2_sun(1)=0.690 wl2_sun(2)=4.000 ENDIF DO ISW=1, NSW wn1_sun(ISW)=1.e+6/wl1_sun(ISW) wn2_sun(ISW)=1.e+6/wl2_sun(ISW) spbnds_sun(ISW,1)=wn2_sun(ISW) spbnds_sun(ISW,2)=wn1_sun(ISW) spectband(ISW)=(wn1_sun(ISW)+wn2_sun(ISW))/2 ENDDO ! !!! ajout axe vertical spectband : solar band number CALL wxios_add_vaxis("spectband", NSW, spectband, positif='down') ELSE ! NMC files CALL wxios_add_vaxis("plev", & levmax(iff) - levmin(iff) + 1, rlevSTD(levmin(iff):levmax(iff))) ENDIF #endif IF (clef_files(iff)) THEN !!!!!!!!!!!!!!!!! Traitement dans le cas ou l'on veut stocker sur un domaine limite !! !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!! IF (phys_out_regfkey(iff)) THEN imin_ins=1 imax_ins=nbp_lon jmin_ins=1 jmax_ins=jjmp1 ! correction abderr DO i=1,nbp_lon WRITE(lunout,*)'io_lon(i)=',io_lon(i) IF (io_lon(i).le.phys_out_lonmin(iff)) imin_ins=i IF (io_lon(i).le.phys_out_lonmax(iff)) imax_ins=i+1 ENDDO DO j=1,jjmp1 WRITE(lunout,*)'io_lat(j)=',io_lat(j) IF (io_lat(j).ge.phys_out_latmin(iff)) jmax_ins=j+1 IF (io_lat(j).ge.phys_out_latmax(iff)) jmin_ins=j ENDDO WRITE(lunout,*)'On stoke le fichier histoire numero ',iff,' sur ', & imin_ins,imax_ins,jmin_ins,jmax_ins WRITE(lunout,*)'longitudes : ', & io_lon(imin_ins),io_lon(imax_ins), & 'latitudes : ', & io_lat(jmax_ins),io_lat(jmin_ins) CALL histbeg(phys_out_filenames(iff),nbp_lon,io_lon,jjmp1,io_lat, & imin_ins,imax_ins-imin_ins+1, & jmin_ins,jmax_ins-jmin_ins+1, & itau_phy,zjulian,dtime,nhorim(iff),nid_files(iff)) !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!! !IM fichiers stations ELSE IF (clef_stations(iff)) THEN IF (prt_level >= 10) THEN WRITE(lunout,*)'phys_output_open: iff=',iff,' phys_out_filenames(iff)=',phys_out_filenames(iff) ENDIF CALL histbeg_phy_all(rlon,rlat,pim,tabij,ipt,jpt,plon,plat,plon_bounds,plat_bounds, & phys_out_filenames(iff), & itau_phy,zjulian,dtime,nhorim(iff),nid_files(iff)) ELSE IF (prt_level >= 10) THEN WRITE(lunout,*)'phys_output_open: iff=',iff,' phys_out_filenames(iff)=',phys_out_filenames(iff) ENDIF CALL histbeg_phy_all(phys_out_filenames(iff),itau_phy,zjulian,& dtime,nhorim(iff),nid_files(iff)) ENDIF #ifndef CPP_IOIPSL_NO_OUTPUT IF (iff.LE.6.OR.iff.EQ.10) THEN CALL histvert(nid_files(iff), "presnivs", "Vertical levels", "Pa", & levmax(iff) - levmin(iff) + 1, & presnivs(levmin(iff):levmax(iff)), nvertm(iff),"down") !!!! Composantes de la coordonnee sigma-hybride CALL histvert(nid_files(iff), "Ahyb","Ahyb comp of Hyb Cord ", "Pa", & levmax(iff) - levmin(iff) + 1,aps,nvertap(iff)) CALL histvert(nid_files(iff), "Bhyb","Bhyb comp of Hyb Cord", " ", & levmax(iff) - levmin(iff) + 1,bps,nvertbp(iff)) CALL histvert(nid_files(iff), "Alt","Height approx for scale heigh of 8km at levels", "Km", & levmax(iff) - levmin(iff) + 1,pseudoalt,nvertAlt(iff)) ELSE ! NMC files CALL histvert(nid_files(iff), "plev", "pressure", "Pa", & levmax(iff) - levmin(iff) + 1, & rlevSTD(levmin(iff):levmax(iff)), nvertm(iff), "down") ENDIF #endif ENDIF ! clef_files IF (nqtot>=nqo+1) THEN ! DO iq=nqo+1,nqtot iiq=niadv(iq) o_trac(iq-nqo) = ctrl_out((/ 1, 5, 5, 5, 10, 10, 11, 11, 11, 11 /), & tname(iiq),'Tracer '//ttext(iiq), "-", & (/ '', '', '', '', '', '', '', '', '', '' /)) o_dtr_vdf(iq-nqo) = ctrl_out((/ 4, 7, 7, 7, 10, 10, 11, 11, 11, 11 /), & 'd'//trim(tname(iq))//'_vdf', & 'Tendance tracer '//ttext(iiq), "-" , & (/ '', '', '', '', '', '', '', '', '', '' /)) o_dtr_the(iq-nqo) = ctrl_out((/ 5, 7, 7, 7, 10, 10, 11, 11, 11, 11 /), & 'd'//trim(tname(iq))//'_the', & 'Tendance tracer '//ttext(iiq), "-", & (/ '', '', '', '', '', '', '', '', '', '' /)) o_dtr_con(iq-nqo) = ctrl_out((/ 5, 7, 7, 7, 10, 10, 11, 11, 11, 11 /), & 'd'//trim(tname(iq))//'_con', & 'Tendance tracer '//ttext(iiq), "-", & (/ '', '', '', '', '', '', '', '', '', '' /)) o_dtr_lessi_impa(iq-nqo) = ctrl_out((/ 7, 7, 7, 7, 10, 10, 11, 11, 11, 11 /), & 'd'//trim(tname(iq))//'_lessi_impa', & 'Tendance tracer '//ttext(iiq), "-", & (/ '', '', '', '', '', '', '', '', '', '' /)) o_dtr_lessi_nucl(iq-nqo) = ctrl_out((/ 7, 7, 7, 7, 10, 10, 11, 11, 11, 11 /), & 'd'//trim(tname(iq))//'_lessi_nucl', & 'Tendance tracer '//ttext(iiq), "-", & (/ '', '', '', '', '', '', '', '', '', '' /)) o_dtr_insc(iq-nqo) = ctrl_out((/ 7, 7, 7, 7, 10, 10, 11, 11, 11, 11 /), & 'd'//trim(tname(iq))//'_insc', & 'Tendance tracer '//ttext(iiq), "-", & (/ '', '', '', '', '', '', '', '', '', '' /)) o_dtr_bcscav(iq-nqo) = ctrl_out((/ 7, 7, 7, 7, 10, 10, 11, 11, 11, 11 /), & 'd'//trim(tname(iq))//'_bcscav', & 'Tendance tracer '//ttext(iiq), "-", & (/ '', '', '', '', '', '', '', '', '', '' /)) o_dtr_evapls(iq-nqo) = ctrl_out((/ 7, 7, 7, 7, 10, 10, 11, 11, 11, 11 /), & 'd'//trim(tname(iq))//'_evapls', & 'Tendance tracer '//ttext(iiq), "-", & (/ '', '', '', '', '', '', '', '', '', '' /)) o_dtr_ls(iq-nqo) = ctrl_out((/ 7, 7, 7, 7, 10, 10, 11, 11, 11, 11 /), & 'd'//trim(tname(iq))//'_ls', & 'Tendance tracer '//ttext(iiq), "-", & (/ '', '', '', '', '', '', '', '', '', '' /)) o_dtr_trsp(iq-nqo) = ctrl_out((/ 7, 7, 7, 7, 10, 10, 11, 11, 11, 11 /), & 'd'//trim(tname(iq))//'_trsp', & 'Tendance tracer '//ttext(iiq), "-", & (/ '', '', '', '', '', '', '', '', '', '' /)) o_dtr_sscav(iq-nqo) = ctrl_out((/ 7, 7, 7, 7, 10, 10, 11, 11, 11, 11 /), & 'd'//trim(tname(iq))//'_sscav', & 'Tendance tracer '//ttext(iiq), "-", & (/ '', '', '', '', '', '', '', '', '', '' /)) o_dtr_sat(iq-nqo) = ctrl_out((/ 7, 7, 7, 7, 10, 10, 11, 11, 11, 11 /), & 'd'//trim(tname(iq))//'_sat', & 'Tendance tracer '//ttext(iiq), "-", & (/ '', '', '', '', '', '', '', '', '', '' /)) o_dtr_uscav(iq-nqo) = ctrl_out((/ 7, 7, 7, 7, 10, 10, 11, 11, 11, 11 /), & 'd'//trim(tname(iq))//'_uscav', & 'Tendance tracer '//ttext(iiq), "-", & (/ '', '', '', '', '', '', '', '', '', '' /)) o_dtr_dry(iq-nqo) = ctrl_out((/ 7, 7, 7, 7, 10, 10, 11, 11, 11, 11 /), & 'cum'//'d'//trim(tname(iq))//'_dry', & 'tracer tendency dry deposition'//ttext(iiq), "-", & (/ '', '', '', '', '', '', '', '', '', '' /)) o_trac_cum(iq-nqo) = ctrl_out((/ 1, 4, 10, 10, 10, 10, 11, 11, 11, 11 /), & 'cum'//tname(iiq),& 'Cumulated tracer '//ttext(iiq), "-", & (/ '', '', '', '', '', '', '', '', '', '' /)) ENDDO ENDIF IF (type_trac=='repr') THEN #ifdef REPROBUS DO iiq=1,nbnas o_nas(iiq) = ctrl_out((/ 4, 5, 5, 5, 10, 10, 11, 11, 11, 11 /), & tnamenas(iiq),ttextnas(iiq), "-", & (/ '', '', '', '', '', '', '', '', '', '' /)) ENDDO #endif ENDIF ENDDO ! iff ! Updated write frequencies due to phys_out_filetimesteps. ! Write frequencies are now in seconds. ecrit_mth = ecrit_files(1) ecrit_day = ecrit_files(2) ecrit_hf = ecrit_files(3) ecrit_ins = ecrit_files(4) ecrit_LES = ecrit_files(5) ecrit_ins = ecrit_files(6) IF (prt_level >= 10) THEN WRITE(lunout,*)'swaerofree_diag=',swaerofree_diag WRITE(lunout,*)'swaero_diag=',swaero_diag WRITE(lunout,*)'dryaod_diag=',dryaod_diag WRITE(lunout,*)'ok_4xCO2atm=',ok_4xCO2atm WRITE(lunout,*)'phys_output_open: ends here' ENDIF END SUBROUTINE phys_output_open SUBROUTINE convers_timesteps(str,dtime,timestep) use ioipsl USE phys_cal_mod USE time_phylmdz_mod, ONLY: day_ref, annee_ref USE print_control_mod, ONLY: lunout IMPLICIT NONE CHARACTER(LEN=20) :: str CHARACTER(LEN=10) :: type INTEGER :: ipos,il real :: ttt,xxx,timestep,dayseconde,dtime parameter (dayseconde=86400.) ipos=scan(str,'0123456789.',.TRUE.) ! il=len_trim(str) WRITE(lunout,*) "ipos = ", ipos WRITE(lunout,*) "il = ", il IF (ipos == 0) CALL abort_physic("convers_timesteps", "bad str", 1) read(str(1:ipos),*) ttt WRITE(lunout,*)ttt type=str(ipos+1:il) IF ( il == ipos ) THEN type='day' ENDIF IF ( type == 'day'.or.type == 'days'.or.type == 'jours'.or.type == 'jour' ) timestep = ttt * dayseconde IF ( type == 'mounths'.or.type == 'mth'.or.type == 'mois' ) THEN WRITE(lunout,*)'annee_ref,day_ref mon_len',annee_ref,day_ref,mth_len timestep = ttt * dayseconde * mth_len ENDIF IF ( type == 'hours'.or.type == 'hr'.or.type == 'heurs') timestep = ttt * dayseconde / 24. IF ( type == 'mn'.or.type == 'minutes' ) timestep = ttt * 60. IF ( type == 's'.or.type == 'sec'.or.type == 'secondes' ) timestep = ttt IF ( type == 'TS' ) timestep = ttt * dtime WRITE(lunout,*)'type = ',type WRITE(lunout,*)'nb j/h/m = ',ttt WRITE(lunout,*)'timestep(s)=',timestep END SUBROUTINE convers_timesteps END MODULE phys_output_mod