! $Id: infotrac.F90 3869 2021-03-29 09:22:09Z emillour $ ! MODULE infotrac ! nqtot : total number of tracers and higher order of moment, water vapor and liquid included INTEGER, SAVE :: nqtot !CR: on ajoute le nombre de traceurs de l eau INTEGER, SAVE :: nqo ! nbtr : number of tracers not including higher order of moment or water vapor or liquid ! number of tracers used in the physics INTEGER, SAVE :: nbtr ! CRisi: nb traceurs pères= directement advectés par l'air INTEGER, SAVE :: nqperes ! ThL: nb traceurs spécifiques à INCA INTEGER, SAVE :: nqINCA ! Name variables CHARACTER(len=20), ALLOCATABLE, DIMENSION(:), SAVE :: tname ! tracer short name for restart and diagnostics CHARACTER(len=23), ALLOCATABLE, DIMENSION(:), SAVE :: ttext ! tracer long name for diagnostics ! iadv : index of trasport schema for each tracer INTEGER, ALLOCATABLE, DIMENSION(:), SAVE :: iadv ! niadv : vector keeping the coorspondance between all tracers(nqtot) treated in the ! dynamic part of the code and the tracers (nbtr+2) used in the physics part of the code. INTEGER, ALLOCATABLE, DIMENSION(:), SAVE :: niadv ! equivalent dyn / physique ! CRisi: tableaux de fils INTEGER, ALLOCATABLE, DIMENSION(:), SAVE :: nqfils INTEGER, ALLOCATABLE, DIMENSION(:), SAVE :: nqdesc ! nombres de fils + nombre de tous les petits fils sur toutes les générations INTEGER, SAVE :: nqdesc_tot INTEGER, ALLOCATABLE, DIMENSION(:,:), SAVE :: iqfils INTEGER, ALLOCATABLE, DIMENSION(:), SAVE :: iqpere REAL :: qperemin,masseqmin,ratiomin ! MVals et CRisi PARAMETER (qperemin=1e-16,masseqmin=1e-16,ratiomin=1e-16) ! MVals ! conv_flg(it)=0 : convection desactivated for tracer number it INTEGER, ALLOCATABLE, DIMENSION(:), SAVE :: conv_flg ! pbl_flg(it)=0 : boundary layer diffusion desactivaded for tracer number it INTEGER, ALLOCATABLE, DIMENSION(:), SAVE :: pbl_flg CHARACTER(len=4),SAVE :: type_trac CHARACTER(len=8),DIMENSION(:),ALLOCATABLE, SAVE :: solsym ! CRisi: cas particulier des isotopes LOGICAL,SAVE :: ok_isotopes,ok_iso_verif,ok_isotrac,ok_init_iso INTEGER :: niso_possibles PARAMETER ( niso_possibles=5) REAL, DIMENSION (niso_possibles),SAVE :: tnat,alpha_ideal LOGICAL, DIMENSION(niso_possibles),SAVE :: use_iso INTEGER, ALLOCATABLE, DIMENSION(:,:), SAVE :: iqiso ! donne indice iq en fn de (ixt,phase) INTEGER, ALLOCATABLE, DIMENSION(:), SAVE :: iso_num ! donne numéro iso entre 1 et niso_possibles en fn de nqtot INTEGER, ALLOCATABLE, DIMENSION(:), SAVE :: iso_indnum ! donne numéro iso entre 1 et niso effectif en fn de nqtot INTEGER, ALLOCATABLE, DIMENSION(:), SAVE :: zone_num ! donne numéro de la zone de tracage en fn de nqtot INTEGER, ALLOCATABLE, DIMENSION(:), SAVE :: phase_num ! donne numéro de la zone de tracage en fn de nqtot INTEGER, DIMENSION(niso_possibles), SAVE :: indnum_fn_num ! donne indice entre entre 1 et niso en fonction du numéro d isotope entre 1 et niso_possibles INTEGER, ALLOCATABLE, DIMENSION(:,:), SAVE :: index_trac ! numéro ixt en fn izone, indnum entre 1 et niso INTEGER,SAVE :: niso,ntraceurs_zone,ntraciso #ifdef CPP_StratAer !--CK/OB for stratospheric aerosols INTEGER, SAVE :: nbtr_bin INTEGER, SAVE :: nbtr_sulgas INTEGER, SAVE :: id_OCS_strat INTEGER, SAVE :: id_SO2_strat INTEGER, SAVE :: id_H2SO4_strat INTEGER, SAVE :: id_BIN01_strat INTEGER, SAVE :: id_TEST_strat #endif CONTAINS SUBROUTINE infotrac_init USE control_mod, ONLY: planet_type, config_inca USE carbon_cycle_mod, ONLY : carbon_cycle_cpl #ifdef REPROBUS USE CHEM_REP, ONLY : Init_chem_rep_trac #endif IMPLICIT NONE !======================================================================= ! ! Auteur: P. Le Van /L. Fairhead/F.Hourdin ! ------- ! Modif special traceur F.Forget 05/94 ! Modif M-A Filiberti 02/02 lecture de traceur.def ! ! Objet: ! ------ ! GCM LMD nouvelle grille ! !======================================================================= ! ... modification de l'integration de q ( 26/04/94 ) .... !----------------------------------------------------------------------- ! Declarations INCLUDE "dimensions.h" INCLUDE "iniprint.h" ! Local variables INTEGER, ALLOCATABLE, DIMENSION(:) :: hadv ! index of horizontal trasport schema INTEGER, ALLOCATABLE, DIMENSION(:) :: vadv ! index of vertical trasport schema INTEGER, ALLOCATABLE, DIMENSION(:) :: hadv_inca ! index of horizontal trasport schema INTEGER, ALLOCATABLE, DIMENSION(:) :: vadv_inca ! index of vertical trasport schema CHARACTER(len=15), ALLOCATABLE, DIMENSION(:) :: tnom_0 ! tracer short name CHARACTER(len=15), ALLOCATABLE, DIMENSION(:) :: tnom_transp ! transporting fluid short name: CRisi CHARACTER(len=3), DIMENSION(30) :: descrq CHARACTER(len=1), DIMENSION(3) :: txts CHARACTER(len=2), DIMENSION(9) :: txtp CHARACTER(len=23) :: str1,str2 INTEGER :: nqtrue ! number of tracers read from tracer.def, without higer order of moment INTEGER :: iq, new_iq, iiq, jq, ierr INTEGER :: ifils,ipere,generation ! CRisi LOGICAL :: continu,nouveau_traceurdef INTEGER :: IOstatus ! gestion de la retrocompatibilite de traceur.def CHARACTER(len=15) :: tchaine character(len=*),parameter :: modname="infotrac_init" INTEGER :: nqexcl ! ThL. Nb de traceurs dans traceur.def. Egal à nqtrue, ! sauf pour 'inca' = nqtrue-nbtr, et 'inco' = 4. !----------------------------------------------------------------------- ! Initialization : ! txts=(/'x','y','z'/) txtp=(/'x ','y ','z ','xx','xy','xz','yy','yz','zz'/) descrq(14)='VLH' descrq(10)='VL1' descrq(11)='VLP' descrq(12)='FH1' descrq(13)='FH2' descrq(16)='PPM' descrq(17)='PPS' descrq(18)='PPP' descrq(20)='SLP' descrq(30)='PRA' ! Coherence test between parameter type_trac, config_inca and preprocessing keys IF (type_trac=='inca') THEN WRITE(lunout,*) 'You have chosen to couple with INCA chemistry model : type_trac=', & type_trac,' config_inca=',config_inca IF (config_inca/='aero' .AND. config_inca/='aeNP' .AND. config_inca/='chem') THEN WRITE(lunout,*) 'Incoherence between type_trac and config_inca. Model stops. Modify run.def' CALL abort_gcm('infotrac_init','Incoherence between type_trac and config_inca',1) END IF #ifndef INCA WRITE(lunout,*) 'To run this option you must add cpp key INCA and compile with INCA code' CALL abort_gcm('infotrac_init','You must compile with cpp key INCA',1) #endif ELSE IF (type_trac=='repr') THEN WRITE(lunout,*) 'You have chosen to couple with REPROBUS chemestry model : type_trac=', type_trac #ifndef REPROBUS WRITE(lunout,*) 'To run this option you must add cpp key REPROBUS and compile with REPRPBUS code' CALL abort_gcm('infotrac_init','You must compile with cpp key REPROBUS',1) #endif ELSE IF (type_trac == 'co2i') THEN WRITE(lunout,*) 'You have chosen to run with CO2 cycle: type_trac=', type_trac ELSE IF (type_trac == 'coag') THEN WRITE(lunout,*) 'Tracers are treated for COAGULATION tests : type_trac=', type_trac #ifndef CPP_StratAer WRITE(lunout,*) 'To run this option you must add cpp key StratAer and compile with StratAer code' CALL abort_gcm('infotrac_init','You must compile with cpp key StratAer',1) #endif ELSE IF (type_trac == 'lmdz') THEN WRITE(lunout,*) 'Tracers are treated in LMDZ only : type_trac=', type_trac ELSE IF (type_trac == 'inco') THEN ! ThL WRITE(lunout,*) 'Using jointly INCA and CO2 cycle: type_trac =', type_trac IF (config_inca/='aero' .AND. config_inca/='aeNP' .AND. config_inca/='chem') THEN WRITE(lunout,*) 'Incoherence between type_trac and config_inca. Model stops. Modify run.def' CALL abort_gcm('infotrac_init','Incoherence between type_trac and config_inca',1) END IF #ifndef INCA WRITE(lunout,*) 'To run this option you must add cpp key INCA and compilewith INCA code' CALL abort_gcm('infotrac_init','You must compile with cpp key INCA',1) #endif ELSE WRITE(lunout,*) 'type_trac=',type_trac,' not possible. Model stops' CALL abort_gcm('infotrac_init','bad parameter',1) END IF ! Test if config_inca is other then none for run without INCA IF (type_trac/='inca' .AND. type_trac/='inco' .AND. config_inca/='none') THEN WRITE(lunout,*) 'config_inca will now be changed to none as you do not couple with INCA model' config_inca='none' END IF !----------------------------------------------------------------------- ! ! 1) Get the true number of tracers + water vapor/liquid ! Here true tracers (nqtrue) means declared tracers (only first order) ! !----------------------------------------------------------------------- IF (type_trac == 'lmdz' .OR. type_trac == 'repr' .OR. type_trac == 'coag' .OR. type_trac == 'co2i') THEN OPEN(90,file='traceur.def',form='formatted',status='old', iostat=ierr) IF(ierr.EQ.0) THEN WRITE(lunout,*) trim(modname),': Open traceur.def : ok' READ(90,*) nqtrue write(lunout,*) 'nqtrue=',nqtrue ELSE WRITE(lunout,*) trim(modname),': Problem in opening traceur.def' WRITE(lunout,*) trim(modname),': WARNING using defaut values' IF (planet_type=='earth') THEN nqtrue=4 ! Default value for Earth ELSE nqtrue=1 ! Default value for other planets ENDIF ENDIF nqexcl=nqtrue !jyg< !! if ( planet_type=='earth') then !! ! For Earth, water vapour & liquid tracers are not in the physics !! nbtr=nqtrue-2 !! else !! ! Other planets (for now); we have the same number of tracers !! ! in the dynamics than in the physics !! nbtr=nqtrue !! endif !>jyg ELSE ! type_trac=inca (or inco ThL) !jyg< ! The traceur.def file is used to define the number "nqo" of water phases ! present in the simulation. Default : nqo = 2. OPEN(90,file='traceur.def',form='formatted',status='old', iostat=ierr) IF(ierr.EQ.0) THEN WRITE(lunout,*) trim(modname),': Open traceur.def : ok' READ(90,*) nqo ELSE WRITE(lunout,*) trim(modname),': Using default value for nqo' nqo=2 ENDIF IF (nqo /= 2 .AND. nqo /= 3 ) THEN IF (nqo == 4 .AND. type_trac=='inco') THEN ! ThL WRITE(lunout,*) trim(modname),': you are coupling with INCA, and also using CO2i.' nqo = 3 ! A améliorier... je force 3 traceurs eau... ThL WRITE(lunout,*) trim(modname),': nqo = ',nqo ELSE WRITE(lunout,*) trim(modname),': nqo=',nqo, ' is not allowed. Only 2 or 3 water phases allowed' CALL abort_gcm('infotrac_init','Bad number of water phases',1) ENDIF END IF ! nbtr has been read from INCA by init_const_lmdz() in gcm.F #ifdef INCA CALL Init_chem_inca_trac(nbtr) #endif IF (type_trac=='inco') THEN ! Add ThL nqexcl = nqo+1 ! Tracers excluding INCA's = water + CO2 in 'inco' case ELSE nqexcl = nqo ! Tracers excluding INCA's = water ENDIF nqtrue = nbtr + nqexcl ! Total nb of tracers = INCA's + traceur.def IF (type_trac=='inco') THEN ! nqINCA = nbtr ! nbtr = other tracers than H2O = INCA's + CO2i nbtr = nqINCA + 1 ! ELSEIF (type_trac=='inca') THEN ! nqINCA = nbtr ! ELSE ! nqINCA = 0 ! ENDIF ! WRITE(lunout,*) trim(modname),': nqo = ',nqo WRITE(lunout,*) trim(modname),': nbtr = ',nbtr WRITE(lunout,*) trim(modname),': nqexcl = ',nqexcl WRITE(lunout,*) trim(modname),': nqtrue = ',nqtrue WRITE(lunout,*) trim(modname),': nqINCA = ',nqINCA ALLOCATE(hadv_inca(nqINCA), vadv_inca(nqINCA)) ! ThL ENDIF ! type_trac !>jyg IF ((planet_type=="earth").and.(nqtrue < 2)) THEN WRITE(lunout,*) trim(modname),': nqtrue=',nqtrue, ' is not allowded. 2 tracers is the minimum' CALL abort_gcm('infotrac_init','Not enough tracers',1) END IF !jyg< ! Transfert number of tracers to Reprobus !! IF (type_trac == 'repr') THEN !!#ifdef REPROBUS !! CALL Init_chem_rep_trac(nbtr) !!#endif !! END IF !>jyg ! ! Allocate variables depending on nqtrue ! ALLOCATE(tnom_0(nqtrue), hadv(nqtrue), vadv(nqtrue),tnom_transp(nqtrue)) ! !jyg< !! ALLOCATE(conv_flg(nbtr), pbl_flg(nbtr), solsym(nbtr)) !! conv_flg(:) = 1 ! convection activated for all tracers !! pbl_flg(:) = 1 ! boundary layer activated for all tracers !>jyg !----------------------------------------------------------------------- ! 2) Choix des schemas d'advection pour l'eau et les traceurs ! ! iadv = 1 schema transport type "humidite specifique LMD" ! iadv = 2 schema amont ! iadv = 14 schema Van-leer + humidite specifique ! Modif F.Codron ! iadv = 10 schema Van-leer (retenu pour l'eau vapeur et liquide) ! iadv = 11 schema Van-Leer pour hadv et version PPM (Monotone) pour vadv ! iadv = 12 schema Frederic Hourdin I ! iadv = 13 schema Frederic Hourdin II ! iadv = 16 schema PPM Monotone(Collela & Woodward 1984) ! iadv = 17 schema PPM Semi Monotone (overshoots autorisés) ! iadv = 18 schema PPM Positif Defini (overshoots undershoots autorisés) ! iadv = 20 schema Slopes ! iadv = 30 schema Prather ! ! Dans le tableau q(ij,l,iq) : iq = 1 pour l'eau vapeur ! iq = 2 pour l'eau liquide ! Et eventuellement iq = 3,nqtot pour les autres traceurs ! ! iadv(1): choix pour l'eau vap. et iadv(2) : choix pour l'eau liq. !------------------------------------------------------------------------ ! ! Get choice of advection schema from file tracer.def or from INCA !--------------------------------------------------------------------- IF (type_trac == 'lmdz' .OR. type_trac == 'repr' .OR. type_trac == 'coag' .OR. type_trac == 'co2i') THEN IF(ierr.EQ.0) THEN ! Continue to read tracer.def DO iq=1,nqtrue write(*,*) 'infotrac 237: iq=',iq ! CRisi: ajout du nom du fluide transporteur ! mais rester retro compatible READ(90,'(I2,X,I2,X,A)',IOSTAT=IOstatus) hadv(iq),vadv(iq),tchaine write(lunout,*) 'iq,hadv(iq),vadv(iq)=',iq,hadv(iq),vadv(iq) write(lunout,*) 'tchaine=',trim(tchaine) write(*,*) 'infotrac 238: IOstatus=',IOstatus if (IOstatus.ne.0) then CALL abort_gcm('infotrac_init','Pb dans la lecture de traceur.def',1) endif ! Y-a-t-il 1 ou 2 noms de traceurs? -> On regarde s'il y a un ! espace ou pas au milieu de la chaine. continu=.true. nouveau_traceurdef=.false. iiq=1 do while (continu) if (tchaine(iiq:iiq).eq.' ') then nouveau_traceurdef=.true. continu=.false. else if (iiq.lt.LEN_TRIM(tchaine)) then iiq=iiq+1 else continu=.false. endif enddo write(*,*) 'iiq,nouveau_traceurdef=',iiq,nouveau_traceurdef if (nouveau_traceurdef) then write(lunout,*) 'C''est la nouvelle version de traceur.def' tnom_0(iq)=tchaine(1:iiq-1) tnom_transp(iq)=tchaine(iiq+1:15) else write(lunout,*) 'C''est l''ancienne version de traceur.def' write(lunout,*) 'On suppose que les traceurs sont tous d''air' tnom_0(iq)=tchaine tnom_transp(iq) = 'air' endif write(lunout,*) 'tnom_0(iq)=<',trim(tnom_0(iq)),'>' write(lunout,*) 'tnom_transp(iq)=<',trim(tnom_transp(iq)),'>' END DO !DO iq=1,nqtrue CLOSE(90) ELSE ! Without tracer.def, set default values if (planet_type=="earth") then ! for Earth, default is to have 4 tracers hadv(1) = 14 vadv(1) = 14 tnom_0(1) = 'H2Ov' tnom_transp(1) = 'air' hadv(2) = 10 vadv(2) = 10 tnom_0(2) = 'H2Ol' tnom_transp(2) = 'air' hadv(3) = 10 vadv(3) = 10 tnom_0(3) = 'RN' tnom_transp(3) = 'air' hadv(4) = 10 vadv(4) = 10 tnom_0(4) = 'PB' tnom_transp(4) = 'air' else ! default for other planets hadv(1) = 10 vadv(1) = 10 tnom_0(1) = 'dummy' tnom_transp(1) = 'dummy' endif ! of if (planet_type=="earth") END IF WRITE(lunout,*) trim(modname),': Valeur de traceur.def :' WRITE(lunout,*) trim(modname),': nombre total de traceurs ',nqtrue WRITE(lunout,*) trim(modname),': nombre de traceurs dans traceur.def ',nqexcl DO iq=1,nqtrue WRITE(lunout,*) hadv(iq),vadv(iq),tnom_0(iq),tnom_transp(iq) END DO IF ( planet_type=='earth') THEN !CR: nombre de traceurs de l eau IF (tnom_0(3) == 'H2Oi') THEN nqo=3 ELSE nqo=2 ENDIF ! For Earth, water vapour & liquid tracers are not in the physics nbtr=nqtrue-nqo ELSE ! Other planets (for now); we have the same number of tracers ! in the dynamics than in the physics nbtr=nqtrue ENDIF #ifdef CPP_StratAer IF (type_trac == 'coag') THEN nbtr_bin=0 nbtr_sulgas=0 DO iq=1,nqtrue IF (tnom_0(iq)(1:3)=='BIN') THEN !check if tracer name contains 'BIN' nbtr_bin=nbtr_bin+1 ENDIF IF (tnom_0(iq)(1:3)=='GAS') THEN !check if tracer name contains 'GAS' nbtr_sulgas=nbtr_sulgas+1 ENDIF ENDDO print*,'nbtr_bin=',nbtr_bin print*,'nbtr_sulgas=',nbtr_sulgas DO iq=1,nqtrue IF (tnom_0(iq)=='GASOCS') THEN id_OCS_strat=iq-nqo ENDIF IF (tnom_0(iq)=='GASSO2') THEN id_SO2_strat=iq-nqo ENDIF IF (tnom_0(iq)=='GASH2SO4') THEN id_H2SO4_strat=iq-nqo ENDIF IF (tnom_0(iq)=='BIN01') THEN id_BIN01_strat=iq-nqo ENDIF IF (tnom_0(iq)=='GASTEST') THEN id_TEST_strat=iq-nqo ENDIF ENDDO print*,'id_OCS_strat =',id_OCS_strat print*,'id_SO2_strat =',id_SO2_strat print*,'id_H2SO4_strat=',id_H2SO4_strat print*,'id_BIN01_strat=',id_BIN01_strat ENDIF #endif ENDIF ! (type_trac == 'lmdz' .OR. type_trac == 'repr' .OR. type_trac = 'coag' .OR. type_trac = 'co2i') !jyg< ! ! Transfert number of tracers to Reprobus IF (type_trac == 'repr') THEN #ifdef REPROBUS CALL Init_chem_rep_trac(nbtr,nqo,tnom_0) #endif END IF ! ! Allocate variables depending on nbtr ! ALLOCATE(conv_flg(nbtr), pbl_flg(nbtr), solsym(nbtr)) conv_flg(:) = 1 ! convection activated for all tracers pbl_flg(:) = 1 ! boundary layer activated for all tracers ! !! ELSE ! type_trac=inca : config_inca='aero' ou 'chem' ! IF (type_trac == 'inca') THEN ! config_inca='aero' ou 'chem' !>jyg ! le module de chimie fournit les noms des traceurs ! et les schemas d'advection associes. excepte pour ceux lus ! dans traceur.def IF (ierr .eq. 0) then DO iq=1,nqo write(*,*) 'infotrac 237: iq=',iq ! CRisi: ajout du nom du fluide transporteur ! mais rester retro compatible READ(90,'(I2,X,I2,X,A)',IOSTAT=IOstatus) hadv(iq),vadv(iq),tchaine write(lunout,*) 'iq,hadv(iq),vadv(iq)=',iq,hadv(iq),vadv(iq) write(lunout,*) 'tchaine=',trim(tchaine) write(*,*) 'infotrac 238: IOstatus=',IOstatus if (IOstatus.ne.0) then CALL abort_gcm('infotrac_init','Pb dans la lecture de traceur.def',1) endif ! Y-a-t-il 1 ou 2 noms de traceurs? -> On regarde s'il y a un ! espace ou pas au milieu de la chaine. continu=.true. nouveau_traceurdef=.false. iiq=1 do while (continu) if (tchaine(iiq:iiq).eq.' ') then nouveau_traceurdef=.true. continu=.false. else if (iiq.lt.LEN_TRIM(tchaine)) then iiq=iiq+1 else continu=.false. endif enddo write(*,*) 'iiq,nouveau_traceurdef=',iiq,nouveau_traceurdef if (nouveau_traceurdef) then write(lunout,*) 'C''est la nouvelle version de traceur.def' tnom_0(iq)=tchaine(1:iiq-1) tnom_transp(iq)=tchaine(iiq+1:15) else write(lunout,*) 'C''est l''ancienne version de traceur.def' write(lunout,*) 'On suppose que les traceurs sont tous d''air' tnom_0(iq)=tchaine tnom_transp(iq) = 'air' endif write(lunout,*) 'tnom_0(iq)=<',trim(tnom_0(iq)),'>' write(lunout,*) 'tnom_transp(iq)=<',trim(tnom_transp(iq)),'>' END DO !DO iq=1,nqo CLOSE(90) ELSE !! if traceur.def doesn't exist tnom_0(1)='H2Ov' tnom_transp(1) = 'air' tnom_0(2)='H2Ol' tnom_transp(2) = 'air' hadv(1) = 10 hadv(2) = 10 vadv(1) = 10 vadv(2) = 10 ENDIF #ifdef INCA CALL init_transport( & hadv_inca, & vadv_inca, & conv_flg, & pbl_flg, & solsym) #endif !jyg< DO iq = nqo+1, nqtrue hadv(iq) = hadv_inca(iq-nqo) vadv(iq) = vadv_inca(iq-nqo) tnom_0(iq)=solsym(iq-nqo) tnom_transp(iq) = 'air' END DO END IF ! (type_trac == 'inca') !< add ThL case 'inco' IF (type_trac == 'inco') THEN ! le module de chimie fournit les noms des traceurs ! et les schemas d'advection associes. excepte pour ceux lus ! dans traceur.def IF (ierr .eq. 0) then DO iq=1,nqexcl write(*,*) 'infotrac 237: iq=',iq ! CRisi: ajout du nom du fluide transporteur ! mais rester retro compatible READ(90,'(I2,X,I2,X,A)',IOSTAT=IOstatus) hadv(iq),vadv(iq),tchaine write(lunout,*) 'iq,hadv(iq),vadv(iq)=',iq,hadv(iq),vadv(iq) write(lunout,*) 'tchaine=',trim(tchaine) write(*,*) 'infotrac 238: IOstatus=',IOstatus if (IOstatus.ne.0) then CALL abort_gcm('infotrac_init','Pb dans la lecture de traceur.def',1) endif ! Y-a-t-il 1 ou 2 noms de traceurs? -> On regarde s'il y a un ! espace ou pas au milieu de la chaine. continu=.true. nouveau_traceurdef=.false. iiq=1 do while (continu) if (tchaine(iiq:iiq).eq.' ') then nouveau_traceurdef=.true. continu=.false. else if (iiq.lt.LEN_TRIM(tchaine)) then iiq=iiq+1 else continu=.false. endif enddo write(*,*) 'iiq,nouveau_traceurdef=',iiq,nouveau_traceurdef if (nouveau_traceurdef) then write(lunout,*) 'C''est la nouvelle version de traceur.def' tnom_0(iq)=tchaine(1:iiq-1) tnom_transp(iq)=tchaine(iiq+1:15) else write(lunout,*) 'C''est l''ancienne version de traceur.def' write(lunout,*) 'On suppose que les traceurs sont tous d''air' tnom_0(iq)=tchaine tnom_transp(iq) = 'air' endif write(lunout,*) 'tnom_0(iq)=<',trim(tnom_0(iq)),'>' write(lunout,*) 'tnom_transp(iq)=<',trim(tnom_transp(iq)),'>' END DO !DO iq=1,nqexcl CLOSE(90) ELSE !! if traceur.def doesn't exist tnom_0(1)='H2Ov' tnom_transp(1) = 'air' tnom_0(2)='H2Ol' tnom_transp(2) = 'air' hadv(1) = 10 hadv(2) = 10 vadv(1) = 10 vadv(2) = 10 ENDIF #ifdef INCA CALL init_transport( & hadv_inca, & vadv_inca, & conv_flg, & pbl_flg, & solsym) #endif DO iq = nqexcl+1, nqtrue hadv(iq) = hadv_inca(iq-nqexcl) ! mod. Thl : nqexcl was nqo (in order to shift) vadv(iq) = vadv_inca(iq-nqexcl) ! idem tnom_0(iq)=solsym(iq-nqexcl) ! idem tnom_transp(iq) = 'air' END DO END IF ! (type_trac == 'inco') !> add ThL case 'inco' !----------------------------------------------------------------------- ! ! 3) Verify if advection schema 20 or 30 choosen ! Calculate total number of tracers needed: nqtot ! Allocate variables depending on total number of tracers !----------------------------------------------------------------------- new_iq=0 DO iq=1,nqtrue ! Add tracers for certain advection schema IF (hadv(iq)<20 .AND. vadv(iq)<20 ) THEN new_iq=new_iq+1 ! no tracers added ELSE IF (hadv(iq)==20 .AND. vadv(iq)==20 ) THEN new_iq=new_iq+4 ! 3 tracers added ELSE IF (hadv(iq)==30 .AND. vadv(iq)==30 ) THEN new_iq=new_iq+10 ! 9 tracers added ELSE WRITE(lunout,*) trim(modname),': This choice of advection schema is not available',iq,hadv(iq),vadv(iq) CALL abort_gcm('infotrac_init','Bad choice of advection schema - 1',1) END IF END DO IF (new_iq /= nqtrue) THEN ! The choice of advection schema imposes more tracers ! Assigne total number of tracers nqtot = new_iq WRITE(lunout,*) trim(modname),': The choice of advection schema for one or more tracers' WRITE(lunout,*) 'makes it necessary to add tracers' WRITE(lunout,*) trim(modname)//': ',nqtrue,' is the number of true tracers' WRITE(lunout,*) trim(modname)//': ',nqtot, ' is the total number of tracers needed' ELSE ! The true number of tracers is also the total number nqtot = nqtrue END IF ! ! Allocate variables with total number of tracers, nqtot ! ALLOCATE(tname(nqtot), ttext(nqtot)) ALLOCATE(iadv(nqtot), niadv(nqtot)) !----------------------------------------------------------------------- ! ! 4) Determine iadv, long and short name ! !----------------------------------------------------------------------- new_iq=0 DO iq=1,nqtrue new_iq=new_iq+1 ! Verify choice of advection schema IF (hadv(iq)==vadv(iq)) THEN iadv(new_iq)=hadv(iq) ELSE IF (hadv(iq)==10 .AND. vadv(iq)==16) THEN iadv(new_iq)=11 ELSE WRITE(lunout,*)trim(modname),': This choice of advection schema is not available',iq,hadv(iq),vadv(iq) CALL abort_gcm('infotrac_init','Bad choice of advection schema - 2',1) END IF str1=tnom_0(iq) tname(new_iq)= tnom_0(iq) IF (iadv(new_iq)==0) THEN ttext(new_iq)=trim(str1) ELSE ttext(new_iq)=trim(tnom_0(iq))//descrq(iadv(new_iq)) END IF ! schemas tenant compte des moments d'ordre superieur str2=ttext(new_iq) IF (iadv(new_iq)==20) THEN DO jq=1,3 new_iq=new_iq+1 iadv(new_iq)=-20 ttext(new_iq)=trim(str2)//txts(jq) tname(new_iq)=trim(str1)//txts(jq) END DO ELSE IF (iadv(new_iq)==30) THEN DO jq=1,9 new_iq=new_iq+1 iadv(new_iq)=-30 ttext(new_iq)=trim(str2)//txtp(jq) tname(new_iq)=trim(str1)//txtp(jq) END DO END IF END DO ! ! Find vector keeping the correspodence between true and total tracers ! niadv(:)=0 iiq=0 DO iq=1,nqtot IF(iadv(iq).GE.0) THEN ! True tracer iiq=iiq+1 niadv(iiq)=iq ENDIF END DO WRITE(lunout,*) trim(modname),': Information stored in infotrac :' WRITE(lunout,*) trim(modname),': iadv niadv tname ttext :' DO iq=1,nqtot WRITE(lunout,*) iadv(iq),niadv(iq),& ' ',trim(tname(iq)),' ',trim(ttext(iq)) END DO ! ! Test for advection schema. ! This version of LMDZ only garantees iadv=10 and iadv=14 (14 only for water vapour) . ! DO iq=1,nqtot IF (iadv(iq)/=10 .AND. iadv(iq)/=14 .AND. iadv(iq)/=0) THEN WRITE(lunout,*)trim(modname),' STOP : The option iadv=',iadv(iq),' is not tested in this version of LMDZ' CALL abort_gcm('infotrac_init','In this version only iadv=10 and iadv=14 is tested!',1) ELSE IF (iadv(iq)==14 .AND. iq/=1) THEN WRITE(lunout,*)trim(modname),'STOP : The option iadv=',iadv(iq),' is not tested in this version of LMDZ' CALL abort_gcm('infotrac_init','In this version iadv=14 is only permitted for water vapour!',1) END IF END DO ! CRisi: quels sont les traceurs fils et les traceurs pères. ! initialiser tous les tableaux d'indices liés aux traceurs familiaux ! + vérifier que tous les pères sont écrits en premières positions ALLOCATE(nqfils(nqtot),nqdesc(nqtot)) ALLOCATE(iqfils(nqtot,nqtot)) ALLOCATE(iqpere(nqtot)) nqperes=0 nqfils(:)=0 nqdesc(:)=0 iqfils(:,:)=0 iqpere(:)=0 nqdesc_tot=0 DO iq=1,nqtot if (tnom_transp(iq) == 'air') then ! ceci est un traceur père WRITE(lunout,*) 'Le traceur',iq,', appele ',trim(tnom_0(iq)),', est un pere' nqperes=nqperes+1 iqpere(iq)=0 else !if (tnom_transp(iq) == 'air') then ! ceci est un fils. Qui est son père? WRITE(lunout,*) 'Le traceur',iq,', appele ',trim(tnom_0(iq)),', est un fils' continu=.true. ipere=1 do while (continu) if (tnom_transp(iq) == tnom_0(ipere)) then ! Son père est ipere WRITE(lunout,*) 'Le traceur',iq,'appele ', & & trim(tnom_0(iq)),' est le fils de ',ipere,'appele ',trim(tnom_0(ipere)) nqfils(ipere)=nqfils(ipere)+1 iqfils(nqfils(ipere),ipere)=iq iqpere(iq)=ipere continu=.false. else !if (tnom_transp(iq) == tnom_0(ipere)) then ipere=ipere+1 if (ipere.gt.nqtot) then WRITE(lunout,*) 'Le traceur',iq,'appele ', & & trim(tnom_0(iq)),', est orphelin.' CALL abort_gcm('infotrac_init','Un traceur est orphelin',1) endif !if (ipere.gt.nqtot) then endif !if (tnom_transp(iq) == tnom_0(ipere)) then enddo !do while (continu) endif !if (tnom_transp(iq) == 'air') then enddo !DO iq=1,nqtot WRITE(lunout,*) 'infotrac: nqperes=',nqperes WRITE(lunout,*) 'nqfils=',nqfils WRITE(lunout,*) 'iqpere=',iqpere WRITE(lunout,*) 'iqfils=',iqfils ! Calculer le nombre de descendants à partir de iqfils et de nbfils DO iq=1,nqtot generation=0 continu=.true. ifils=iq do while (continu) ipere=iqpere(ifils) if (ipere.gt.0) then nqdesc(ipere)=nqdesc(ipere)+1 nqdesc_tot=nqdesc_tot+1 iqfils(nqdesc(ipere),ipere)=iq ifils=ipere generation=generation+1 else !if (ipere.gt.0) then continu=.false. endif !if (ipere.gt.0) then enddo !do while (continu) WRITE(lunout,*) 'Le traceur ',iq,', appele ',trim(tnom_0(iq)),' est un traceur de generation: ',generation enddo !DO iq=1,nqtot WRITE(lunout,*) 'infotrac: nqdesc=',nqdesc WRITE(lunout,*) 'iqfils=',iqfils WRITE(lunout,*) 'nqdesc_tot=',nqdesc_tot ! Interdire autres schémas que 10 pour les traceurs fils, et autres schémas ! que 10 et 14 si des pères ont des fils do iq=1,nqtot if (iqpere(iq).gt.0) then ! ce traceur a un père qui n'est pas l'air ! Seul le schéma 10 est autorisé if (iadv(iq)/=10) then WRITE(lunout,*)trim(modname),' STOP : The option iadv=',iadv(iq),' is not implemented for sons' CALL abort_gcm('infotrac_init','Sons should be advected by scheme 10',1) endif ! Le traceur père ne peut être advecté que par schéma 10 ou 14: IF (iadv(iqpere(iq))/=10 .AND. iadv(iqpere(iq))/=14) THEN WRITE(lunout,*)trim(modname),' STOP : The option iadv=',iadv(iq),' is not implemented for fathers' CALL abort_gcm('infotrac_init','Fathers should be advected by scheme 10 ou 14',1) endif !IF (iadv(iqpere(iq))/=10 .AND. iadv(iqpere(iq))/=14) THEN endif !if (iqpere(iq).gt.0) the enddo !do iq=1,nqtot WRITE(lunout,*) 'infotrac init fin' ! detecter quels sont les traceurs isotopiques parmi des traceurs call infotrac_isoinit(tnom_0,nqtrue) !----------------------------------------------------------------------- ! Finalize : ! DEALLOCATE(tnom_0, hadv, vadv,tnom_transp) END SUBROUTINE infotrac_init SUBROUTINE infotrac_isoinit(tnom_0,nqtrue) #ifdef CPP_IOIPSL use IOIPSL #else ! if not using IOIPSL, we still need to use (a local version of) getin use ioipsl_getincom #endif implicit none ! inputs INTEGER nqtrue CHARACTER(len=15) tnom_0(nqtrue) ! locals CHARACTER(len=3), DIMENSION(niso_possibles) :: tnom_iso INTEGER, ALLOCATABLE,DIMENSION(:,:) :: nb_iso,nb_traciso INTEGER, ALLOCATABLE,DIMENSION(:) :: nb_isoind INTEGER :: ntraceurs_zone_prec,iq,phase,ixt,iiso,izone CHARACTER(len=19) :: tnom_trac INCLUDE "iniprint.h" tnom_iso=(/'eau','HDO','O18','O17','HTO'/) ALLOCATE(nb_iso(niso_possibles,nqo)) ALLOCATE(nb_isoind(nqo)) ALLOCATE(nb_traciso(niso_possibles,nqo)) ALLOCATE(iso_num(nqtot)) ALLOCATE(iso_indnum(nqtot)) ALLOCATE(zone_num(nqtot)) ALLOCATE(phase_num(nqtot)) iso_num(:)=0 iso_indnum(:)=0 zone_num(:)=0 phase_num(:)=0 indnum_fn_num(:)=0 use_iso(:)=.false. nb_iso(:,:)=0 nb_isoind(:)=0 nb_traciso(:,:)=0 niso=0 ntraceurs_zone=0 ntraceurs_zone_prec=0 ntraciso=0 do iq=nqo+1,nqtot ! write(lunout,*) 'infotrac 569: iq,tnom_0(iq)=',iq,tnom_0(iq) do phase=1,nqo do ixt= 1,niso_possibles tnom_trac=trim(tnom_0(phase))//'_' tnom_trac=trim(tnom_trac)//trim(tnom_iso(ixt)) ! write(*,*) 'phase,ixt,tnom_trac=',phase,ixt,tnom_trac IF (tnom_0(iq) == tnom_trac) then ! write(lunout,*) 'Ce traceur est un isotope' nb_iso(ixt,phase)=nb_iso(ixt,phase)+1 nb_isoind(phase)=nb_isoind(phase)+1 iso_num(iq)=ixt iso_indnum(iq)=nb_isoind(phase) indnum_fn_num(ixt)=iso_indnum(iq) phase_num(iq)=phase ! write(lunout,*) 'iso_num(iq)=',iso_num(iq) ! write(lunout,*) 'iso_indnum(iq)=',iso_indnum(iq) ! write(lunout,*) 'indnum_fn_num(ixt)=',indnum_fn_num(ixt) ! write(lunout,*) 'phase_num(iq)=',phase_num(iq) goto 20 else if (iqpere(iq).gt.0) then if (tnom_0(iqpere(iq)) == tnom_trac) then ! write(lunout,*) 'Ce traceur est le fils d''un isotope' ! c'est un traceur d'isotope nb_traciso(ixt,phase)=nb_traciso(ixt,phase)+1 iso_num(iq)=ixt iso_indnum(iq)=indnum_fn_num(ixt) zone_num(iq)=nb_traciso(ixt,phase) phase_num(iq)=phase ! write(lunout,*) 'iso_num(iq)=',iso_num(iq) ! write(lunout,*) 'phase_num(iq)=',phase_num(iq) ! write(lunout,*) 'zone_num(iq)=',zone_num(iq) goto 20 endif !if (tnom_0(iqpere(iq)) == trim(tnom_0(phase))//trim(tnom_iso(ixt))) then endif !IF (tnom_0(iq) == trim(tnom_0(phase))//trim(tnom_iso(ixt))) then enddo !do ixt= niso_possibles enddo !do phase=1,nqo 20 continue enddo !do iq=1,nqtot ! write(lunout,*) 'iso_num=',iso_num ! write(lunout,*) 'iso_indnum=',iso_indnum ! write(lunout,*) 'zone_num=',zone_num ! write(lunout,*) 'phase_num=',phase_num ! write(lunout,*) 'indnum_fn_num=',indnum_fn_num do ixt= 1,niso_possibles if (nb_iso(ixt,1).eq.1) then ! on vérifie que toutes les phases ont le même nombre de ! traceurs do phase=2,nqo if (nb_iso(ixt,phase).ne.nb_iso(ixt,1)) then ! write(lunout,*) 'ixt,phase,nb_iso=',ixt,phase,nb_iso(ixt,phase) CALL abort_gcm('infotrac_init','Phases must have same number of isotopes',1) endif enddo !do phase=2,nqo niso=niso+1 use_iso(ixt)=.true. ntraceurs_zone=nb_traciso(ixt,1) ! on vérifie que toutes les phases ont le même nombre de ! traceurs do phase=2,nqo if (nb_traciso(ixt,phase).ne.ntraceurs_zone) then write(lunout,*) 'ixt,phase,nb_traciso=',ixt,phase,nb_traciso(ixt,phase) write(lunout,*) 'ntraceurs_zone=',ntraceurs_zone CALL abort_gcm('infotrac_init','Phases must have same number of tracers',1) endif enddo !do phase=2,nqo ! on vérifie que tous les isotopes ont le même nombre de ! traceurs if (ntraceurs_zone_prec.gt.0) then if (ntraceurs_zone.eq.ntraceurs_zone_prec) then ntraceurs_zone_prec=ntraceurs_zone else !if (ntraceurs_zone.eq.ntraceurs_zone_prec) then write(*,*) 'ntraceurs_zone_prec,ntraceurs_zone=',ntraceurs_zone_prec,ntraceurs_zone CALL abort_gcm('infotrac_init', & &'Isotope tracers are not well defined in traceur.def',1) endif !if (ntraceurs_zone.eq.ntraceurs_zone_prec) then endif !if (ntraceurs_zone_prec.gt.0) then else if (nb_iso(ixt,1).ne.0) then WRITE(lunout,*) 'nqo,ixt=',nqo,ixt WRITE(lunout,*) 'nb_iso(ixt,1)=',nb_iso(ixt,1) CALL abort_gcm('infotrac_init','Isotopes are not well defined in traceur.def',1) endif !if (nb_iso(ixt,1).eq.1) then enddo ! do ixt= niso_possibles ! dimensions isotopique: ntraciso=niso*(ntraceurs_zone+1) ! WRITE(lunout,*) 'niso=',niso ! WRITE(lunout,*) 'ntraceurs_zone,ntraciso=',ntraceurs_zone,ntraciso ! flags isotopiques: if (niso.gt.0) then ok_isotopes=.true. else ok_isotopes=.false. endif ! WRITE(lunout,*) 'ok_isotopes=',ok_isotopes if (ok_isotopes) then ok_iso_verif=.false. call getin('ok_iso_verif',ok_iso_verif) ok_init_iso=.false. call getin('ok_init_iso',ok_init_iso) tnat=(/1.0,155.76e-6,2005.2e-6,0.004/100.,0.0/) alpha_ideal=(/1.0,1.01,1.006,1.003,1.0/) endif !if (ok_isotopes) then ! WRITE(lunout,*) 'ok_iso_verif=',ok_iso_verif ! WRITE(lunout,*) 'ok_init_iso=',ok_init_iso if (ntraceurs_zone.gt.0) then ok_isotrac=.true. else ok_isotrac=.false. endif ! WRITE(lunout,*) 'ok_isotrac=',ok_isotrac ! remplissage du tableau iqiso(ntraciso,phase) ALLOCATE(iqiso(ntraciso,nqo)) iqiso(:,:)=0 do iq=1,nqtot if (iso_num(iq).gt.0) then ixt=iso_indnum(iq)+zone_num(iq)*niso iqiso(ixt,phase_num(iq))=iq endif enddo ! WRITE(lunout,*) 'iqiso=',iqiso ! replissage du tableau index_trac(ntraceurs_zone,niso) ALLOCATE(index_trac(ntraceurs_zone,niso)) if (ok_isotrac) then do iiso=1,niso do izone=1,ntraceurs_zone index_trac(izone,iiso)=iiso+izone*niso enddo enddo else !if (ok_isotrac) then index_trac(:,:)=0.0 endif !if (ok_isotrac) then ! write(lunout,*) 'index_trac=',index_trac ! Finalize : DEALLOCATE(nb_iso) END SUBROUTINE infotrac_isoinit END MODULE infotrac