c======================================================================= SUBROUTINE tabfi(ngrid,nid,Lmodif,tab0,day_ini,lmax,p_rad, . p_omeg,p_g,p_cpp,p_mugaz,p_daysec,time) c======================================================================= c c C. Hourdin 15/11/96 c c Object: Lecture du tab_cntrl physique dans un fichier c ------ et initialisation des constantes physiques c c Arguments: c ---------- c c Inputs: c ------ c c - nid: unitne logique du fichier ou on va lire le tab_cntrl c (ouvert dans le programme appellant) c c si nid=0: c pas de lecture du tab_cntrl mais c Valeurs par default des constantes physiques c c - tab0: Offset de tab_cntrl a partir duquel sont ranges c les parametres physiques (50 pour start_archive) c c - Lmodif: si on souhaite modifier les constantes Lmodif = 1 = TRUE c c c Outputs: c -------- c c - day_ini: tab_cntrl(tab0+3) (Dans les cas ou l'on souhaite c comparer avec le day_ini dynamique) c c - lmax: tab_cntrl(tab0+2) (pour test avec nlayermx) c c - p_rad c - p_omeg ! c - p_g ! Constantes physiques ayant des c - p_mugaz ! homonymes dynamiques c - p_daysec ! c c======================================================================= ! to use 'getin' use ioipsl_getincom , only: getin use surfdat_h, only: albedice, emisice, iceradius, dtemisice, & emissiv use comsoil_h, only: volcapa use iostart, only: get_var use mod_phys_lmdz_para, only: is_parallel implicit none #include "comcstfi.h" #include "planete.h" #include "netcdf.inc" #include "callkeys.h" c----------------------------------------------------------------------- c Declarations c----------------------------------------------------------------------- c Arguments c --------- INTEGER,INTENT(IN) :: ngrid,nid,tab0 INTEGER*4,INTENT(OUT) :: day_ini INTEGER,INTENT(IN) :: Lmodif INTEGER,INTENT(OUT) :: lmax REAL,INTENT(OUT) :: p_rad,p_omeg,p_g,p_cpp,p_mugaz,p_daysec,time c Variables c --------- INTEGER,PARAMETER :: length=100 REAL tab_cntrl(length) ! array in which are stored the run's parameters INTEGER ierr,nvarid INTEGER size CHARACTER modif*20 LOGICAL :: found write(*,*)"tabfi: nid=",nid," tab0=",tab0," Lmodif=",Lmodif IF (nid.eq.0) then c----------------------------------------------------------------------- c Initialization of various physical constants to defaut values (nid = 0 case) c----------------------------------------------------------------------- ELSE c----------------------------------------------------------------------- c Initialization of physical constants by reading array tab_cntrl(:) c which contains these parameters (nid != 0 case) c----------------------------------------------------------------------- c Read 'controle' array c call get_var("controle",tab_cntrl,found) if (.not.found) then write(*,*)"tabfi: Failed reading array" call abort else write(*,*)'tabfi: tab_cntrl',tab_cntrl endif c c Initialization of some physical constants c informations on physics grid ! if(ngrid.ne.tab_cntrl(tab0+1)) then ! print*,'tabfi: WARNING !!! tab_cntrl(tab0+1).ne.ngrid' ! print*,tab_cntrl(tab0+1),ngrid ! endif lmax = nint(tab_cntrl(tab0+2)) day_ini = tab_cntrl(tab0+3) time = tab_cntrl(tab0+4) write (*,*) 'IN tabfi day_ini=',day_ini c Informations about planet for dynamics and physics rad = tab_cntrl(tab0+5) omeg = tab_cntrl(tab0+6) g = tab_cntrl(tab0+7) mugaz = tab_cntrl(tab0+8) rcp = tab_cntrl(tab0+9) cpp=(8.314511/(mugaz/1000.0))/rcp daysec = tab_cntrl(tab0+10) dtphys = tab_cntrl(tab0+11) c Informations about planet for the physics only year_day = tab_cntrl(tab0+14) periastr = tab_cntrl(tab0+15) apoastr = tab_cntrl(tab0+16) peri_day = tab_cntrl(tab0+17) obliquit = tab_cntrl(tab0+18) c boundary layer and turbeulence z0 = tab_cntrl(tab0+19) lmixmin = tab_cntrl(tab0+20) emin_turb = tab_cntrl(tab0+21) c optical properties of polar caps and ground emissivity albedice(1)= tab_cntrl(tab0+22) albedice(2)= tab_cntrl(tab0+23) emisice(1) = tab_cntrl(tab0+24) emisice(2) = tab_cntrl(tab0+25) emissiv = tab_cntrl(tab0+26) iceradius(1)= tab_cntrl(tab0+31) ! mean scat radius of CO2 snow (north) iceradius(2)= tab_cntrl(tab0+32) ! mean scat radius of CO2 snow (south) dtemisice(1)= tab_cntrl(tab0+33) !time scale for snow metamorphism (north) dtemisice(2)= tab_cntrl(tab0+34) !time scale for snow metamorphism (south) c soil properties volcapa = tab_cntrl(tab0+35) ! volumetric heat capacity c----------------------------------------------------------------------- c Save some constants for later use (as routine arguments) c----------------------------------------------------------------------- p_omeg = omeg p_g = g p_cpp = cpp p_mugaz = mugaz p_daysec = daysec p_rad=rad ENDIF ! end of (nid = 0) c----------------------------------------------------------------------- c Write physical constants to output before modifying them c----------------------------------------------------------------------- 6 FORMAT(a20,e15.6,e15.6) 5 FORMAT(a20,f12.2,f12.2) write(*,*) '*****************************************************' write(*,*) 'Reading tab_cntrl when calling tabfi before changes' write(*,*) '*****************************************************' write(*,5) '(1) = ngrid?',tab_cntrl(tab0+1),float(ngrid) write(*,5) '(2) lmax',tab_cntrl(tab0+2),float(lmax) write(*,5) '(3) day_ini',tab_cntrl(tab0+3),float(day_ini) write(*,5) '(5) rad',tab_cntrl(tab0+5),rad write(*,5) '(10) daysec',tab_cntrl(tab0+10),daysec write(*,6) '(6) omeg',tab_cntrl(tab0+6),omeg write(*,5) '(7) g',tab_cntrl(tab0+7),g write(*,5) '(8) mugaz',tab_cntrl(tab0+8),mugaz write(*,5) '(9) rcp',tab_cntrl(tab0+9),rcp write(*,6) '(11) dtphys?',tab_cntrl(tab0+11),dtphys write(*,5) '(14) year_day',tab_cntrl(tab0+14),year_day write(*,5) '(15) periastr',tab_cntrl(tab0+15),periastr write(*,5) '(16) apoastr',tab_cntrl(tab0+16),apoastr write(*,5) '(17) peri_day',tab_cntrl(tab0+17),peri_day write(*,5) '(18) obliquit',tab_cntrl(tab0+18),obliquit write(*,6) '(19) z0',tab_cntrl(tab0+19),z0 write(*,6) '(21) emin_turb',tab_cntrl(tab0+21),emin_turb write(*,5) '(20) lmixmin',tab_cntrl(tab0+20),lmixmin write(*,5) '(26) emissiv',tab_cntrl(tab0+26),emissiv write(*,5) '(24) emisice(1)',tab_cntrl(tab0+24),emisice(1) write(*,5) '(25) emisice(2)',tab_cntrl(tab0+25),emisice(2) write(*,5) '(22) albedice(1)',tab_cntrl(tab0+22),albedice(1) write(*,5) '(23) albedice(2)',tab_cntrl(tab0+23),albedice(2) write(*,6) '(31) iceradius(1)',tab_cntrl(tab0+31),iceradius(1) write(*,6) '(32) iceradius(2)',tab_cntrl(tab0+32),iceradius(2) write(*,5) '(33) dtemisice(1)',tab_cntrl(tab0+33),dtemisice(1) write(*,5) '(34) dtemisice(2)',tab_cntrl(tab0+34),dtemisice(2) write(*,5) '(35) volcapa',tab_cntrl(tab0+35),volcapa write(*,*) write(*,*) 'Lmodif in tabfi!!!!!!!',Lmodif c----------------------------------------------------------------------- c Modifications... ! NB: Modifying controls should only be done by newstart, and in seq mode if ((Lmodif.eq.1).and.is_parallel) then write(*,*) "tabfi: Error modifying tab_control should", & " only happen in serial mode (eg: by newstart)" stop endif c----------------------------------------------------------------------- IF(Lmodif.eq.1) then write(*,*) write(*,*) 'Change values in tab_cntrl ? :' write(*,*) '~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~' write(*,*) '(Current values given above)' write(*,*) write(*,*) '(3) day_ini : Initial day (=0 at Ls=0)' write(*,*) '(19) z0 : surface roughness (m)' write(*,*) '(21) emin_turb : minimal energy (PBL)' write(*,*) '(20) lmixmin : mixing length (PBL)' write(*,*) '(26) emissiv : ground emissivity' write(*,*) '(24 et 25) emisice : CO2 ice max emissivity ' write(*,*) '(22 et 23) albedice : CO2 ice cap albedos' write(*,*) '(31 et 32) iceradius : mean scat radius of CO2 snow' write(*,*) '(33 et 34) dtemisice : time scale for snow', & 'metamorphism' write(*,*) '(35) volcapa : soil volumetric heat capacity' write(*,*) '(18) obliquit : planet obliquity (deg)' write(*,*) '(17) peri_day : periastron date (sols since Ls=0)' write(*,*) '(15) periastr : min. star-planet dist (UA)' write(*,*) '(16) apoastr : max. star-planet (UA)' write(*,*) '(14) year_day : length of year (in sols)' write(*,*) '(5) rad : radius of the planet (m)' write(*,*) '(6) omeg : planet rotation rate (rad/s)' write(*,*) '(7) g : gravity (m/s2)' write(*,*) '(8) mugaz : molecular mass ' write(*,*) ' of the atmosphere (g/mol)' write(*,*) '(9) rcp : r/Cp' write(*,*) '(8)+(9) calc_cpp_mugaz : r/Cp and mugaz ' write(*,*) ' computed from gases.def' write(*,*) '(10) daysec : length of a sol (s)' write(*,*) do while(modif(1:1).ne.'hello') write(*,*) write(*,*) write(*,*) 'Changes to perform ?' write(*,*) ' (enter keyword or return )' write(*,*) read(*,fmt='(a20)') modif if (modif(1:1) .eq. ' ') goto 999 write(*,*) write(*,*) modif(1:len_trim(modif)) , ' : ' if (modif(1:len_trim(modif)) .eq. 'day_ini') then write(*,*) 'current value:',day_ini write(*,*) 'enter new value:' 101 read(*,*,iostat=ierr) day_ini if(ierr.ne.0) goto 101 write(*,*) ' ' write(*,*) 'day_ini (new value):',day_ini else if (modif(1:len_trim(modif)) .eq. 'z0') then write(*,*) 'current value:',z0 write(*,*) 'enter new value:' 102 read(*,*,iostat=ierr) z0 if(ierr.ne.0) goto 102 write(*,*) ' ' write(*,*) ' z0 (new value):',z0 else if (modif(1:len_trim(modif)) .eq. 'emin_turb') then write(*,*) 'current value:',emin_turb write(*,*) 'enter new value:' 103 read(*,*,iostat=ierr) emin_turb if(ierr.ne.0) goto 103 write(*,*) ' ' write(*,*) ' emin_turb (new value):',emin_turb else if (modif(1:len_trim(modif)) .eq. 'lmixmin') then write(*,*) 'current value:',lmixmin write(*,*) 'enter new value:' 104 read(*,*,iostat=ierr) lmixmin if(ierr.ne.0) goto 104 write(*,*) ' ' write(*,*) ' lmixmin (new value):',lmixmin else if (modif(1:len_trim(modif)) .eq. 'emissiv') then write(*,*) 'current value:',emissiv write(*,*) 'enter new value:' 105 read(*,*,iostat=ierr) emissiv if(ierr.ne.0) goto 105 write(*,*) ' ' write(*,*) ' emissiv (new value):',emissiv else if (modif(1:len_trim(modif)) .eq. 'emisice') then write(*,*) 'current value emisice(1) North:',emisice(1) write(*,*) 'enter new value:' 106 read(*,*,iostat=ierr) emisice(1) if(ierr.ne.0) goto 106 write(*,*) write(*,*) ' emisice(1) (new value):',emisice(1) write(*,*) write(*,*) 'current value emisice(2) South:',emisice(2) write(*,*) 'enter new value:' 107 read(*,*,iostat=ierr) emisice(2) if(ierr.ne.0) goto 107 write(*,*) write(*,*) ' emisice(2) (new value):',emisice(2) else if (modif(1:len_trim(modif)) .eq. 'albedice') then write(*,*) 'current value albedice(1) North:',albedice(1) write(*,*) 'enter new value:' 108 read(*,*,iostat=ierr) albedice(1) if(ierr.ne.0) goto 108 write(*,*) write(*,*) ' albedice(1) (new value):',albedice(1) write(*,*) write(*,*) 'current value albedice(2) South:',albedice(2) write(*,*) 'enter new value:' 109 read(*,*,iostat=ierr) albedice(2) if(ierr.ne.0) goto 109 write(*,*) write(*,*) ' albedice(2) (new value):',albedice(2) else if (modif(1:len_trim(modif)) .eq. 'iceradius') then write(*,*) 'current value iceradius(1) North:',iceradius(1) write(*,*) 'enter new value:' 110 read(*,*,iostat=ierr) iceradius(1) if(ierr.ne.0) goto 110 write(*,*) write(*,*) ' iceradius(1) (new value):',iceradius(1) write(*,*) write(*,*) 'current value iceradius(2) South:',iceradius(2) write(*,*) 'enter new value:' 111 read(*,*,iostat=ierr) iceradius(2) if(ierr.ne.0) goto 111 write(*,*) write(*,*) ' iceradius(2) (new value):',iceradius(2) else if (modif(1:len_trim(modif)) .eq. 'dtemisice') then write(*,*) 'current value dtemisice(1) North:',dtemisice(1) write(*,*) 'enter new value:' 112 read(*,*,iostat=ierr) dtemisice(1) if(ierr.ne.0) goto 112 write(*,*) write(*,*) ' dtemisice(1) (new value):',dtemisice(1) write(*,*) write(*,*) 'current value dtemisice(2) South:',dtemisice(2) write(*,*) 'enter new value:' 113 read(*,*,iostat=ierr) dtemisice(2) if(ierr.ne.0) goto 113 write(*,*) write(*,*) ' dtemisice(2) (new value):',dtemisice(2) else if (modif(1:len_trim(modif)) .eq. 'obliquit') then write(*,*) 'current value:',obliquit write(*,*) 'obliquit should be 25.19 on current Mars' write(*,*) 'enter new value:' 115 read(*,*,iostat=ierr) obliquit if(ierr.ne.0) goto 115 write(*,*) write(*,*) ' obliquit (new value):',obliquit else if (modif(1:len_trim(modif)) .eq. 'peri_day') then write(*,*) 'current value:',peri_day write(*,*) 'peri_day should be 485 on current Mars' write(*,*) 'enter new value:' 116 read(*,*,iostat=ierr) peri_day if(ierr.ne.0) goto 116 write(*,*) write(*,*) ' peri_day (new value):',peri_day else if (modif(1:len_trim(modif)) .eq. 'periastr') then write(*,*) 'current value:',periastr write(*,*) 'periastr should be 206.66 on present-day Mars' write(*,*) 'enter new value:' 117 read(*,*,iostat=ierr) periastr if(ierr.ne.0) goto 117 write(*,*) write(*,*) ' periastr (new value):',periastr else if (modif(1:len_trim(modif)) .eq. 'apoastr') then write(*,*) 'current value:',apoastr write(*,*) 'apoastr should be 249.22 on present-day Mars' write(*,*) 'enter new value:' 118 read(*,*,iostat=ierr) apoastr if(ierr.ne.0) goto 118 write(*,*) write(*,*) ' apoastr (new value):',apoastr else if (modif(1:len_trim(modif)) .eq. 'volcapa') then write(*,*) 'current value:',volcapa write(*,*) 'enter new value:' 119 read(*,*,iostat=ierr) volcapa if(ierr.ne.0) goto 119 write(*,*) write(*,*) ' volcapa (new value):',volcapa else if (modif(1:len_trim(modif)).eq.'rad') then write(*,*) 'current value:',rad write(*,*) 'enter new value:' 120 read(*,*,iostat=ierr) rad if(ierr.ne.0) goto 120 write(*,*) write(*,*) ' rad (new value):',rad else if (modif(1:len_trim(modif)).eq.'omeg') then write(*,*) 'current value:',omeg write(*,*) 'enter new value:' 121 read(*,*,iostat=ierr) omeg if(ierr.ne.0) goto 121 write(*,*) write(*,*) ' omeg (new value):',omeg else if (modif(1:len_trim(modif)).eq.'g') then write(*,*) 'current value:',g write(*,*) 'enter new value:' 122 read(*,*,iostat=ierr) g if(ierr.ne.0) goto 122 write(*,*) write(*,*) ' g (new value):',g else if (modif(1:len_trim(modif)).eq.'mugaz') then write(*,*) 'current value:',mugaz write(*,*) 'enter new value:' 123 read(*,*,iostat=ierr) mugaz if(ierr.ne.0) goto 123 write(*,*) write(*,*) ' mugaz (new value):',mugaz r=8.314511/(mugaz/1000.0) write(*,*) ' R (new value):',r else if (modif(1:len_trim(modif)).eq.'rcp') then write(*,*) 'current value:',rcp write(*,*) 'enter new value:' 124 read(*,*,iostat=ierr) rcp if(ierr.ne.0) goto 124 write(*,*) write(*,*) ' rcp (new value):',rcp r=8.314511/(mugaz/1000.0) cpp=r/rcp write(*,*) ' cpp (new value):',cpp else if (modif(1:len_trim(modif)).eq.'calc_cpp_mugaz') then write(*,*) 'current value rcp, mugaz:',rcp,mugaz check_cpp_match=.false. force_cpp=.false. call su_gases call calc_cpp_mugaz write(*,*) write(*,*) ' cpp (new value):',cpp write(*,*) ' mugaz (new value):',mugaz r=8.314511/(mugaz/1000.0) rcp=r/cpp write(*,*) ' rcp (new value):',rcp else if (modif(1:len_trim(modif)).eq.'daysec') then write(*,*) 'current value:',daysec write(*,*) 'enter new value:' 125 read(*,*,iostat=ierr) daysec if(ierr.ne.0) goto 125 write(*,*) write(*,*) ' daysec (new value):',daysec ! added by RW! else if (modif(1:len_trim(modif)).eq.'year_day') then write(*,*) 'current value:',year_day write(*,*) 'enter new value:' 126 read(*,*,iostat=ierr) year_day if(ierr.ne.0) goto 126 write(*,*) write(*,*) ' year_day (new value):',year_day endif enddo ! of do while(modif(1:1).ne.'hello') 999 continue c----------------------------------------------------------------------- c Write values of physical constants after modifications c----------------------------------------------------------------------- write(*,*) '*****************************************************' write(*,*) 'Reading tab_cntrl when calling tabfi AFTER changes' write(*,*) '*****************************************************' write(*,5) '(1) = ngrid?',tab_cntrl(tab0+1),float(ngrid) write(*,5) '(2) lmax',tab_cntrl(tab0+2),float(lmax) write(*,5) '(3) day_ini',tab_cntrl(tab0+3),float(day_ini) write(*,5) '(5) rad',tab_cntrl(tab0+5),rad write(*,5) '(10) daysec',tab_cntrl(tab0+10),daysec write(*,6) '(6) omeg',tab_cntrl(tab0+6),omeg write(*,5) '(7) g',tab_cntrl(tab0+7),g write(*,5) '(8) mugaz',tab_cntrl(tab0+8),mugaz write(*,5) '(9) rcp',tab_cntrl(tab0+9),rcp write(*,6) '(11) dtphys?',tab_cntrl(tab0+11),dtphys write(*,5) '(14) year_day',tab_cntrl(tab0+14),year_day write(*,5) '(15) periastr',tab_cntrl(tab0+15),periastr write(*,5) '(16) apoastr',tab_cntrl(tab0+16),apoastr write(*,5) '(17) peri_day',tab_cntrl(tab0+17),peri_day write(*,5) '(18) obliquit',tab_cntrl(tab0+18),obliquit write(*,6) '(19) z0',tab_cntrl(tab0+19),z0 write(*,6) '(21) emin_turb',tab_cntrl(tab0+21),emin_turb write(*,5) '(20) lmixmin',tab_cntrl(tab0+20),lmixmin write(*,5) '(26) emissiv',tab_cntrl(tab0+26),emissiv write(*,5) '(24) emisice(1)',tab_cntrl(tab0+24),emisice(1) write(*,5) '(25) emisice(2)',tab_cntrl(tab0+25),emisice(2) write(*,5) '(22) albedice(1)',tab_cntrl(tab0+22),albedice(1) write(*,5) '(23) albedice(2)',tab_cntrl(tab0+23),albedice(2) write(*,6) '(31) iceradius(1)',tab_cntrl(tab0+31),iceradius(1) write(*,6) '(32) iceradius(2)',tab_cntrl(tab0+32),iceradius(2) write(*,5) '(33) dtemisice(1)',tab_cntrl(tab0+33),dtemisice(1) write(*,5) '(34) dtemisice(2)',tab_cntrl(tab0+34),dtemisice(2) write(*,5) '(35) volcapa',tab_cntrl(tab0+35),volcapa write(*,*) write(*,*) ENDIF ! of if (Lmodif == 1) c----------------------------------------------------------------------- c Save some constants for later use (as routine arguments) c----------------------------------------------------------------------- p_omeg = omeg p_g = g p_cpp = cpp p_mugaz = mugaz p_daysec = daysec p_rad=rad end