! ! $Id: defrun.F 1944 2014-01-22 17:39:15Z musat $ ! c c SUBROUTINE defrun( tapedef, etatinit, clesphy0 ) c USE control_mod IMPLICIT NONE c----------------------------------------------------------------------- c Auteurs : L. Fairhead , P. Le Van . c c Arguments : c c tapedef : c etatinit : = TRUE , on ne compare pas les valeurs des para- c -metres du zoom avec celles lues sur le fichier start . c clesphy0 : sortie . c LOGICAL etatinit INTEGER tapedef INTEGER longcles PARAMETER( longcles = 20 ) REAL clesphy0( longcles ) c c Declarations : c -------------- #include "dimensions.h" #include "paramet.h" #include "logic.h" #include "serre.h" #include "comdissnew.h" #include "clesph0.h" c c c local: c ------ CHARACTER ch1*72,ch2*72,ch3*72,ch4*12 INTEGER tapeout REAL clonn,clatt,grossismxx,grossismyy REAL dzoomxx,dzoomyy,tauxx,tauyy LOGICAL fxyhypbb, ysinuss INTEGER i c c ------------------------------------------------------------------- c c ......... Version du 29/04/97 .......... c c Nouveaux parametres nitergdiv,nitergrot,niterh,tetagdiv,tetagrot, c tetatemp ajoutes pour la dissipation . c c Autre parametre ajoute en fin de liste de tapedef : ** fxyhypb ** c c Si fxyhypb = .TRUE. , choix de la fonction a derivee tangente hyperb. c Sinon , choix de fxynew , a derivee sinusoidale .. c c ...... etatinit = . TRUE. si defrun est appele dans ETAT0_LMD ou c LIMIT_LMD pour l'initialisation de start.dat (dic) et c de limit.dat ( dic) ........... c Sinon etatinit = . FALSE . c c Donc etatinit = .F. si on veut comparer les valeurs de grossismx , c grossismy,clon,clat, fxyhypb lues sur le fichier start avec c celles passees par run.def , au debut du gcm, apres l'appel a c lectba . c Ces parmetres definissant entre autres la grille et doivent etre c pareils et coherents , sinon il y aura divergence du gcm . c c----------------------------------------------------------------------- c initialisations: c ---------------- tapeout = 6 c----------------------------------------------------------------------- c Parametres de controle du run: c----------------------------------------------------------------------- OPEN( tapedef,file ='gcm.def',status='old',form='formatted') READ (tapedef,9000) ch1,ch2,ch3 WRITE(tapeout,9000) ch1,ch2,ch3 READ (tapedef,9001) ch1,ch4 READ (tapedef,*) dayref WRITE(tapeout,9001) ch1,'dayref' WRITE(tapeout,*) dayref READ (tapedef,9001) ch1,ch4 READ (tapedef,*) anneeref WRITE(tapeout,9001) ch1,'anneeref' WRITE(tapeout,*) anneeref READ (tapedef,9001) ch1,ch4 READ (tapedef,*) nday WRITE(tapeout,9001) ch1,'nday' WRITE(tapeout,*) nday READ (tapedef,9001) ch1,ch4 READ (tapedef,*) day_step WRITE(tapeout,9001) ch1,'day_step' WRITE(tapeout,*) day_step READ (tapedef,9001) ch1,ch4 READ (tapedef,*) iperiod WRITE(tapeout,9001) ch1,'iperiod' WRITE(tapeout,*) iperiod READ (tapedef,9001) ch1,ch4 READ (tapedef,*) iapp_tracvl WRITE(tapeout,9001) ch1,'iapp_tracvl' WRITE(tapeout,*) iapp_tracvl READ (tapedef,9001) ch1,ch4 READ (tapedef,*) iconser WRITE(tapeout,9001) ch1,'iconser' WRITE(tapeout,*) iconser READ (tapedef,9001) ch1,ch4 READ (tapedef,*) iecri WRITE(tapeout,9001) ch1,'iecri' WRITE(tapeout,*) iecri READ (tapedef,9001) ch1,ch4 READ (tapedef,*) periodav WRITE(tapeout,9001) ch1,'periodav' WRITE(tapeout,*) periodav READ (tapedef,9001) ch1,ch4 READ (tapedef,*) dissip_period WRITE(tapeout,9001) ch1,'dissip_period' WRITE(tapeout,*) dissip_period ccc .... P. Le Van , modif le 29/04/97 .pour la dissipation ... ccc READ (tapedef,9001) ch1,ch4 READ (tapedef,*) lstardis WRITE(tapeout,9001) ch1,'lstardis' WRITE(tapeout,*) lstardis READ (tapedef,9001) ch1,ch4 READ (tapedef,*) nitergdiv WRITE(tapeout,9001) ch1,'nitergdiv' WRITE(tapeout,*) nitergdiv READ (tapedef,9001) ch1,ch4 READ (tapedef,*) nitergrot WRITE(tapeout,9001) ch1,'nitergrot' WRITE(tapeout,*) nitergrot READ (tapedef,9001) ch1,ch4 READ (tapedef,*) niterh WRITE(tapeout,9001) ch1,'niterh' WRITE(tapeout,*) niterh READ (tapedef,9001) ch1,ch4 READ (tapedef,*) tetagdiv WRITE(tapeout,9001) ch1,'tetagdiv' WRITE(tapeout,*) tetagdiv READ (tapedef,9001) ch1,ch4 READ (tapedef,*) tetagrot WRITE(tapeout,9001) ch1,'tetagrot' WRITE(tapeout,*) tetagrot READ (tapedef,9001) ch1,ch4 READ (tapedef,*) tetatemp WRITE(tapeout,9001) ch1,'tetatemp' WRITE(tapeout,*) tetatemp READ (tapedef,9001) ch1,ch4 READ (tapedef,*) coefdis WRITE(tapeout,9001) ch1,'coefdis' WRITE(tapeout,*) coefdis c READ (tapedef,9001) ch1,ch4 READ (tapedef,*) purmats WRITE(tapeout,9001) ch1,'purmats' WRITE(tapeout,*) purmats c ............................................................... READ (tapedef,9001) ch1,ch4 READ (tapedef,*) iflag_phys WRITE(tapeout,9001) ch1,'iflag_phys' WRITE(tapeout,*) iflag_phys READ (tapedef,9001) ch1,ch4 READ (tapedef,*) iphysiq WRITE(tapeout,9001) ch1,'iphysiq' WRITE(tapeout,*) iphysiq READ (tapedef,9001) ch1,ch4 READ (tapedef,*) cycle_diurne WRITE(tapeout,9001) ch1,'cycle_diurne' WRITE(tapeout,*) cycle_diurne READ (tapedef,9001) ch1,ch4 READ (tapedef,*) soil_model WRITE(tapeout,9001) ch1,'soil_model' WRITE(tapeout,*) soil_model READ (tapedef,9001) ch1,ch4 READ (tapedef,*) new_oliq WRITE(tapeout,9001) ch1,'new_oliq' WRITE(tapeout,*) new_oliq READ (tapedef,9001) ch1,ch4 READ (tapedef,*) ok_orodr WRITE(tapeout,9001) ch1,'ok_orodr' WRITE(tapeout,*) ok_orodr READ (tapedef,9001) ch1,ch4 READ (tapedef,*) ok_orolf WRITE(tapeout,9001) ch1,'ok_orolf' WRITE(tapeout,*) ok_orolf READ (tapedef,9001) ch1,ch4 READ (tapedef,*) ok_limitvrai WRITE(tapeout,9001) ch1,'ok_limitvrai' WRITE(tapeout,*) ok_limitvrai READ (tapedef,9001) ch1,ch4 READ (tapedef,*) nbapp_rad WRITE(tapeout,9001) ch1,'nbapp_rad' WRITE(tapeout,*) nbapp_rad READ (tapedef,9001) ch1,ch4 READ (tapedef,*) iflag_con WRITE(tapeout,9001) ch1,'iflag_con' WRITE(tapeout,*) iflag_con DO i = 1, longcles clesphy0(i) = 0. ENDDO clesphy0(1) = REAL( iflag_con ) clesphy0(2) = REAL( nbapp_rad ) IF( cycle_diurne ) clesphy0(3) = 1. IF( soil_model ) clesphy0(4) = 1. IF( new_oliq ) clesphy0(5) = 1. IF( ok_orodr ) clesphy0(6) = 1. IF( ok_orolf ) clesphy0(7) = 1. IF( ok_limitvrai ) clesphy0(8) = 1. ccc .... P. Le Van , ajout le 7/03/95 .pour le zoom ... c ......... ( modif le 17/04/96 ) ......... c IF( etatinit ) GO TO 100 READ (tapedef,9001) ch1,ch4 READ (tapedef,*) clonn WRITE(tapeout,9001) ch1,'clon' WRITE(tapeout,*) clonn IF( ABS(clon - clonn).GE. 0.001 ) THEN WRITE(tapeout,*) ' La valeur de clon passee par run.def est diffe *rente de celle lue sur le fichier start ' STOP ENDIF c READ (tapedef,9001) ch1,ch4 READ (tapedef,*) clatt WRITE(tapeout,9001) ch1,'clat' WRITE(tapeout,*) clatt IF( ABS(clat - clatt).GE. 0.001 ) THEN WRITE(tapeout,*) ' La valeur de clat passee par run.def est diffe *rente de celle lue sur le fichier start ' STOP ENDIF READ (tapedef,9001) ch1,ch4 READ (tapedef,*) grossismxx WRITE(tapeout,9001) ch1,'grossismx' WRITE(tapeout,*) grossismxx IF( ABS(grossismx - grossismxx).GE. 0.001 ) THEN WRITE(tapeout,*) ' La valeur de grossismx passee par run.def est , differente de celle lue sur le fichier start ' STOP ENDIF READ (tapedef,9001) ch1,ch4 READ (tapedef,*) grossismyy WRITE(tapeout,9001) ch1,'grossismy' WRITE(tapeout,*) grossismyy IF( ABS(grossismy - grossismyy).GE. 0.001 ) THEN WRITE(tapeout,*) ' La valeur de grossismy passee par run.def est , differente de celle lue sur le fichier start ' STOP ENDIF IF( grossismx.LT.1. ) THEN WRITE(tapeout,*) ' *** ATTENTION !! grossismx < 1 . *** ' STOP ELSE alphax = 1. - 1./ grossismx ENDIF IF( grossismy.LT.1. ) THEN WRITE(tapeout,*) ' *** ATTENTION !! grossismy < 1 . *** ' STOP ELSE alphay = 1. - 1./ grossismy ENDIF c c alphax et alphay sont les anciennes formulat. des grossissements c c READ (tapedef,9001) ch1,ch4 READ (tapedef,*) fxyhypbb WRITE(tapeout,9001) ch1,'fxyhypbb' WRITE(tapeout,*) fxyhypbb IF( .NOT.fxyhypb ) THEN IF( fxyhypbb ) THEN WRITE(tapeout,*) ' ******** PBS DANS DEFRUN ******** ' WRITE(tapeout,*)' *** fxyhypb lu sur le fichier start est F' *, ' alors qu il est T sur run.def ***' STOP ENDIF ELSE IF( .NOT.fxyhypbb ) THEN WRITE(tapeout,*) ' ******** PBS DANS DEFRUN ******** ' WRITE(tapeout,*)' *** fxyhypb lu sur le fichier start est t' *, ' alors qu il est F sur run.def ***' STOP ENDIF ENDIF c READ (tapedef,9001) ch1,ch4 READ (tapedef,*) dzoomxx WRITE(tapeout,9001) ch1,'dzoomx' WRITE(tapeout,*) dzoomxx READ (tapedef,9001) ch1,ch4 READ (tapedef,*) dzoomyy WRITE(tapeout,9001) ch1,'dzoomy' WRITE(tapeout,*) dzoomyy READ (tapedef,9001) ch1,ch4 READ (tapedef,*) tauxx WRITE(tapeout,9001) ch1,'taux' WRITE(tapeout,*) tauxx READ (tapedef,9001) ch1,ch4 READ (tapedef,*) tauyy WRITE(tapeout,9001) ch1,'tauy' WRITE(tapeout,*) tauyy IF( fxyhypb ) THEN IF( ABS(dzoomx - dzoomxx).GE. 0.001 ) THEN WRITE(tapeout,*)' La valeur de dzoomx passee par run.def est dif *ferente de celle lue sur le fichier start ' CALL ABORT_gcm("defrun", "", 1) ENDIF IF( ABS(dzoomy - dzoomyy).GE. 0.001 ) THEN WRITE(tapeout,*)' La valeur de dzoomy passee par run.def est dif *ferente de celle lue sur le fichier start ' CALL ABORT_gcm("defrun", "", 1) ENDIF IF( ABS(taux - tauxx).GE. 0.001 ) THEN WRITE(6,*)' La valeur de taux passee par run.def est differente * de celle lue sur le fichier start ' CALL ABORT_gcm("defrun", "", 1) ENDIF IF( ABS(tauy - tauyy).GE. 0.001 ) THEN WRITE(6,*)' La valeur de tauy passee par run.def est differente * de celle lue sur le fichier start ' CALL ABORT_gcm("defrun", "", 1) ENDIF ENDIF cc IF( .NOT.fxyhypb ) THEN READ (tapedef,9001) ch1,ch4 READ (tapedef,*) ysinuss WRITE(tapeout,9001) ch1,'ysinus' WRITE(tapeout,*) ysinuss IF( .NOT.ysinus ) THEN IF( ysinuss ) THEN WRITE(6,*) ' ******** PBS DANS DEFRUN ******** ' WRITE(tapeout,*)'** ysinus lu sur le fichier start est F', * ' alors qu il est T sur run.def ***' STOP ENDIF ELSE IF( .NOT.ysinuss ) THEN WRITE(6,*) ' ******** PBS DANS DEFRUN ******** ' WRITE(tapeout,*)'** ysinus lu sur le fichier start est T', * ' alors qu il est F sur run.def ***' STOP ENDIF ENDIF ENDIF c WRITE(6,*) ' alphax alphay defrun ',alphax,alphay CLOSE(tapedef) RETURN c ............................................... c 100 CONTINUE c READ (tapedef,9001) ch1,ch4 READ (tapedef,*) clon WRITE(tapeout,9001) ch1,'clon' WRITE(tapeout,*) clon c READ (tapedef,9001) ch1,ch4 READ (tapedef,*) clat WRITE(tapeout,9001) ch1,'clat' WRITE(tapeout,*) clat READ (tapedef,9001) ch1,ch4 READ (tapedef,*) grossismx WRITE(tapeout,9001) ch1,'grossismx' WRITE(tapeout,*) grossismx READ (tapedef,9001) ch1,ch4 READ (tapedef,*) grossismy WRITE(tapeout,9001) ch1,'grossismy' WRITE(tapeout,*) grossismy IF( grossismx.LT.1. ) THEN WRITE(tapeout,*) '*** ATTENTION !! grossismx < 1 . *** ' STOP ELSE alphax = 1. - 1./ grossismx ENDIF IF( grossismy.LT.1. ) THEN WRITE(tapeout,*) ' *** ATTENTION !! grossismy < 1 . *** ' STOP ELSE alphay = 1. - 1./ grossismy ENDIF c READ (tapedef,9001) ch1,ch4 READ (tapedef,*) fxyhypb WRITE(tapeout,9001) ch1,'fxyhypb' WRITE(tapeout,*) fxyhypb READ (tapedef,9001) ch1,ch4 READ (tapedef,*) dzoomx WRITE(tapeout,9001) ch1,'dzoomx' WRITE(tapeout,*) dzoomx READ (tapedef,9001) ch1,ch4 READ (tapedef,*) dzoomy WRITE(tapeout,9001) ch1,'dzoomy' WRITE(tapeout,*) dzoomy READ (tapedef,9001) ch1,ch4 READ (tapedef,*) taux WRITE(tapeout,9001) ch1,'taux' WRITE(tapeout,*) taux c READ (tapedef,9001) ch1,ch4 READ (tapedef,*) tauy WRITE(tapeout,9001) ch1,'tauy' WRITE(tapeout,*) tauy READ (tapedef,9001) ch1,ch4 READ (tapedef,*) ysinus WRITE(tapeout,9001) ch1,'ysinus' WRITE(tapeout,*) ysinus WRITE(tapeout,*) ' alphax alphay defrun ',alphax,alphay c 9000 FORMAT(3(/,a72)) 9001 FORMAT(/,a72,/,a12) cc CLOSE(tapedef) RETURN END