SUBROUTINE sortvarc $(itau,ucov,teta,ps,masse,pk,phis,vorpot,phi,bern,dp,time , $ vcov ) IMPLICIT NONE c======================================================================= c c Auteur: P. Le Van c ------- c c Objet: c ------ c c sortie des variables de controle c c======================================================================= c----------------------------------------------------------------------- c Declarations: c ------------- #include "dimensions.h" #include "paramet.h" #include "comconst.h" #include "comvert.h" #include "comgeom.h" #include "ener.h" #include "logic.h" #include "temps.h" c Arguments: c ---------- INTEGER itau REAL ucov(ip1jmp1,llm),teta(ip1jmp1,llm),masse(ip1jmp1,llm) REAL vcov(ip1jm,llm) REAL ps(ip1jmp1),phis(ip1jmp1) REAL vorpot(ip1jm,llm) REAL phi(ip1jmp1,llm),bern(ip1jmp1,llm) REAL dp(ip1jmp1) REAL time ! elapsed time (in days) since begining of the run REAL pk(ip1jmp1,llm) c Local: c ------ REAL vor(ip1jm),bernf(ip1jmp1,llm),ztotl(llm) REAL etotl(llm),stotl(llm),rmsvl(llm),angl(llm),ge(ip1jmp1) REAL cosphi(ip1jm),omegcosp(ip1jm) REAL dtvrs1j,rjour,heure,radsg,radomeg REAL rday, massebxy(ip1jm,llm) INTEGER l, ij, imjmp1 EXTERNAL filtreg, massbarxy c EXTERNAL FLUSH EXTERNAL SSUM, SCOPY REAL SSUM c----------------------------------------------------------------------- dtvrs1j = dtvr/daysec rjour = REAL( INT( itau * dtvrs1j )) ! heure = ( itau*dtvrs1j-rjour ) * 24. heure = (time-floor(time))*24. imjmp1 = iim * jjp1 IF(ABS(heure - 24.).LE.0.0001 ) heure = 0. c CALL massbarxy ( masse, massebxy ) c ..... Calcul de rmsdpdt ..... CALL multipl(ip1jmp1,dp,dp,ge) rmsdpdt = SSUM(ip1jmp1,ge,1) - SSUM(jjp1,ge,iip1) c rmsdpdt = daysec* 1.e-2 * SQRT(rmsdpdt/imjmp1) CALL SCOPY( ijp1llm,bern,1,bernf,1 ) CALL filtreg(bernf,jjp1,llm,-2,2,.TRUE.,1) c ..... Calcul du moment angulaire ..... radsg = rad /g radomeg = rad * omeg c DO ij=iip2,ip1jm cosphi( ij ) = COS(rlatu((ij-1)/iip1+1)) omegcosp(ij) = radomeg * cosphi(ij) ENDDO c ... Calcul de l'energie,de l'enstrophie,de l'entropie et de rmsv . DO l=1,llm DO ij = 1,ip1jm vor(ij)=vorpot(ij,l)*vorpot(ij,l)*massebxy(ij,l) ENDDO ztotl(l)=(SSUM(ip1jm,vor,1)-SSUM(jjm,vor,iip1)) DO ij = 1,ip1jmp1 ge(ij)= masse(ij,l)*(phis(ij)+teta(ij,l)*pk(ij,l) + s bernf(ij,l)-phi(ij,l)) ENDDO etotl(l) = SSUM(ip1jmp1,ge,1) - SSUM(jjp1,ge,iip1) DO ij = 1, ip1jmp1 ge(ij) = masse(ij,l)*teta(ij,l) ENDDO stotl(l)= SSUM(ip1jmp1,ge,1) - SSUM(jjp1,ge,iip1) DO ij=1,ip1jmp1 ge(ij)=masse(ij,l)*AMAX1(bernf(ij,l)-phi(ij,l),0.) ENDDO rmsvl(l)=2.*(SSUM(ip1jmp1,ge,1)-SSUM(jjp1,ge,iip1)) DO ij =iip2,ip1jm ge(ij)=(ucov(ij,l)/cu(ij)+omegcosp(ij))*masse(ij,l) * * cosphi(ij) ENDDO angl(l) = radsg * s (SSUM(ip1jm-iip1,ge(iip2),1)-SSUM(jjm-1,ge(iip2),iip1)) ENDDO DO ij=1,ip1jmp1 ge(ij)= ps(ij)*aire(ij) ENDDO ptot = SSUM(ip1jmp1,ge,1)-SSUM(jjp1,ge,iip1) etot = SSUM( llm, etotl, 1 ) ztot = SSUM( llm, ztotl, 1 ) stot = SSUM( llm, stotl, 1 ) rmsv = SSUM( llm, rmsvl, 1 ) ang = SSUM( llm, angl, 1 ) rday = REAL(INT ( day_ini + time )) c IF(ptot0.eq.0.) THEN PRINT 3500, itau, rday, heure,time PRINT*,'WARNING!!! On recalcule les valeurs initiales de :' PRINT*,'ptot,rmsdpdt,etot,ztot,stot,rmsv,ang' PRINT *, ptot,rmsdpdt,etot,ztot,stot,rmsv,ang etot0 = etot ptot0 = ptot ztot0 = ztot stot0 = stot ang0 = ang END IF etot= etot/etot0 rmsv= SQRT(rmsv/ptot) ptot= ptot/ptot0 ztot= ztot/ztot0 stot= stot/stot0 ang = ang /ang0 PRINT 3500, itau, rday, heure, time PRINT 4000, ptot,rmsdpdt,etot,ztot,stot,rmsv,ang RETURN 3500 FORMAT('0',10(1h*),4x,'pas',i7,5x,'jour',f5.0,'heure',f5.1,4x * ,'date',f10.5,4x,10(1h*)) 4000 FORMAT(10x,'masse',4x,'rmsdpdt',7x,'energie',2x,'enstrophie' * ,2x,'entropie',3x,'rmsv',4x,'mt.ang'/6x,f10.6,e13.6,5f10.3/ * ) END