C SUBROUTINE PROF(NHB,LRSTRT,ITAG,LCLAS1) C SUBROUTINE PROF(ITAG,LCLAS1) SUBROUTINE PROF_EM_NET(filename,datestr,ITAG,INCR) C C$$$ SUBPROGRAM DOCUMENTATION BLOCK C . . . C SUBROUTINE: PROF PROFILE SOUNDINGS C PRGRMMR: BLACK ORG: W/NP22 DATE: 99-04-22 C C ABSTRACT: THIS ROUTINE GENERATES THE RAW PROFILE SOUNDING C OUTPUT FILES FROM THE FORECAST RESTRT FILE AND C AUXILIARY FILES C C PROGRAM HISTORY LOG: C 99-04-22 T BLACK - ORIGINATOR C 02-07-01 G MANIKIN - FIXED PROBLEM WITH DHCNVC AND DHRAIN C COMPUTATIONS - SEE COMMENTS BELOW C 03-04-01 M PYLE - BEGAN CONVERTING FOR WRF C C USAGE: CALL PROF FROM PROGRAM POST0 C C INPUT ARGUMENT LIST: C NHB - THE UNIT NUMBER FOR READING THE NHB FILE C LRSTRT - THE UNIT NUMBER FOR READING THE RESTRT FILE C ITAG - THE FORECAST HOUR WE ARE DEALING WITH C LCLAS1 - THE UNIT NUMBER FOR WRITING THE PROFILE DATA C C OUTPUT ARGUMENT LIST: C NONE C C SUBPROGRAMS CALLED: C UNIQUE: C C----------------------------------------------------------------------- c use vrbls3d c use vrbls2d c use soil c use masks C include 'wrf_io_flags.h' ! INCLUDE "parmeta" INCLUDE "parmsoil" C----------------------------------------------------------------------- P A R A M E T E R & (NSTAT=2000,LCL1ML=13,LCL1SL=50) ! NWORDM=(LCL1ML+1)*LM+2*LCL1SL ! &, LRECPR=4*(8+9+LCL1ML*LM+LCL1SL)) C----------------------------------------------------------------------- C C PARMS FOR HOURLY PROFILER OUTPUT C NSTAT - MAX NUMBER OF STATIONS C NWORDM - DIMENSION OF OUTPUT ARRAY, MUST BE LARGE ENOUGH C TO HOLD ALL VARIABLES C (MAX NO MULTI-LAYER VARIABLES*LM + NO OF SINGLE LAYER VARS) C LCL1ML - NUMBER OF MULTI-LAYER VARIABLES OUTPUT FOR CLASS 1 C LCL1SL - NUMBER OF SINGLE LAYER VARIABLES OUTPUT FOR CLASS 1 C C------------------------------------------------------------------------ P A R A M E T E R & (ITB=76,JTB=134) P A R A M E T E R & (A2=17.2693882,A3=273.16,A4=35.86,PQ0=379.90516,DTR=1.74532925E-2 &, G=9.81,GI=1./G,RD=287.04,CP=1004.6,CAPA=RD/CP,RHCRIT=0.9999) PARAMETER (GAMMA=6.5/1000.,ZSL=0.0,D608=0.608) PARAMETER (TAUCR=RD*GI*290.66,CONST=0.005*G/RD) C------------------------------------------------------------------------ R E A L & STNLAT(NSTAT),STNLON(NSTAT) ! R E A L C REAL, ALLOCATABLE:: & RES(:),FIS(:),THS(:),HBOT(:) &,CFRACL(:),CFRACM(:),CFRACH(:),SNO(:) &,SOILTB(:),SFCEXC(:),SMSTAV(:),SMSTOT(:) &,Z0(:),CZEN(:),CZMEAN(:),U00(:),SR(:) &,ACPREC(:),CUPREC(:),ACSNOW(:),ACSNOM(:) &,SSROFF(:),BGROFF(:),SFCSHX(:),SFCLHX(:) &,SUBSHX(:),SNOPCX(:),ASWIN(:),ASWOUT(:) &,ASWTOA(:),ALWIN(:),ALWOUT(:),ALWTOA(:) &,TSHLTR(:),QSHLTR(:),TH2_hold(:) &,TH10(:),Q10(:),U10(:),V10(:) &,TLMIN(:),TLMAX(:) &,SMC(:,:),CMC(:),STC(:,:),SH2O(:,:) &,VEGFRC(:),POTFLX(:),PSLP(:),PDSL1(:) &,EGRID2(:),SM(:),SICE(:) &,HBM2(:),FACTR(:) &,PTBL(:,:),TTBL(:,:) &,STATPR(:),STACPR(:),STAEVP(:) &,STAPOT(:),STASHX(:),STASUB(:),STAPCX(:) &,STASWI(:),STASWO(:),STALWI(:),STALWO(:) &,STALWT(:),STASWT(:),STASNM(:),STASRF(:) &,STABRF(:),STASNO(:),SWEM(:) &,ACPREC0(:),CUPREC0(:),SFCLHX0(:),POTFLX0(:) &,SFCSHX0(:),SUBSHX0(:),SNOPCX0(:),ASWIN0(:) &,ASWOUT0(:),ALWIN0(:),ALWOUT0(:),ALWTOA0(:) &,ASWTOA0(:),ACSNOW0(:),ACSNOM0(:),SSROFF0(:) &,BGROFF0(:),PVAPOR(:),CANOPY(:),LH(:) C ! R E A L ! & T(NSTAT,LM),Q(NSTAT,LM),U(NSTAT,LM),V(NSTAT,LM),Q2(NSTAT,LM) ! &,OMGALF(NSTAT,LM),CWM(NSTAT,LM),TRAIN(NSTAT,LM),TCUCN(NSTAT,LM) ! &,RSWTT(NSTAT,LM),RLWTT(NSTAT,LM),CCR(NSTAT,LM),RTOP(NSTAT,LM) ! &,HTM(NSTAT,LM),OMGA(NSTAT,LM),QRAIN(NSTAT,LM) REAL, ALLOCATABLE:: T(:,:),Q(:,:),U(:,:),V(:,:),Q2(:,:) &, OMGALF(:,:),CWM(:,:),TRAIN(:,:),TCUCN(:,:) &, RSWTT(:,:),RLWTT(:,:),CCR(:,:),RTOP(:,:) &, HTM(:,:),OMGA(:,:),p_hold(:,:),t_hold(:,:) &, PINT(:,:),UL(:),ZINT(:,:),QRAIN(:,:) &, QICE(:,:) C REAL, ALLOCATABLE:: DHCNVC(:,:),DHRAIN(:,:),STADHC(:),STADHR(:), & TCUCN0(:,:),TRAIN0(:,:),CLDFRA_BL(:,:) REAL,ALLOCATABLE:: DUM(:,:,:),DUMMY(:,:),DUMMY2(:,:), & DUMMY3(:,:),DUM3D(:,:,:),DUM3D2(:,:,:),DUM3D3(:,:,:), & GDLAT(:,:),GDLON(:,:) REAL, ALLOCATABLE:: PRODAT(:),FPACK(:) INTEGER, ALLOCATABLE:: IDUM(:,:),LMH(:,:),IW(:,:) ! &,p_hold(NSTAT,LM),t_hold(NSTAT,LM) ! REAL:: PINT(NSTAT,LM+1),LATSTART,LONSTART REAL, ALLOCATABLE :: PMID(:,:),W(:,:), WH(:,:), & pint_part(:),PDS(:),SFCP(:) real, allocatable:: CROT(:),SROT(:) C------------------------------------------------------------------------ I N T E G E R & IDSTN(NSTAT),IHINDX(NSTAT),JHINDX(NSTAT) &, IVINDX(NSTAT),JVINDX(NSTAT),IDAT(3) INTEGER:: GDS(200) C C------------------------------------------------------------------------ L O G I C A L & RUN,RESTRT,FRST C------------------------------------------------------------------------ C H A R A C T E R & RSTFIL*90,RESTHR*4,LABEL*32,CISTAT*8,CIDSTN(NSTAT)*8 &,FNAME*90,ENVAR*90,BLANK*4 CHARACTER(LEN=8), ALLOCATABLE :: CIDSTN_SAVE(:) C new stuff character(len=31) :: VarName,varin character(len=90) :: fileName character(len=90) :: fileNamehold integer :: Status, DataHandle character(len=19):: startdate,datestr,datestrold,datestrold1 real:: rinc(5) integer:: IDATE(8),JDATE(8) C------------------------------------------------------------------------ DATA BLANK/' '/ C------------------------------------------------------------------------ C*** C*** READ IN THE INFORMATION FILE ABOUT THE SOUNDINGS C*** print *, 'into netcdf PROF_EM' REWIND 18 C READ(18)NUMSTA,IDSTN,STNLAT,STNLON 1, IHINDX,JHINDX,IVINDX,JVINDX,CIDSTN print *, 'NUMSTA IDSTN ', NUMSTA,IDSTN print *, 'STNLAT(1), STNLON(1): ', STNLAT(1), STNLON(1) print *, 'IHINDX(1),JHINDX(1): ', IHINDX(1),JHINDX(1) print *, 'IVINDX(1),JVINDX(1): ', IVINDX(1),JVINDX(1) WRITE(6,20)NUMSTA 20 FORMAT('INIT: NUMBER OF PROFILE STATIONS ',I5) !mp allocate(CIDSTN_SAVE(NUMSTA)) DO N=1,NUMSTA CIDSTN_SAVE(N)=CIDSTN(N) ENDDO !mp if (ITAG .eq. 0) then WRITE(6,30)(IDSTN(N),STNLAT(N)/DTR,STNLON(N)/DTR 1, IHINDX(N),JHINDX(N),IVINDX(N),JVINDX(N) 2, CIDSTN(N),N=1,NUMSTA) ! else ! WRITE(6,30)(IDSTN(N),STNLAT(N)/DTR,STNLON(N)/DTR ! 1, IHINDX(N),JHINDX(N),IVINDX(N),JVINDX(N) ! 2, CIDSTN_SAVE(N),N=1,NUMSTA,20) ! endif 30 FORMAT(2X,I6,2F8.2,4I8,4X,A8) c if (ITAG .eq. 0) then FRST=.TRUE. c else c FRST=.FALSE. c endif !-------------------------------------------------------------------- !-------------------------------------------------------------------- !-------------------------------------------------------------------- if ( frst ) then frst = .false. CALL ext_ncd_ioinit(Status) write(6,*) 'filename early in PROF= ', filename CALL ext_ncd_open_for_read( trim(fileName), 0, 0, " ", & DataHandle, Status) else Status = 0 endif if ( Status /= 0 ) then print*,'error opening ',fileName, ' Status = ', Status ; stop endif ! write(6,*) 'js, je, jev: ', js,je,jev C Getting start time CALL ext_ncd_get_dom_ti_char(DataHandle 1 ,'START_DATE',startdate, status ) print*,'startdate= ',startdate jdate=0 idate=0 read(startdate,15)iyear,imn,iday,ihrst IDATE(2)=imn IDATE(3)=iday IDATE(1)=iyear IDATE(5)=ihrst 15 format(i4,1x,i2,1x,i2,1x,i2) print*,'start yr mo day hr =',iyear,imn,iday,ihrst ifhr=ITAG print*,' in PROF ifhr fileName=',ifhr,fileName call ext_ncd_get_dom_ti_integer(DataHandle, & 'WEST-EAST_GRID_DIMENSION',itmp + ,1,ioutcount,istatus) write(6,*) 'west-east dimension: ', itmp IM=itmp-1 call ext_ncd_get_dom_ti_integer(DataHandle, & 'SOUTH-NORTH_GRID_DIMENSION',itmp + ,1,ioutcount,istatus) write(6,*) 'south-north dimension: ', itmp JM=itmp-1 call ext_ncd_get_dom_ti_integer(DataHandle, & 'BOTTOM-TOP_GRID_DIMENSION',itmp + ,1,ioutcount,istatus) write(6,*) 'bottom-top dimension: ', itmp LM=itmp-1 write(6,*) 'allocate with IM, JM, LM: ', IM, JM, LM ! The end j row is going to be jend_2u for all variables except for V. JSTA_2L=1 JEND_2U=JM JS=JSTA_2L JE=JEND_2U IF (JEND_2U.EQ.JM) THEN JEV=JEND_2U+1 ELSE JEV=JEND_2U ENDIF write(6,*) 'js, je, jev: ', js,je,jev !!!!! ALLOCATE(RES(NUMSTA),FIS(NUMSTA),THS(NUMSTA),HBOT(NUMSTA)) ALLOCATE(CFRACL(NUMSTA),CFRACM(NUMSTA),CFRACH(NUMSTA)) ALLOCATE(SNO(NUMSTA),SOILTB(NUMSTA),SFCEXC(NUMSTA)) ALLOCATE(SMSTAV(NUMSTA),SMSTOT(NUMSTA)) ALLOCATE(Z0(NUMSTA),CZEN(NUMSTA),CZMEAN(NUMSTA)) ALLOCATE(U00(NUMSTA),SR(NUMSTA),ACPREC(NUMSTA)) ALLOCATE(CUPREC(NUMSTA),ACSNOW(NUMSTA),ACSNOM(NUMSTA)) ALLOCATE(SSROFF(NUMSTA),BGROFF(NUMSTA),SFCSHX(NUMSTA)) ALLOCATE(SFCLHX(NUMSTA),SUBSHX(NUMSTA),SNOPCX(NUMSTA)) ALLOCATE(ASWIN(NUMSTA),ASWOUT(NUMSTA),ASWTOA(NUMSTA)) ALLOCATE(ALWIN(NUMSTA),ALWOUT(NUMSTA),ALWTOA(NUMSTA)) ALLOCATE(TSHLTR(NUMSTA),QSHLTR(NUMSTA),TH2_hold(NUMSTA)) ALLOCATE(TH10(NUMSTA),Q10(NUMSTA),U10(NUMSTA),V10(NUMSTA)) ALLOCATE(TLMIN(NUMSTA),TLMAX(NUMSTA),SMC(NUMSTA,NSOIL)) ALLOCATE(CMC(NUMSTA),STC(NUMSTA,NSOIL),SH2O(NUMSTA,NSOIL)) ALLOCATE(VEGFRC(NUMSTA),POTFLX(NUMSTA),PSLP(NUMSTA)) ALLOCATE(PDSL1(NUMSTA),EGRID2(NUMSTA),SM(NUMSTA),SICE(NUMSTA)) ALLOCATE(HBM2(NUMSTA),FACTR(NUMSTA),PTBL(ITB,JTB),TTBL(JTB,ITB)) ALLOCATE(STATPR(NUMSTA),STACPR(NUMSTA),STAEVP(NUMSTA)) ALLOCATE(STAPOT(NUMSTA),STASHX(NUMSTA),STASUB(NUMSTA)) ALLOCATE(STAPCX(NUMSTA),STASWI(NUMSTA),STASWO(NUMSTA)) ALLOCATE(STALWI(NUMSTA),STALWO(NUMSTA),STALWT(NUMSTA)) ALLOCATE(STASWT(NUMSTA),STASNM(NUMSTA),STASRF(NUMSTA)) ALLOCATE(STABRF(NUMSTA),STASNO(NUMSTA),ACPREC0(NUMSTA)) ALLOCATE(CUPREC0(NUMSTA),SFCLHX0(NUMSTA),POTFLX0(NUMSTA)) ALLOCATE(SFCSHX0(NUMSTA),SUBSHX0(NUMSTA),SNOPCX0(NUMSTA)) ALLOCATE(ASWIN0(NUMSTA),ASWOUT0(NUMSTA),ALWIN0(NUMSTA)) ALLOCATE(ALWOUT0(NUMSTA),ALWTOA0(NUMSTA),ASWTOA0(NUMSTA)) ALLOCATE(ACSNOW0(NUMSTA),ACSNOM0(NUMSTA),SSROFF0(NUMSTA)) ALLOCATE(BGROFF0(NUMSTA),CANOPY(NUMSTA),LH(NUMSTA)) ALLOCATE(SWEM(NUMSTA)) ALLOCATE(T(NUMSTA,LM)) ALLOCATE(Q(NUMSTA,LM)) ALLOCATE(U(NUMSTA,LM)) ALLOCATE(V(NUMSTA,LM)) ALLOCATE(Q2(NUMSTA,LM)) ALLOCATE(OMGALF(NUMSTA,LM)) ALLOCATE(CWM(NUMSTA,LM)) ALLOCATE(TRAIN(NUMSTA,LM)) ALLOCATE(TCUCN(NUMSTA,LM)) ALLOCATE(CLDFRA_BL(NUMSTA,LM)) ALLOCATE(RSWTT(NUMSTA,LM)) ALLOCATE(RLWTT(NUMSTA,LM)) ALLOCATE(CCR(NUMSTA,LM)) ALLOCATE(RTOP(NUMSTA,LM)) ALLOCATE(HTM(NUMSTA,LM)) ALLOCATE(OMGA(NUMSTA,LM)) ALLOCATE(p_hold(NUMSTA,LM)) ALLOCATE(t_hold(NUMSTA,LM)) ALLOCATE(PINT(NUMSTA,LM+1)) ALLOCATE(W(NUMSTA,LM+1)) ALLOCATE(WH(NUMSTA,LM)) ALLOCATE(IW(NUMSTA,LM)) ALLOCATE(QRAIN(NUMSTA,LM)) ALLOCATE(QICE(NUMSTA,LM)) ALLOCATE(STADHC(LM)) ALLOCATE(STADHR(LM)) ALLOCATE(DHRAIN(LM,NUMSTA)) ALLOCATE(DHCNVC(LM,NUMSTA)) ALLOCATE(TCUCN0(LM,NUMSTA)) ALLOCATE(TRAIN0(LM,NUMSTA)) ! former parameter statements NWORDM=(LCL1ML+1)*LM+2*LCL1SL LRECPR=4*(8+9+LCL1ML*LM+LCL1SL) ! former parameter statements if (allocated(FPACK)) deallocate(FPACK); allocate(FPACK(NWORDM)) if (allocated(PRODAT)) deallocate(PRODAT); & allocate(PRODAT(NWORDM)) if (ALLOCATED(DUM)) deallocate(DUM); & allocate(DUM(IM,JM,4)) if (ALLOCATED(DUMMY)) deallocate(DUMMY); & allocate(DUMMY(IM,JM)) if (ALLOCATED(DUMMY2)) deallocate(DUMMY2); & allocate(DUMMY2(IM,JM)) if (ALLOCATED(DUMMY3)) deallocate(DUMMY3); & allocate(DUMMY3(IM,JM)) if (ALLOCATED(DUM3D)) deallocate(DUM3D); & allocate(DUM3D(IM+1,JM+1,LM+1)) if (ALLOCATED(DUM3D2)) deallocate(DUM3D2); & allocate(DUM3D2(IM+1,JM+1,LM+1)) if (ALLOCATED(DUM3D3)) deallocate(DUM3D3); & allocate(DUM3D3(IM+1,JM+1,LM+1)) if (ALLOCATED(GDLAT)) deallocate(GDLAT); & allocate(GDLAT(IM,JM)) if (ALLOCATED(GDLON)) deallocate(GDLON); & allocate(GDLON(IM,JM)) if (ALLOCATED(IDUM)) deallocate(IDUM); & allocate(IDUM(IM,JM)) if (ALLOCATED(LMH)) deallocate(LMH); & allocate(LMH(IM,JM)) !!!!! call ext_ncd_get_dom_ti_real(DataHandle,'DX',tmp + ,1,ioutcount,istatus) dxval=nint(tmp) write(6,*) 'dxval= ', dxval call ext_ncd_get_dom_ti_real(DataHandle,'DY',tmp + ,1,ioutcount,istatus) dyval=nint(tmp) write(6,*) 'dyval= ', dyval call ext_ncd_get_dom_ti_real(DataHandle,'CEN_LAT',tmp + ,1,ioutcount,istatus) cenlat=nint(1000.*tmp) write(6,*) 'cenlat= ', cenlat call ext_ncd_get_dom_ti_real(DataHandle,'CEN_LON',tmp + ,1,ioutcount,istatus) cenlon=nint(1000.*tmp) write(6,*) 'cenlon= ', cenlon call ext_ncd_get_dom_ti_real(DataHandle,'TRUELAT1',tmp + ,1,ioutcount,istatus) truelat1=nint(1000.*tmp) write(6,*) 'truelat1= ', truelat1 call ext_ncd_get_dom_ti_real(DataHandle,'TRUELAT2',tmp + ,1,ioutcount,istatus) truelat2=nint(1000.*tmp) write(6,*) 'truelat2= ', truelat2 call ext_ncd_get_dom_ti_integer(DataHandle,'MAP_PROJ',itmp + ,1,ioutcount,istatus) maptype=itmp write(6,*) 'maptype is ', maptype !need to get DT call ext_ncd_get_dom_ti_real(DataHandle,'DT',tmp + ,1,ioutcount,istatus) write(6,*) 'status from DT get: ', istatus write(6,*) 'returned value for DT: ', tmp DT=tmp print*,'DT= ',DT ! get 3-D variables print*,'im,jm,lm= ',im,jm,lm c write(6,*) 'DateStr: ', DateStr VarName='U' call getVariable(fileName,DateStr,DataHandle,VarName,DUM3D, & IM+1,1,JM+1,LM+1,IM+1,JS,JE,LM) write(6,*) 'U: ', DUM3D(20,20,20) VarName='V' call getVariable(fileName,DateStr,DataHandle,VarName,DUM3D2, & IM+1,1,JM+1,LM+1,IM,JS,JEV,LM) write(6,*) 'V: ', DUM3D2(20,20,20) DO L = 1, LM DO N=1,NUMSTA U(N,L)=DUM3D(IHINDX(N),JHINDX(N),L) V(N,L)=DUM3D2(IHINDX(N),JHINDX(N),L) ENDDO ENDDO write(6,*) 'U,V defined: ' VarName='W' call getVariable(fileName,DateStr,DataHandle,VarName,DUM3D, & IM+1,1,JM+1,LM+1,IM,JS,JE,LM+1) write(6,*) 'W: ', DUM3D(20,20,20) DO l = 1, lm+1 DO N=1,NUMSTA I=IHINDX(N) J=JHINDX(N) w ( N,L ) = dum3d ( i, j, l ) END DO END DO DO L = 1,LM DO N=1,NUMSTA I=IHINDX(N) J=JHINDX(N) WH(N,L) = (W(N,L)+W(N,L+1))*0.5 END DO END DO VarName='SWDOWN' call getVariable(fileName,DateStr,DataHandle,VarName,DUMMY, & IM,1,JM,1,IM,JS,JE,1) VarName='GLW' call getVariable(fileName,DateStr,DataHandle,VarName,DUMMY2, & IM,1,JM,1,IM,JS,JE,1) VarName='GSW' call getVariable(fileName,DateStr,DataHandle,VarName,DUMMY3, & IM,1,JM,1,IM,JS,JE,1) DO N=1,NUMSTA I=IHINDX(N) J=JHINDX(N) ASWIN(N)=DUMMY(I,J) ALWIN(N)=DUMMY2(I,J) ASWOUT(N)=DUMMY3(I,J)-DUMMY(I,J) ENDDO VarName='PH' call getVariable(fileName,DateStr,DataHandle,VarName,DUM3D2, & IM+1,1,JM+1,LM+1,IM,JS,JE,LM+1) write(6,*) 'PH: ', DUM3D(20,20,20) VarName='PHB' call getVariable(fileName,DateStr,DataHandle,VarName,DUM3D3, & IM+1,1,JM+1,LM+1,IM,JS,JE,LM+1) write(6,*) 'PHB: ', DUM3D(20,20,20) allocate(ZINT(NUMSTA,LM+1)) DO L=1,LM+1 DO N=1,NUMSTA I=IHINDX(N) J=JHINDX(N) ZINT(N,L)=(DUM3D2(I,J,L)+DUM3D3(I,J,L))/G ENDDO ENDDO VarName='T' call getVariable(fileName,DateStr,DataHandle,VarName,DUM3D, & IM+1,1,JM+1,LM+1,IM,JS,JE,LM) write(6,*) 'T: ', DUM3D(20,20,20) do l = 1, lm do N = 1, NUMSTA I=IHINDX(N) J=JHINDX(N) t_hold ( N , L ) = dum3d ( i, j, l ) + 300. end do end do VarName='MU' call getVariable(fileName,DateStr,DataHandle,VarName,DUMMY, & IM,1,JM,1,IM,JS,JE,1) VarName='MUB' call getVariable(fileName,DateStr,DataHandle,VarName,DUMMY2, & IM,1,JM,1,IM,JS,JE,1) 633 format(15(f6.0,1x)) ! write(6,*) 'past MU, MUB' if (allocated(pint_part)) deallocate(pint_part) allocate(pint_part(NUMSTA)) if (allocated(PDS)) deallocate(PDS) allocate(PDS(NUMSTA)) allocate(SFCP(NUMSTA)) DO N=1,NUMSTA I=IHINDX(N) J=JHINDX(N) pint_part(N)=DUMMY(I,J)+DUMMY2(I,J) ENDDO ! VarName='MU0' ! call getVariable(fileName,DateStr,DataHandle,VarName,DUM0D, ! & 1,1,1,1,1,1,1,1) VarName='P' call getVariable(fileName,DateStr,DataHandle,VarName,DUM3D2, & IM+1,1,JM+1,LM+1,IM,JS,JE,LM) DO L=1,LM DO N=1,NUMSTA I=IHINDX(N) J=JHINDX(N) p_hold(N,L)=DUM3D2(I,J,L) ENDDO ENDDO VarName='QVAPOR' call getVariable(fileName,DateStr,DataHandle,VarName,DUM3D, & IM+1,1,JM+1,LM+1,IM,JS,JE,LM) DO L=1,LM DO N=1,NUMSTA I=IHINDX(N) J=JHINDX(N) Q(N,L)=DUM3D(I,J,L)/(1.0+DUM3D(I,J,L)) ENDDO ENDDO VarName='QRAIN' call getVariable(fileName,DateStr,DataHandle,VarName,DUM3D, & IM+1,1,JM+1,LM+1,IM,JS,JE,LM) c DO L=1,LM c DO N=1,NUMSTA c I=IHINDX(N) c J=JHINDX(N) c QRAIN(N,L)=DUM3D(I,J,L)/(1.0+DUM3D(I,J,L)) c ENDDO c ENDDO VarName='QICE' call getVariable(fileName,DateStr,DataHandle,VarName,DUM3D, & IM+1,1,JM+1,LM+1,IM,JS,JE,LM) DO L=1,LM DO N=1,NUMSTA I=IHINDX(N) J=JHINDX(N) QICE(N,L)=DUM3D(I,J,L)/(1.0+DUM3D(I,J,L)) ENDDO ENDDO VarName='QCLOUD' call getVariable(fileName,DateStr,DataHandle,VarName,DUM3D, & IM+1,1,JM+1,LM+1,IM,JS,JE,LM) DO L = 1, LM DO N=1,NUMSTA CWM(N,L)=DUM3D(IHINDX(N),JHINDX(N),L) ENDDO ENDDO VarName='CLDFRA_BL' call getVariable(fileName,DateStr,DataHandle,VarName,DUM3D, & IM+1,1,JM+1,LM+1,IM,JS,JE,LM) DO L = 1, LM DO N=1,NUMSTA CLDFRA_BL(N,L)=DUM3D(IHINDX(N),JHINDX(N),L) ENDDO ENDDO VarName='QKE' call getVariable(fileName,DateStr,DataHandle,VarName,DUM3D, & IM+1,1,JM+1,LM+1,IM,JS,JE,LM) DO L = 1, LM DO N=1,NUMSTA Q2(N,L)=DUM3D(IHINDX(N),JHINDX(N),L) ENDDO ENDDO VarName='TSLB' call getVariable(fileName,DateStr,DataHandle,VarName,DUM3D, & IM+1,1,JM+1,LM+1,IM,JS,JE,NSOIL) DO L = 1, NSOIL DO N=1,NUMSTA I=IHINDX(N) J=JHINDX(N) ! flip soil layer again because wrf soil variable vertical indexing ! is the same with eta and vertical indexing was flipped for both ! atmospheric and soil layers within getVariable STC(N,L) = DUM3D(I,J,NSOIL-L+1) END DO END DO call getVariable(fileName,DateStr,DataHandle,'ZS',SLDPTH2, & NSOIL,1,1,1,NSOIL,1,1,1) call getVariable(fileName,DateStr,DataHandle,'DZS',SLDPTH2, & NSOIL,1,1,1,NSOIL,1,1,1) VarName='Q2' call getVariable(fileName,DateStr,DataHandle,VarName,DUMMY, & IM,1,JM,1,IM,JS,JE,1) DO N=1,NUMSTA !!! conversion needed for QSHLTR? (spec hum, mix ratio, what??) QSHLTR(N)=DUMMY(IHINDX(N),JHINDX(N)) ENDDO VarName='T2' call getVariable(fileName,DateStr,DataHandle,VarName,DUMMY, & IM,1,JM,1,IM,JS,JE,1) VarName='TH2' call getVariable(fileName,DateStr,DataHandle,VarName,DUMMY, & IM,1,JM,1,IM,JS,JE,1) DO N=1,NUMSTA TH2_hold(N)=DUMMY(IHINDX(N),JHINDX(N)) ENDDO VarName='U10' call getVariable(fileName,DateStr,DataHandle,VarName,DUMMY, & IM,1,JM,1,IM,JS,JE,1) DO N=1,NUMSTA U10(N)=DUMMY(IHINDX(N),JHINDX(N)) ENDDO VarName='V10' call getVariable(fileName,DateStr,DataHandle,VarName,DUMMY, & IM,1,JM,1,IM,JS,JE,1) DO N=1,NUMSTA V10(N)=DUMMY(IHINDX(N),JHINDX(N)) ENDDO DO N=1,NUMSTA I=IHINDX(N) J=JHINDX(N) TH10(N)=-9999. Q10(N)=-9999. END DO VarName='SMOIS' call getVariable(fileName,DateStr,DataHandle,VarName,DUM3D, & IM+1,1,JM+1,LM+1,IM,JS,JE,NSOIL) VarName='SH2O' call getVariable(fileName,DateStr,DataHandle,VarName,DUM3D2, & IM+1,1,JM+1,LM+1,IM,JS,JE,NSOIL) DO L = 1, NSOIL DO N=1,NUMSTA I=IHINDX(N) J=JHINDX(N) ! flip soil layer again because wrf soil variable vertical indexing ! is the same with eta and vertical indexing was flipped for both ! atmospheric and soil layers within getVariable SMC(N,L) = DUM3D (I,J,NSOIL-L+1) CMC(N) = DUM3D (I,J,1) ! ?????? SH2O(N,L)= DUM3D2(I,J,NSOIL-L+1) END DO END DO c c reading SMSTAV VarName='SMOIS' call getVariable(fileName,DateStr,DataHandle,VarName,DUMMY, & IM,1,JM,1,IM,JS,JE,1) DO N=1,NUMSTA I=IHINDX(N) J=JHINDX(N) SMSTAV(N)=DUMMY(I,J) ENDDO VarName='SFROFF' call getVariable(fileName,DateStr,DataHandle,VarName,DUMMY, & IM,1,JM,1,IM,JS,JE,1) VarName='UDROFF' call getVariable(fileName,DateStr,DataHandle,VarName,DUMMY, & IM,1,JM,1,IM,JS,JE,1) VarName='IVGTYP' call getIVariable(fileName,DateStr,DataHandle,VarName,IDUM & ,IM,1,JM,1,IM,JS,JE,1) VarName='ISLTYP' call getIVariable(fileName,DateStr,DataHandle,VarName,IDUM & ,IM,1,JM,1,IM,JS,JE,1) VarName='SR' call getVariable(fileName,DateStr,DataHandle,VarName,DUMMY, & IM,1,JM,1,IM,JS,JE,1) DO N=1,NUMSTA I=IHINDX(N) J=JHINDX(N) SR(N)=DUMMY(I,J) ENDDO VarName='VEGFRA' call getVariable(fileName,DateStr,DataHandle,VarName,DUMMY, & IM,1,JM,1,IM,JS,JE,1) DO N=1,NUMSTA I=IHINDX(N) J=JHINDX(N) VEGFRC(N)=DUMMY(I,J) ! if (mod(N,25) .eq. 0) then ! write(6,*) 'N, VEGFRC(N): ', N, VEGFRC(N) ! endif ENDDO VarName='GRDFLX' call getVariable(fileName,DateStr,DataHandle,VarName,DUMMY, & IM,1,JM,1,IM,JS,JE,1) VarName='ACSNOW' call getVariable(fileName,DateStr,DataHandle,VarName,DUM(:,:,1), & IM,1,JM,1,IM,JS,JE,1) VarName='ACSNOM' call getVariable(fileName,DateStr,DataHandle,VarName,DUM(:,:,2), & IM,1,JM,1,IM,JS,JE,1) DO N=1,NUMSTA I=IHINDX(N) J=JHINDX(N) ACSNOW(N)=DUM(I,J,1) ACSNOM(N)=DUM(I,J,2) ENDDO VarName='SNOW' call getVariable(fileName,DateStr,DataHandle,VarName,DUMMY, & IM,1,JM,1,IM,JS,JE,1) DO N=1,NUMSTA I=IHINDX(N) J=JHINDX(N) SWEM(N)=DUMMY(I,J) ENDDO VarName='SNOWH' call getVariable(fileName,DateStr,DataHandle,VarName,DUMMY, & IM,1,JM,1,IM,JS,JE,1) VarName='CANWAT' call getVariable(fileName,DateStr,DataHandle,VarName,DUMMY, & IM,1,JM,1,IM,JS,JE,1) DO N=1,NUMSTA I=IHINDX(N) J=JHINDX(N) CANOPY(N)=DUMMY(I,J) ENDDO VarName='FLHC' call getVariable(fileName,DateStr,DataHandle,VarName,DUMMY, & IM,1,JM,1,IM,JS,JE,1) DO N=1,NUMSTA I=IHINDX(N) J=JHINDX(N) SFCEXC(N)=DUMMY(I,J) ENDDO VarName='SST' call getVariable(fileName,DateStr,DataHandle,VarName,DUMMY, & IM,1,JM,1,IM,JS,JE,1) VarName='THZ0' call getVariable(fileName,DateStr,DataHandle,VarName,DUMMY, & IM,1,JM,1,IM,JS,JE,1) VarName='QZ0' call getVariable(fileName,DateStr,DataHandle,VarName,DUMMY, & IM,1,JM,1,IM,JS,JE,1) VarName='UZ0' call getVariable(fileName,DateStr,DataHandle,VarName,DUMMY, & IM,1,JM,1,IM,JS,JE,1) VarName='VZ0' call getVariable(fileName,DateStr,DataHandle,VarName,DUMMY, & IM,1,JM,1,IM,JS,JE,1) VarName='QSFC' call getVariable(fileName,DateStr,DataHandle,VarName,DUMMY, & IM,1,JM,1,IM,JS,JE,1) VarName='AKHS' call getVariable(fileName,DateStr,DataHandle,VarName,DUMMY, & IM,1,JM,1,IM,JS,JE,1) VarName='AKMS' call getVariable(fileName,DateStr,DataHandle,VarName,DUMMY, & IM,1,JM,1,IM,JS,JE,1) VarName='PB' call getVariable(fileName,DateStr,DataHandle,VarName,DUM3D, & IM+1,1,JM+1,LM+1,IM,JS,JE,LM) if (allocated(PMID)) deallocate(PMID) allocate(PMID(NUMSTA,LM)) write(6,*) 'to PMID DEFINITIONS ' DO L=1,LM DO N=1,NUMSTA I=IHINDX(N) J=JHINDX(N) PMID(N,L)=p_hold(N,L)+DUM3D(I,J,L) T(N,L)=t_hold(N,L)*(PMID(N,L)*1.e-5)**CAPA OMGA(N,L)=-WH(N,L)*PMID(N,L)*G/ & (RD*T(N,L)*(1+.608*Q(N,L))) !!!!! CONSTRAIN Q TO A PARTICULAR RH VALUE, FOLLOWING CALRH OF WRFPOST QC= (PQ0/PMID(N,L)) *EXP(A2*(T(N,L)-A3)/(T(N,L)-A4)) RH=Q(N,L)/QC IF (RH .gt. RHCRIT) THEN IF (RH .gt. 1.02) THEN write(6,*) 'reducing RH from: ', RH, ' at N,L: ', N,L ENDIF Q(N,L)=0.999*RHCRIT*QC ENDIF !!!!! END RH CONSTRAIN ENDDO ENDDO !!!! need to do the qvapor fix - integrated contribution of !!!! moisture to the surface pressure allocate(PVAPOR(NUMSTA)) c DO N=1,NUMSTA c I=IHINDX(N) c J=JHINDX(N) c PVAPOR(N)=0. c do L=1,LM c dz=ZINT(N,L)-ZINT(N,L+1) c rho=PMID(N,L)/(RD*T(N,L)) c print *, 'vapor check ', N, L, dz, rho, PMID(N,L), T(N,L), c x Q(N,L), Q(N,L+1) c c if (L .le. LM-1) then c QMEAN=0.5*(Q(N,L)+Q(N,L+1)) c else c QMEAN=Q(N,L) c endif c if (mod(L,5) .eq. 0 .and. mod(N,20) .eq. 0) then c write(6,*) 'N, L, dz, rho, qmean, increm: ', c & N, L, dz, rho, qmean, G*rho*dz*QMEAN c endif c c pvapor(N)=pvapor(N)+G*rho*dz*QMEAN c enddo c ENDDO VarName='P_TOP' call getVariable(fileName,DateStr,DataHandle,VarName,PT, & 1,1,1,1,1,1,1,1) write(6,*) 'returned P_TOP into PT as : ', PT VarName='PSFC' call getVariable(fileName,DateStr,DataHandle,VarName,DUMMY, & IM,1,JM,1,IM,JS,JE,1) DO N=1,NUMSTA I=IHINDX(N) J=JHINDX(N) SFCP(N)=DUMMY(I,J) ENDDO c DO N=1,NUMSTA c I=IHINDX(N) c J=JHINDX(N) c PINT (N,1)=PT c PINT(N,LM+1)=pint_part(N)+PT+PVAPOR(N) c PDS(N)=pint_part(N)+PT+PVAPOR(N) c print *, 'setting PDS ', PDS(N), pint_part(N), PT, QMEAN, c x PVAPOR(N), SFCP(N) c ENDDO !!!! end vapor fix VarName='MAPFAC_M' call getVariable(fileName,DateStr,DataHandle,VarName,DUMMY, & IM,1,JM,1,IM,JS,JE,1) VarName='MAPFAC_U' call getVariable(fileName,DateStr,DataHandle,VarName,DUMMY, & IM,1,JM,1,IM,JS,JE,1) VarName='MAPFAC_V' call getVariable(fileName,DateStr,DataHandle,VarName,DUMMY, & IM,1,JM,1,IM,JS,JE,1) VarName='F' call getVariable(fileName,DateStr,DataHandle,VarName,DUMMY, & IM,1,JM,1,IM,JS,JE,1) VarName='E' call getVariable(fileName,DateStr,DataHandle,VarName,DUMMY, & IM,1,JM,1,IM,JS,JE,1) VarName='SINALPHA' call getVariable(fileName,DateStr,DataHandle,VarName,DUMMY, & IM,1,JM,1,IM,JS,JE,1) VarName='COSALPHA' call getVariable(fileName,DateStr,DataHandle,VarName,DUMMY, & IM,1,JM,1,IM,JS,JE,1) VarName='HGT' call getVariable(fileName,DateStr,DataHandle,VarName,DUMMY, & IM,1,JM,1,IM,JS,JE,1) DO N=1,NUMSTA RES(N)=1.0 FIS(N)=DUMMY(IHINDX(N),JHINDX(N))*G ENDDO !HERENOW VarName='TSK' call getVariable(fileName,DateStr,DataHandle,VarName,DUMMY, & IM,1,JM,1,IM,JS,JE,1) ! VarName='P_TOP' ! call getVariable(fileName,DateStr,DataHandle,VarName,PT, ! & 1,1,1,1,1,1,1,1) ! write(6,*) 'returned P_TOP into PT as : ', PT DO N=1,NUMSTA I=IHINDX(N) J=JHINDX(N) PINT (N,LM+1)=pint_part(N)+PT PINT (N,1)=PT ! PD(I,J)=PINT (N,LM+1) - PINT(N,1) TSHLTR(N)=TH2_hold(N)*(PINT(N,LM+1)/100000.)**CAPA THS(N)=DUMMY(I,J)*(100000./PINT(N,LM+1))**CAPA HBOT(N)=-9999. !!! constrain surface RH QC=(PQ0/PINT(N,LM+1))*EXP(A2*(TSHLTR(N)-A3)/(TSHLTR(N)-A4)) RH=QSHLTR(N)/QC IF (RH .gt. RHCRIT) THEN write(6,*) 'reducing surface RH from: ', RH, ' at N: ', N QSHLTR(N)=0.999*RHCRIT*QC ENDIF ENDDO ! VarName='FNM' ! write(6,*) 'FNM' ! call getVariable(fileName,DateStr,DataHandle,VarName,DUM1D, ! & LM,1,1,1,LM,1,1,1) ! write(6,*) 'FNP' ! VarName='FNP' ! call getVariable(fileName,DateStr,DataHandle,VarName,DUM1D, ! & LM,1,1,1,LM,1,1,1) ! write(6,*) 'RDNW' ! VarName='RDNW' ! call getVariable(fileName,DateStr,DataHandle,VarName,DUM1D, ! & LM,1,1,1,LM,1,1,1) ! write(6,*) 'return getVariable' ! write(6,*) 'RDN' ! VarName='RDN' ! call getVariable(fileName,DateStr,DataHandle,VarName,DUM1D, ! & LM,1,1,1,LM,1,1,1) ! write(6,*) 'DNW' ! VarName='DNW' ! call getVariable(fileName,DateStr,DataHandle,VarName,DUM1D, ! & LM,1,1,1,LM,1,1,1) ! write(6,*) 'DN' ! VarName='DN' ! call getVariable(fileName,DateStr,DataHandle,VarName,DUM1D, ! & LM,1,1,1,LM,1,1,1) ! VarName='ZNU' ! write(6,*) 'ZNU' ! call getVariable(fileName,DateStr,DataHandle,VarName,DUM1D, ! & LM,1,1,1,LM,1,1,1) ! VarName='ZNW' ! write(6,*) 'ZNW' ! call getVariable(fileName,DateStr,DataHandle,VarName,DUM1D, ! & LM+1,1,1,1,LM+1,1,1,1) ! VarName='CFN' ! write(6,*) 'CFN' ! call getVariable(fileName,DateStr,DataHandle,VarName,DUM0D, ! & 1,1,1,1,1,1,1,1) ! VarName='CFN1' ! call getVariable(fileName,DateStr,DataHandle,VarName,DUM0D, ! & 1,1,1,1,1,1,1,1) ! VarName='EPSTS' ! call getVariable(fileName,DateStr,DataHandle,VarName,DUM0D, ! & 1,1,1,1,1,1,1,1) CC CC RAINC is "ACCUMULATED TOTAL CUMULUS PRECIPITATION" CC RAINNC is "ACCUMULATED TOTAL GRID SCALE PRECIPITATION" write(6,*) 'getting RAINC' VarName='RAINC' call getVariable(fileName,DateStr,DataHandle,VarName,DUM(:,:,1), & IM,1,JM,1,IM,JS,JE,1) write(6,*) 'getting RAINNC' VarName='RAINNC' call getVariable(fileName,DateStr,DataHandle,VarName,DUM(:,:,2), & IM,1,JM,1,IM,JS,JE,1) DO N=1,NUMSTA ! no convective precip in HRRR CUPREC(N)=DUM(IHINDX(N),JHINDX(N),1)*.001 ACPREC(N)=( DUM(IHINDX(N),JHINDX(N),1)+ & DUM(IHINDX(N),JHINDX(N),2) )*.001 ENDDO VarName='GSW' call getVariable(fileName,DateStr,DataHandle,VarName,DUMMY, & IM,1,JM,1,IM,JS,JE,1) VarName='GLW' call getVariable(fileName,DateStr,DataHandle,VarName,DUMMY, & IM,1,JM,1,IM,JS,JE,1) VarName='XLAT' call getVariable(fileName,DateStr,DataHandle,VarName,DUMMY, & IM,1,JM,1,IM,JS,JE,1) do j = 1, jm do i = 1, im GDLAT ( i, j ) = DUMMY ( i, j ) end do end do VarName='XLONG' call getVariable(fileName,DateStr,DataHandle,VarName,DUMMY, & IM,1,JM,1,IM,JS,JE,1) do j = 1, jm do i = 1, im GDLON ( i, j ) = DUMMY ( i, j ) end do end do VarName='LU_INDEX' call getVariable(fileName,DateStr,DataHandle,VarName,DUMMY, & IM,1,JM,1,IM,JS,JE,1) VarName='TMN' call getVariable(fileName,DateStr,DataHandle,VarName,DUM(:,:,1), & IM,1,JM,1,IM,JS,JE,1) ! XLAND 1 land 2 sea VarName='XLAND' call getVariable(fileName,DateStr,DataHandle,VarName,DUMMY, & IM,1,JM,1,IM,JS,JE,1) DO N=1,NUMSTA I=IHINDX(N) J=JHINDX(N) SM(N)=DUMMY(I,J)-1.0 SOILTB(N)=DUM(I,J,1) ! NOT 100% sure on this definition ENDDO VarName='HFX' call getVariable(fileName,DateStr,DataHandle,VarName,DUMMY, & IM,1,JM,1,IM,JS,JE,1) DO N=1,NUMSTA I=IHINDX(N) J=JHINDX(N) SFCSHX(N)=DUMMY(I,J) ENDDO VarName='QFX' call getVariable(fileName,DateStr,DataHandle,VarName,DUMMY, & IM,1,JM,1,IM,JS,JE,1) VarName='LH' call getVariable(fileName,DateStr,DataHandle,VarName,DUMMY, & IM,1,JM,1,IM,JS,JE,1) DO N=1,NUMSTA I=IHINDX(N) J=JHINDX(N) SFCLHX(N)=DUMMY(I,J) ENDDO print*,'LH ',LH(100:110) VarName='SNOWC' call getVariable(fileName,DateStr,DataHandle,VarName,DUMMY, & IM,1,JM,1,IM,JS,JE,1) c call ext_ncd_ioclose(DataHandle) print *, 'closed file' !!!!!!!!!!!!!!!!! END INSERT !!!!!!!!!!!!!!!!!!!!!!!!!!!!!1 C------------------------------------------------------------------------ C*** C*** READ QUANTITIES NEEDED FROM THE NHB FILE C*** DO N=1,NUMSTA ! HBM2(N)=DUM(IHINDX(N),JHINDX(N),1) HBM2(N)=1.0 ENDDO C !! ICE available in wrfinput file...zero out for now DO N=1,NUMSTA SICE(N)=0.0 ENDDO C DO L=1,LM DO N=1,NUMSTA HTM(N,L)=1.0 ENDDO ENDDO write(6,*) 'set LMH to : ', LM write(6,*) 'IM,jm: ', Im,jm do J=1,JM do I=1,IM LMH(I,J)=LM enddo enddo C C Define a GDS, then use GDSWIZ to find N.N. point GDS=-1 if(maptype .eq. 1)THEN ! Lambert conformal GDS(1)=3 GDS(2)=im GDS(3)=jm GDS(4)=int(GDLAT(1,1)*1000) GDS(5)=int(GDLON(1,1)*1000) GDS(6)=8 GDS(7)=CENLON GDS(8)=DXVAL GDS(9)=DYVAL GDS(10)=0 GDS(11)=64 GDS(12)=TRUELAT2 GDS(13)=TRUELAT1 ELSE IF(MAPTYPE .EQ. 2)THEN !Polar stereographic GDS(1)=5 GDS(2)=im GDS(3)=jm GDS(4)=int(GDLAT(1,1)*1000) GDS(5)=int(GDLON(1,1)*1000) GDS(6)=8 GDS(7)=CENLON GDS(8)=DXVAL GDS(9)=DYVAL GDS(10)=0 GDS(11)=64 ELSE IF(MAPTYPE .EQ. 3)THEN !Mercator GDS(1)=1 GDS(2)=im GDS(3)=jm GDS(4)=int(GDLAT(1,1)*1000) GDS(5)=int(GDLON(1,1)*1000) GDS(6)=8 GDS(7)=int(GDLAT(IM,JM)*1000) GDS(8)=int(GDLON(IM,JM)*1000) GDS(9)=TRUELAT1 GDS(10)=0 GDS(11)=64 GDS(12)=DXVAL GDS(13)=DYVAL END IF write(6,*) 'GDS= ', (GDS(NN),NN=1,13) C C GET ROTATION ANGLES FOR WIND C write(6,*) 'numsta= ', numsta ALLOCATE(CROT(NUMSTA),SROT(NUMSTA)) CROT=0. SROT=0. DO N=1,NUMSTA I=IHINDX(N) J=JHINDX(N) RLATX=GDLAT(I,J) RLONX=GDLON(I,J) CALL GDSWIZ(GDS,-1,1,-9999.,xout,yout, & RLONX,RLATX,NRET,1,CROT(N),SROT(N)) ENDDO NTSPH=INT(3600./DT+0.50) C C------------------------------------------------------------------------ C DO L=1,LM DO N=1,NUMSTA TRAIN(N,L)=-9999. TCUCN(N,L)=-9999. ENDDO ENDDO DO N=1,NUMSTA Z0(N)=-9999. HBOT(N)=-9999. CFRACL(N)=0. CFRACM(N)=0. CFRACH(N)=0. CZEN(N)=-9999. DO L=1,17 IF (CLDFRA_BL(N,L).GT.CFRACH(N)) THEN CFRACH(N)=CLDFRA_BL(N,L) print*,'CFRACH ',CFRACH(N) ENDIF ENDDO DO L=18,35 IF (CLDFRA_BL(N,L).GT.CFRACM(N)) THEN CFRACM(N)=CLDFRA_BL(N,L) ! print*,'CFRACM ',CFRACM(N) ENDIF ENDDO DO L=36,50 IF (CLDFRA_BL(N,L).GT.CFRACL(N)) THEN CFRACL(N)=CLDFRA_BL(N,L) ! print*,'CFRACL ',CFRACL(N) ENDIF ENDDO ENDDO print*,'CFRACH ',CFRACH(10:100) ! print*,'CFRACM ',CFRACM(10:100) ! print*,'CFRACL ',CFRACL(10:100) DO N=1,NUMSTA PSFC = SFCP(N) ZSFC = FIS(N)*GI PSLP(N) = PSFC ! write(0,*) 'N, ZSFC, PSFC: ', N, ZSFC, PSFC C C COMPUTE LAYER TAU (VIRTUAL TEMP*RD/G). Cwrong TVRT = T(N,1)*(1.0+D608*Q(N,1)) TVRT = T(N,LM)*(1.0+D608*Q(N,LM)) if (mod(N,50) .eq. 0) then write(0,*) 'N, T(N,LM), Q(N,LM), TVRT: ', & N, T(N,LM), Q(N,LM), TVRT endif TAU = TVRT*RD*GI C C COMPUTE TAU AT THE GROUND (Z=ZSFC) AND SEA LEVEL (Z=0) C ASSUMING A CONSTANT LAPSE RATE OF GAMMA=6.5DEG/KM. TVRSFC = TVRT + (ZSFC- ZSL)*GAMMA TAUSFC = TVRSFC*RD*GI TVRSL = TVRT + (ZSFC- ZSL)*GAMMA TAUSL = TVRSL*RD*GI C C IF NEED BE APPLY SHEULL CORRECTION. IF ((TAUSL.GT.TAUCR).AND.(TAUSFC.LE.TAUCR)) THEN TAUSL=TAUCR ELSEIF ((TAUSL.GT.TAUCR).AND.(TAUSFC.GT.TAUCR)) THEN TAUSL = TAUCR-CONST*(TAUSFC-TAUCR)**2 ENDIF C C COMPUTE MEAN TAU. TAUAVG = 0.5*(TAUSL+TAUSFC) C C COMPUTE SEA LEVEL PRESSURE. IF (FIS(N).GT.1.0) PSLP(N) = PSFC*EXP(ZSFC/TAUAVG) c print *,n,idstn(n),pslp(n),tvrt ENDDO DO N=1,NUMSTA SNO(N)=-9999. ! many "sno" type variables...which do we need here? c PSLP(N)=-9999. SMSTOT(N)=-9999. c SFCEXC(N)=-9999. CZMEAN(N)=-9999. U00(N)=-9999. c SR(N)=-9999. ENDDO DO N=1,NUMSTA SSROFF(N)=-9999. BGROFF(N)=-9999. c SFCSHX(N)=-9999. c SFCLHX(N)=-9999. SUBSHX(N)=-9999. SNOPCX(N)=-9999. ENDDO DO N=1,NUMSTA c ASWIN(N)=-9999. c ASWOUT(N)=-9999. ASWTOA(N)=-9999. c ALWIN(N)=-9999. ALWOUT(N)=-9999. ALWTOA(N)=-9999. ENDDO DO N=1,NUMSTA POTFLX(N)=-9999. TLMIN(N)=-9999. TLMAX(N)=-9999. ENDDO C------------------------------------------------------------------------ C*** C*** READ RADIATIVE TEMPERATURE TENDENCIES C*** DO L=1,LM DO N=1,NUMSTA RSWTT(N,L)=-9999. RLWTT(N,L)=-9999. ENDDO ENDDO C c CLOSE(LRSTRT) C------------------------------------------------------------------------ C*** C*** THE FORECAST HOUR C*** c IFHR=NTSD/NTSPH IFHR=ITAG write(6,*) 'IFHR: ', IFHR C------------------------------------------------------------------------ IF(ITAG.GT.0)THEN write(6,*) 'working on preceding file' C*** C*** GENERATE THE NAME OF THE PRECEDING RESTRT FILE C*** ITAG0=ITAG-INCR RINC(1)=0. RINC(2)=float(ITAG0) RINC(3)=0. RINC(4)=0. RINC(5)=0. write(6,*) 'RINC(2): ', rinc(2) call w3movdat(rinc,idate,jdate) write(DateStrold1,301) JDATE(1),JDATE(2),JDATE(3),JDATE(5) write(DateStrold,302) JDATE(1),JDATE(2),JDATE(3),JDATE(5) 301 format(i4,'-',i2.2,'-',i2.2,'_',i2.2,'_00_00') 302 format(i4,'-',i2.2,'-',i2.2,'_',i2.2,':00:00') write(6,*) 'filename later in PROF: ', filename, '_END' len=index(filename,' ')-1 write(6,*) 'LEN= ', LEN filename=filename(1:len-19)//DateStrold1 ! write(6,*) 'old filename is ', trim(filename) write(6,*) 'date for old file is: ', datestrold !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!! !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!! ! INSERT READ FROM ABOVE ONCE WORK OUT KINKS !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!! !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!! CALL ext_ncd_open_for_read( trim(fileName), 0, 0, " ", & DataHandle, Status) if ( Status /= 0 ) then print*,'error opening ',fileName, ' Status = ', Status ; stop endif C Getting start time CALL ext_ncd_get_dom_ti_char(DataHandle 1 ,'START_DATE',startdate, status ) print*,'startdate= ',startdate ! ifhr=nint(rinc(2)) ! print*,' in PROF ifhr fileName=',ifhr,fileName call ext_ncd_get_dom_ti_real(DataHandle,'DX',tmp + ,1,ioutcount,istatus) dxval=nint(tmp) write(6,*) 'dxval= ', dxval call ext_ncd_get_dom_ti_real(DataHandle,'DY',tmp + ,1,ioutcount,istatus) dyval=nint(tmp) write(6,*) 'dyval= ', dyval call ext_ncd_get_dom_ti_real(DataHandle,'CEN_LAT',tmp + ,1,ioutcount,istatus) cenlat=nint(1000.*tmp) write(6,*) 'cenlat= ', cenlat call ext_ncd_get_dom_ti_real(DataHandle,'CEN_LON',tmp + ,1,ioutcount,istatus) cenlon=nint(1000.*tmp) write(6,*) 'cenlon= ', cenlon call ext_ncd_get_dom_ti_real(DataHandle,'TRUELAT1',tmp + ,1,ioutcount,istatus) truelat1=nint(1000.*tmp) write(6,*) 'truelat1= ', truelat1 call ext_ncd_get_dom_ti_real(DataHandle,'TRUELAT2',tmp + ,1,ioutcount,istatus) truelat2=nint(1000.*tmp) write(6,*) 'truelat2= ', truelat2 call ext_ncd_get_dom_ti_integer(DataHandle,'MAP_PROJ',itmp + ,1,ioutcount,istatus) maptype=itmp write(6,*) 'maptype is ', maptype !need to get DT call ext_ncd_get_dom_ti_real(DataHandle,'DT',tmp + ,1,ioutcount,istatus) DT=tmp print*,'DT= ',DT ! get 3-D variables print*,'im,jm,lm= ',im,jm,lm c VarName='U' call getVariable(fileName,DateStrold,DataHandle,VarName,DUM3D, & IM+1,1,JM+1,LM+1,IM+1,JS,JE,LM) write(6,*) 'U: ', DUM3D(20,20,20) VarName='V' call getVariable(fileName,DateStrold,DataHandle,VarName,DUM3D2, & IM+1,1,JM+1,LM+1,IM,JS,JEV,LM) write(6,*) 'V: ', DUM3D2(20,20,20) VarName='W' call getVariable(fileName,DateStrold,DataHandle,VarName,DUM3D, & IM+1,1,JM+1,LM+1,IM,JS,JE,LM+1) VarName='PH' call getVariable(fileName,DateStrold,DataHandle,VarName,DUM3D2, & IM+1,1,JM+1,LM+1,IM,JS,JE,LM+1) VarName='PHB' call getVariable(fileName,DateStrold,DataHandle,VarName,DUM3D, & IM+1,1,JM+1,LM+1,IM,JS,JE,LM+1) print*,'finish reading geopotential' VarName='T' call getVariable(fileName,DateStrold,DataHandle,VarName,DUM3D, & IM+1,1,JM+1,LM+1,IM,JS,JE,LM) VarName='MU' call getVariable(fileName,DateStrold,DataHandle, & VarName,DUM(:,:,1), & IM,1,JM,1,IM,JS,JE,1) VarName='MUB' call getVariable(fileName,DateStrold,DataHandle, & VarName,DUM(:,:,2), & IM,1,JM,1,IM,JS,JE,1) ! VarName='MU0' ! call getVariable(fileName,DateStrold,DataHandle,VarName,DUM0D, ! & 1,1,1,1,1,1,1,1) VarName='P' call getVariable(fileName,DateStrold,DataHandle,VarName,DUM3D2, & IM+1,1,JM+1,LM+1,IM,JS,JE,LM) VarName='QVAPOR' call getVariable(fileName,DateStrold,DataHandle,VarName,DUM3D, & IM+1,1,JM+1,LM+1,IM,JS,JE,LM) VarName='TSLB' call getVariable(fileName,DateStrold,DataHandle,VarName,DUM3D, & IM+1,1,JM+1,LM+1,IM,JS,JE,NSOIL) call getVariable(fileName,DateStrold,DataHandle,'ZS',SLDPTH2, & NSOIL,1,1,1,NSOIL,1,1,1) call getVariable(fileName,DateStrold,DataHandle,'DZS',SLDPTH2, & NSOIL,1,1,1,NSOIL,1,1,1) VarName='Q2' call getVariable(fileName,DateStrold,DataHandle,VarName,DUMMY, & IM,1,JM,1,IM,JS,JE,1) VarName='T2' call getVariable(fileName,DateStrold,DataHandle,VarName,DUMMY, & IM,1,JM,1,IM,JS,JE,1) VarName='TH2' call getVariable(fileName,DateStrold,DataHandle,VarName,DUMMY, & IM,1,JM,1,IM,JS,JE,1) VarName='U10' call getVariable(fileName,DateStrold,DataHandle,VarName,DUMMY, & IM,1,JM,1,IM,JS,JE,1) VarName='V10' call getVariable(fileName,DateStrold,DataHandle,VarName,DUMMY, & IM,1,JM,1,IM,JS,JE,1) VarName='SMOIS' call getVariable(fileName,DateStrold,DataHandle,VarName,DUM3D, & IM+1,1,JM+1,LM+1,IM,JS,JE,NSOIL) VarName='SH2O' call getVariable(fileName,DateStrold,DataHandle,VarName,DUM3D2, & IM+1,1,JM+1,LM+1,IM,JS,JE,NSOIL) VarName='SMSTAV' call getVariable(fileName,DateStrold,DataHandle,VarName,DUMMY, & IM,1,JM,1,IM,JS,JE,1) VarName='SFROFF' call getVariable(fileName,DateStrold,DataHandle,VarName,DUMMY, & IM,1,JM,1,IM,JS,JE,1) VarName='UDROFF' call getVariable(fileName,DateStrold,DataHandle,VarName,DUMMY, & IM,1,JM,1,IM,JS,JE,1) VarName='IVGTYP' call getIVariable(fileName,DateStrold,DataHandle,VarName,IDUM & ,IM,1,JM,1,IM,JS,JE,1) VarName='ISLTYP' call getIVariable(fileName,DateStrold,DataHandle,VarName,IDUM & ,IM,1,JM,1,IM,JS,JE,1) VarName='VEGFRA' call getVariable(fileName,DateStrold,DataHandle,VarName,DUMMY, & IM,1,JM,1,IM,JS,JE,1) VarName='GRDFLX' call getVariable(fileName,DateStrold,DataHandle,VarName,DUMMY, & IM,1,JM,1,IM,JS,JE,1) VarName='ACSNOW' call getVariable(fileName,DateStrold,DataHandle,VarName,DUMMY, & IM,1,JM,1,IM,JS,JE,1) DO N=1,NUMSTA ACSNOW0(N)=DUMMY(IHINDX(N),JHINDX(N)) ENDDO VarName='ACSNOM' call getVariable(fileName,DateStrold,DataHandle,VarName,DUMMY, & IM,1,JM,1,IM,JS,JE,1) DO N=1,NUMSTA ACSNOM0(N)=DUMMY(IHINDX(N),JHINDX(N)) ENDDO VarName='SNOW' call getVariable(fileName,DateStrold,DataHandle,VarName,DUMMY, & IM,1,JM,1,IM,JS,JE,1) VarName='SNOWH' call getVariable(fileName,DateStrold,DataHandle,VarName,DUMMY, & IM,1,JM,1,IM,JS,JE,1) VarName='CANWAT' call getVariable(fileName,DateStrold,DataHandle,VarName,DUMMY, & IM,1,JM,1,IM,JS,JE,1) VarName='SST' call getVariable(fileName,DateStrold,DataHandle,VarName,DUMMY, & IM,1,JM,1,IM,JS,JE,1) VarName='THZ0' call getVariable(fileName,DateStrold,DataHandle,VarName,DUMMY, & IM,1,JM,1,IM,JS,JE,1) VarName='QZ0' call getVariable(fileName,DateStrold,DataHandle,VarName,DUMMY, & IM,1,JM,1,IM,JS,JE,1) VarName='UZ0' call getVariable(fileName,DateStrold,DataHandle,VarName,DUMMY, & IM,1,JM,1,IM,JS,JE,1) VarName='VZ0' call getVariable(fileName,DateStrold,DataHandle,VarName,DUMMY, & IM,1,JM,1,IM,JS,JE,1) VarName='QSFC' call getVariable(fileName,DateStrold,DataHandle,VarName,DUMMY, & IM,1,JM,1,IM,JS,JE,1) VarName='AKHS' call getVariable(fileName,DateStrold,DataHandle,VarName,DUMMY, & IM,1,JM,1,IM,JS,JE,1) VarName='AKMS' call getVariable(fileName,DateStrold,DataHandle,VarName,DUMMY, & IM,1,JM,1,IM,JS,JE,1) VarName='PB' call getVariable(fileName,DateStrold,DataHandle,VarName,DUM3D3, & IM+1,1,JM+1,LM+1,IM,JS,JE,LM) VarName='MAPFAC_M' call getVariable(fileName,DateStrold,DataHandle,VarName,DUMMY, & IM,1,JM,1,IM,JS,JE,1) VarName='MAPFAC_U' call getVariable(fileName,DateStrold,DataHandle,VarName,DUMMY, & IM,1,JM,1,IM,JS,JE,1) VarName='MAPFAC_V' call getVariable(fileName,DateStrold,DataHandle,VarName,DUMMY, & IM,1,JM,1,IM,JS,JE,1) VarName='F' call getVariable(fileName,DateStrold,DataHandle,VarName,DUMMY, & IM,1,JM,1,IM,JS,JE,1) VarName='E' call getVariable(fileName,DateStrold,DataHandle,VarName,DUMMY, & IM,1,JM,1,IM,JS,JE,1) ! VarName='SINALPHA' ! call getVariable(fileName,DateStr,DataHandle,VarName,DUMMY, ! & IM,1,JM,1,IM,JS,JE,1) ! VarName='COSALPHA' ! call getVariable(fileName,DateStr,DataHandle,VarName,DUMMY, ! & IM,1,JM,1,IM,JS,JE,1) ! VarName='HGT' ! call getVariable(fileName,DateStr,DataHandle,VarName,DUMMY, ! & IM,1,JM,1,IM,JS,JE,1) ! VarName='TSK' ! call getVariable(fileName,DateStr,DataHandle,VarName,DUMMY, ! & IM,1,JM,1,IM,JS,JE,1) ! VarName='P_TOP' ! call getVariable(fileName,DateStr,DataHandle,VarName,PT, ! & 1,1,1,1,1,1,1,1) ! VarName='FNM' ! call getVariable(fileName,DateStr,DataHandle,VarName,DUM1D, ! & LM,1,1,1,LM,1,1,1) ! VarName='FNP' ! call getVariable(fileName,DateStr,DataHandle,VarName,DUM1D, ! & LM,1,1,1,LM,1,1,1) ! VarName='RDNW' ! call getVariable(fileName,DateStr,DataHandle,VarName,DUM1D, ! & LM,1,1,1,LM,1,1,1) ! VarName='RDN' ! call getVariable(fileName,DateStr,DataHandle,VarName,DUM1D, ! & LM,1,1,1,LM,1,1,1) ! VarName='DNW' ! call getVariable(fileName,DateStr,DataHandle,VarName,DUM1D, ! & LM,1,1,1,LM,1,1,1) ! VarName='DN' ! call getVariable(fileName,DateStr,DataHandle,VarName,DUM1D, ! & LM,1,1,1,LM,1,1,1) ! VarName='ZNU' ! call getVariable(fileName,DateStr,DataHandle,VarName,DUM1D, ! & LM,1,1,1,LM,1,1,1) ! VarName='ZNW' ! call getVariable(fileName,DateStr,DataHandle,VarName,DUM1D, ! & LM+1,1,1,1,LM+1,1,1,1) ! VarName='CFN' ! call getVariable(fileName,DateStr,DataHandle,VarName,DUM0D, ! & 1,1,1,1,1,1,1,1) ! VarName='CFN1' ! call getVariable(fileName,DateStr,DataHandle,VarName,DUM0D, ! & 1,1,1,1,1,1,1,1) ! VarName='EPSTS' ! call getVariable(fileName,DateStr,DataHandle,VarName,DUM0D, ! & 1,1,1,1,1,1,1,1) CC CC RAINC is "ACCUMULATED TOTAL CUMULUS PRECIPITATION" CC RAINNC is "ACCUMULATED TOTAL GRID SCALE PRECIPITATION" VarName='RAINC' call getVariable(fileName,DateStrold,DataHandle, & VarName,DUM(:,:,1), & IM,1,JM,1,IM,JS,JE,1) VarName='RAINNC' call getVariable(fileName,DateStrold,DataHandle, & VarName,DUM(:,:,2), & IM,1,JM,1,IM,JS,JE,1) DO N=1,NUMSTA CUPREC0(N)=DUM(IHINDX(N),JHINDX(N),1)*.001 ACPREC0(N)=( DUM(IHINDX(N),JHINDX(N),1)+ & DUM(IHINDX(N),JHINDX(N),2) )*.001 ENDDO VarName='GSW' call getVariable(fileName,DateStrold,DataHandle,VarName,DUMMY, & IM,1,JM,1,IM,JS,JE,1) VarName='GLW' call getVariable(fileName,DateStrold,DataHandle,VarName,DUMMY, & IM,1,JM,1,IM,JS,JE,1) VarName='XLAT' call getVariable(fileName,DateStrold,DataHandle,VarName,DUMMY, & IM,1,JM,1,IM,JS,JE,1) VarName='XLONG' call getVariable(fileName,DateStrold,DataHandle,VarName,DUMMY, & IM,1,JM,1,IM,JS,JE,1) VarName='LU_INDEX' call getVariable(fileName,DateStrold,DataHandle,VarName,DUMMY, & IM,1,JM,1,IM,JS,JE,1) VarName='TMN' call getVariable(fileName,DateStrold,DataHandle,VarName,DUMMY, & IM,1,JM,1,IM,JS,JE,1) ! XLAND 1 land 2 sea VarName='XLAND' call getVariable(fileName,DateStrold,DataHandle,VarName,DUMMY, & IM,1,JM,1,IM,JS,JE,1) VarName='HFX' call getVariable(fileName,DateStrold,DataHandle,VarName,DUMMY, & IM,1,JM,1,IM,JS,JE,1) DO N=1,NUMSTA SFCSHX0(N)=DUMMY(IHINDX(N),JHINDX(N)) ! print *, 'SENSIBLE0 ', SFCSHX(N), SFCSHX0(N) ENDDO VarName='QFX' call getVariable(fileName,DateStrold,DataHandle,VarName,DUMMY, & IM,1,JM,1,IM,JS,JE,1) VarName='LH' call getVariable(fileName,DateStrold,DataHandle,VarName,DUMMY, & IM,1,JM,1,IM,JS,JE,1) DO N=1,NUMSTA SFCLHX0(N)=DUMMY(IHINDX(N),JHINDX(N)) print *, 'LATENT0 ', SFCLHX(N), SFCLHX0(N) ENDDO print*,'LH ',LH(100:110) VarName='SWDOWN' call getVariable(fileName,DateStrold,DataHandle,VarName,DUMMY, + IM,1,JM,1,IM,JS,JE,1) VarName='GLW' call getVariable(fileName,DateStrold,DataHandle,VarName,DUMMY2, + IM,1,JM,1,IM,JS,JE,1) VarName='GSW' call getVariable(fileName,DateStrold,DataHandle,VarName,DUMMY3, + IM,1,JM,1,IM,JS,JE,1) DO N=1,NUMSTA I=IHINDX(N) J=JHINDX(N) ASWIN0(N)=DUMMY(I,J) ALWIN0(N)=DUMMY2(I,J) ASWOUT0(N)=DUMMY3(I,J)-DUMMY(I,J) print *, 'ALWIN ', ALWIN(N), ALWIN0(N) print *, 'ASWOUT ', ASWOUT(N), ASWOUT0(N) ENDDO VarName='SNOWC' call getVariable(fileName,DateStrold,DataHandle,VarName,DUMMY, & IM,1,JM,1,IM,JS,JE,1) write(6,*) 'done reading old file' !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!! !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!! ! END INSERT READ !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!! !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!! C DO N=1,NUMSTA c TRAIN0(N,L)=DUM(IHINDX(N),JHINDX(N),1) c TCUCN0(N,L)=DUM(IHINDX(N),JHINDX(N),2) c TRAIN0(N,L)=-9999. c TCUCN0(N,L)=-9999. ENDDO C c ENDDO C TRAIN0=-9999. TCUCN0=-9999. !!! !!! THESE RUNOFF ASSIGNMENTS COULD BE *WRONG* !!!!!! !!! DO N=1,NUMSTA SSROFF0(N)=DUM(IHINDX(N),JHINDX(N),3) BGROFF0(N)=DUM(IHINDX(N),JHINDX(N),4) ENDDO C DO N=1,NUMSTA c SFCSHX0(N)=-9999. c SFCLHX0(N)=-9999. SUBSHX0(N)=-9999. SNOPCX0(N)=-9999. ENDDO C DO N=1,NUMSTA c ASWIN0(N)=-9999. c ASWOUT0(N)=-9999. ASWTOA0(N)=-9999. c ALWIN0(N)=-9999. ALWOUT0(N)=-9999. ALWTOA0(N)=-9999. POTFLX0(N)=-9999. ENDDO C C ENDIF C c CLOSE(LRSTRT) ! write(6,*) 'down to here (a)' C C Cmp IDEALLY, WON'T NEED MANY MODS BELOW THIS POINT C C C------------------------------------------------------------------------ C*** C*** ALL THE DATA IS NOW IN. C*** CALCULATE CLOUD FRACTION AND CLOUD WATER/ICE ID NUMBER. C*** C------------------------------------------------------------------------ UTIM=1. US=1. CCLIMIT=1.E-3 CLIMIT =1.E-20 C----------------------------------------------------------------------- !$OMP parallel do DO N=1,NUMSTA IW(N,1)=-9999 CCR(N,1)=-999999. ! PDSL1(N)=PD(IHINDX(N),JHINDX(N))*RES(N) PDSL1(N)=pint_part(N)*RES(N) ENDDO ! write(6,*) 'here b' C C------------------QW, QI AND QINT-------------------------------------- C !!! !!! skip section for now !!! ! goto 221 DO 220 L=2,LM C !$OMP parallel do private(cwmkl,fiq,hh,iwkl,lml,pp,qc,qi,qint,qkl,qw, !$OMP* rqkl,tkl,tmt0,tmt15,u00kl) DO 210 N=1,NUMSTA IW(N,L)=-9999 CCR(N,L)=-999999. ! LML=LM-LMH(IHINDX(N),JHINDX(N)) ! write(6,*) 'LML, IHINDX,JHINDX,LMH: ', IHINDX(N), ! & JHINDX(N),LMH(IHINDX(N),JHINDX(N)) ! HH=HTM(N,L)*HBM2(N) ! TKL=T(N,L) ! QKL=Q(N,L) ! CWMKL=CWM(N,L) ! TMT0=(TKL-273.16)*HH ! TMT15=AMIN1(TMT0,-15.)*HH ! AI=0.008855 ! BI=1. C ! IF(TMT0.LT.-20.)THEN ! AI=0.007225 ! BI=0.9674 ! ENDIF C Cmp PP=PDSL1(N)*AETA(L)+PT ! PP=PMID(N,L) ! QW=HH*PQ0/PP*EXP(HH*A2*(TKL-A3)/(TKL-A4)) ! QI=QW*(BI+AI*AMIN1(TMT0,0.)) ! QINT=QW*(1.-0.00032*TMT15*(TMT15+15.)) ! IF(TMT0.LE.-40.)QINT=QI C C-------------------ICE-WATER ID NUMBER IW------------------------------ C ! no defs for U00 or UL ! ! so no U00KL,FIQ,IW,CWM ! ! write(6,*) 'here c' ! write(6,*) 'L+LML: ', L+LML ! write(6,*) 'U00(N): ', U00(N) ! write(6,*) 'UL(L+LML): ', UL(L+LML) ! U00KL=U00(N)+UL(L+LML)*(0.95-U00(N))*UTIM ! IF(TMT0.LT.-15.)THEN ! FIQ=QKL-U00KL*QI ! IF(FIQ.GT.0..OR.CWMKL.GT.CLIMIT)THEN ! IW(N,L)=1 ! ELSE ! IW(N,L)=0 ! ENDIF ! ENDIF C ! IF(TMT0.GE.0.)THEN ! IW(N,L)=0 ! ENDIF C ! IF(TMT0.LT.0..AND.TMT0.GE.-15.)THEN ! IW(N,L)=0 ! IF(IW(N,L-1).EQ.1.AND.CWMKL.GT.CLIMIT)IW(N,L)=1 ! ENDIF C ! IWKL=IW(N,L) C----------------THE SATUATION SPECIFIC HUMIDITY------------------------ ! FIW=FLOAT(IWKL) ! QC=(1.-FIW)*QINT+FIW*QI C----------------THE RELATIVE HUMIDITY---------------------------------- ! IF(QC.LE.0.)THEN ! RQKL=0. ! ELSE ! RQKL=QKL/QC ! ENDIF C----------------CLOUD COVER RATIO CCR---------------------------------- ! IF(RQKL.GE.0.9999)THEN ! CCR(N,L)=AMIN1(US,RQKL) ! ELSE ! ARG=-1000.*CWMKL/(US-RQKL) ! ARG=AMAX1(ARG,-25.) ! CCR(N,L)= RQKL*(1.-EXP(ARG)) ! ENDIF C---------------------------------------------------------------------- ! write(6,*) 'here d' 210 CONTINUE 220 CONTINUE 221 continue C---------------------------------------------------------------------- C---------------------------------------------------------------------- C*** C*** BEGIN THE PROFILE POSTING CODE. C*** C---------------------------------------------------------------------- C---------------------------------------------------------------------- C*** C*** USE ZERO IN ACCUMULATION ARRAYS AT APPROPRIATE TIMES C*** IF(ITAG .eq. 0) THEN print *, 'profile posting code' C C C what would appropriate if test be here? C C DO N=1,NUMSTA C C*** ZERO ACCUMLATION ARRAYS. C STATPR(N)=0. STACPR(N)=0. STAEVP(N)=0. STAPOT(N)=0. STASHX(N)=0. STASUB(N)=0. STAPCX(N)=0. STASWI(N)=0. STASWO(N)=0. STALWI(N)=0. STALWO(N)=0. STALWT(N)=0. STASWT(N)=0. STASNM(N)=0. STASNO(N)=0. STASRF(N)=0. STABRF(N)=0. DO L=1,LM DHCNVC(L,N)=0. DHRAIN(L,N)=0. ENDDO ENDDO C GO TO 300 ENDIF C--------------------------------------------------------------------- C*** C*** WE MUST CHECK TO SEE IF WE ARE 1 HOUR AFTER ANY OF THE C*** ACCUMULATION BUCKETS HAVE BEEN EMPTIED. IF WE ARE AT SUCH A C*** TIME THEN WE NEED TO SET TO ZERO THE VARIABLES USED TO HOLD C*** THE PRECEDING HOUR'S VALUES. C*** C--------------------------------------------------------------------- C C C At this point, accumulation buckets are a foreign concept in C the WRF model. C C c TIME=(NTSD-1)*DT c RESET0=TIME-(NTSD/NPREC)*NPREC*DT c RESET1=(NPHS-1)*DT+3600. TIME=IFCST ! write(6,*) 'here (3)' RESET0=25. ! designed to prevent resets. Reconsider later C c IF(MOD(NTSD,NPREC).GE.NPHS.AND.RESET0.LE.RESET1)THEN c DO N=1,NUMSTA c STATPR(N)=0. c STACPR(N)=0. c STASNM(N)=0. c STASNO(N)=0. c STASRF(N)=0. c STABRF(N)=0. c ENDDO c ELSE ! write(6,*) 'set STATPR' DO N=1,NUMSTA STATPR(N)=ACPREC0(N)*1.E3 if (ACPREC0(N) .gt. 0) then ! write(6,*) 'N,ACPREC0(N),STATPR(N): ', N, ! & ACPREC0(N),STATPR(N) endif STACPR(N)=CUPREC0(N)*1.E3 STASNM(N)=ACSNOM0(N)*1.E3 STASNO(N)=ACSNOW0(N)*1.E3 STASRF(N)=SSROFF0(N)*1.E3 STABRF(N)=BGROFF0(N)*1.E3 ENDDO ! write(6,*) 'past set' c ENDIF C c RESET0=TIME-(NTSD/NRDSW)*NRDSW*DT c IF(MOD(NTSD,NRDSW).GE.NPHS.AND.RESET0.LE.RESET1)THEN c DO N=1,NUMSTA c STASWI(N)=0. c STASWO(N)=0. c STASWT(N)=0. c ENDDO c ELSE DO N=1,NUMSTA STASWI(N)=ASWIN0(N) STASWO(N)=ASWOUT0(N) STASWT(N)=ASWTOA0(N) ENDDO c ENDIF C c RESET0=TIME-(NTSD/NRDLW)*NRDLW*DT c IF(MOD(NTSD,NRDLW).GE.NPHS.AND.RESET0.LE.RESET1)THEN c DO N=1,NUMSTA c STALWI(N)=0. c STALWO(N)=0. c STALWT(N)=0. c ENDDO c ELSE DO N=1,NUMSTA STALWI(N)=ALWIN0(N) STALWO(N)=ALWOUT0(N) STALWT(N)=-ALWTOA0(N) ENDDO c ENDIF C c RESET0=TIME-(NTSD/NSRFC)*NSRFC*DT c IF(MOD(NTSD,NSRFC).GE.NPHS.AND.RESET0.LE.RESET1)THEN c DO N=1,NUMSTA c STAEVP(N)=0. c STAPOT(N)=0. c STASHX(N)=0. c STASUB(N)=0. c STAPCX(N)=0. c ENDDO c ELSE DO N=1,NUMSTA STAEVP(N)=SFCLHX0(N) STAPOT(N)=POTFLX0(N) STASHX(N)=SFCSHX0(N) STASUB(N)=SUBSHX0(N) STAPCX(N)=SNOPCX0(N) ENDDO c ENDIF C c RESET0=TIME-(NTSD/NHEAT)*NHEAT*DT c IF(MOD(NTSD,NHEAT).GE.NCNVC.AND.RESET0.LE.RESET1)THEN c DO N=1,NUMSTA c DO L=1,LM c DHCNVC(L,N)=0. c DHRAIN(L,N)=0. c ENDDO c ENDDO c ELSE DO N=1,NUMSTA DO L=1,LM DHCNVC(L,N)=TCUCN0(L,N) DHRAIN(L,N)=TRAIN0(L,N) ENDDO ENDDO c ENDIF C------------------------------------------------------------------ 300 CONTINUE print *, 'past 300' C------------------------------------------------------------------ C C*** FOR ROTATION OF WINDS FROM E-GRID TO GEODETIC ORIENTATION C*** WE NEED THE TWO QUANTITIES BELOW. C c SINPH0=SIN(TPH0D*DTR) c COSPH0=COS(TPH0D*DTR) C C*** INITIAL CALCULATIONS/PREPARATIONS. WE LOAD SEVERAL C*** ARRAYS WITH PROFILE VARIABLES. C !$OMP parallel do DO N=1,NUMSTA IF(CZMEAN(N).GT.0.)THEN FACTR(N)=CZEN(N)/CZMEAN(N) ELSE FACTR(N)=0. ENDIF ENDDO C C*** ADJUST SHORTAVE TENDENCIES TO ACCOUNT FOR CHANGE OF SOLAR POSITION C*** BETWEEN CALLS TO RADIATION C !$OMP parallel do c DO L=1,LM c DO N=1,NUMSTA c RSWTT(N,L)=RSWTT(N,L)*FACTR(N) c ENDDO c ENDDO C C*** COMPUTE RTOP C !$OMP parallel do DO L=1,LM DO N=1,NUMSTA ! APEL=PT+AETA(L)*PDSL1(N) APEL=PMID(N,L) RTOP(N,L)=RD*T(N,L)*(1.+0.608*Q(N,L))/APEL ENDDO ENDDO C C*** PDS IS SURFACE PRESSURE. C !$OMP parallel do DO N=1,NUMSTA ! I=IHINDX(N) ! J=JHINDX(N) ! PDS(N)=PD(I,J)+PT PDS(N)=pint_part(N)+PT print *, 'computed PDS ', N, PDS(N), PT ENDDO C C*** EGRID2 IS THE SURFACE TEMPERATURE. C !$OMP parallel do DO N=1,NUMSTA EGRID2(N)= THS(N)*(PDS(N)*1.E-5)**CAPA IF(ACPREC(N).LT.0.)ACPREC(N)=0. IF(CUPREC(N).LT.0.)CUPREC(N)=0. ENDDO C C*** SET CYCLE, DATE, AND FORECAST TIME. C c IHR =NTSD/NTSPH+0.5 !MAYBE read(datestr,15)iyear,imn,iday,ihrst IDATE(2)=imn IDATE(3)=iday IDATE(1)=iyear IDATE(5)=ihrst IDAT(3)=IDATE(1) IDAT(1)=IDATE(2) IDAT(2)=IDATE(3) IYR =IDAT(3) IMNTH=IDAT(1) IDAY =IDAT(2) c IFCST=(NTSD-1)*DT ! IFCST=NTSPH*ITAG IFCST=3600*ITAG IHR=ITAG write(6,*) 'IFCST: ', IFCST C WRITE(6,*)' POST PROFILE FOR ', 1 IYR,IMNTH,IDAY,IHR write(6,*) 'IHRST= ', IHRST C C*** SET RTSPH,RTSCU,RTSRA TO 1. OVER THE NUMBER OF TIMES THE C*** VARIOUS PHYSICS ROUTINES HAVE BEEN C*** CALLED SINCE LAST OUTPUT OF PROFILER DATA. NECESSARY FOR C*** CORRECT AVERAGING OF VARIABLES. C write(6,*) 'APHTIM, ACUTIM, ARATIM were: ', & APHTIM, ACUTIM, ARATIM APHTIM=0. ACUTIM=0. ARATIM=0. IF(APHTIM.GT.0.)THEN RTSPH=1./APHTIM ELSE RTSPH=1. ENDIF C IF(ACUTIM.GT.0.)THEN RTSCU=1./ACUTIM ELSE RTSCU=1. ENDIF C IF(ARATIM.GT.0.)THEN RTSRA=1./ARATIM ELSE RTSRA=1. ENDIF C C-------------------------------------------------------------------------- C-------------------------------------------------------------------------- C*** C*** OUTPUT PROFILE DATA. THE FOLLOWING LOOP IS OVER ALL PROFILE SITES. C*** C-------------------------------------------------------------------------- LCLAS1=79 write(6,*) 'open output file with RECL: ', LRECPR OPEN(UNIT=LCLAS1,ACCESS='DIRECT',RECL=LRECPR,IOSTAT=IER) C-------------------------------------------------------------------------- write(6,*) 'RECORD LENGTH = ', LRECPR DO 1000 N=1,NUMSTA C C*** ZERO OUTPUT ARRAY. C DO K=1,NWORDM PRODAT(K)=0. FPACK(K) =0. ENDDO C C*** CONSTRUCT HEADER FOR CURRENT PROFILE SITE. THE HEADER CONTAINS C*** THE FOLLOWING INFORMATION: PACKED CYCLE-DATE, FORECAST TIME, C*** INTEGER STATION ID, STATION LATITUDE, STATION LONGITUDE, STATION C*** ELEVATION, NUMBER OF VERTICAL LEVELS IN PROFILE, NUMBER OF MULTI- C*** LEVEL PARAMETERS, NUMBER OF SINGLE LEVEL PARAMETERS, TOTAL LENGTH C*** (IN WORDS) OF MULTI- AND SINGLE LEVEL DATA, PROFILE CLASS FLAG, C*** AND A DUMMY WORD FOR FUTURE USE. C IH=IHINDX(N) JH=JHINDX(N) LMHK = LMH(IH,JH) NWORD2 = 2*LMHK NWORD3 = 3*LMHK NWORD4 = 4*LMHK NWORD5 = 5*LMHK NWORD6 = 6*LMHK NWORD7 = 7*LMHK NWORD8 = 8*LMHK NWORD9 = 9*LMHK NWORD10 = 10*LMHK NWORD11 = 11*LMHK NWORD12 = 12*LMHK NWORD13 = 13*LMHK ISTAT = IDSTN(N) CISTAT = CIDSTN_SAVE(N) ! write(6,*) 'CISTAT: ', CISTAT C FPACK(1) = STNLAT(N)/DTR !mp FPACK(2) = -STNLON(N)/DTR FPACK(2) = STNLON(N)/DTR IF(FPACK(2).LT.-180.)FPACK(2)=FPACK(2)+360. FPACK(3) = FIS(N)*GI FPACK(4) = FLOAT(LMHK) FPACK(5) = LCL1ML FPACK(6) = LCL1SL FPACK(7) = 9+FPACK(5)*FPACK(4)+FPACK(6) FPACK(8) = 999. FPACK(9) = 999. C C*** WIND ROTATION SINES AND COSINES C c DLM = STNLON(N)+TLM0D*DTR c XX = COSPH0*COS(STNLAT(N))*COS(DLM) c 1 +SINPH0*SIN(STNLAT(N)) c YY = -COS(STNLAT(N))*SIN(DLM) c TLON = ATAN(YY/XX) c ALPHA = ASIN(SINPH0*SIN(TLON)/COS(STNLAT(N))) C SINALP = SIN(ALPHA) C COSALP = COS(ALPHA) SINALP = SROT(N) COSALP = CROT(N) C C------------------------------------------------------------------ C*** EXTRACT PRESSURE AND TEMPERATURE PROFILES. C*** EXTRACT/ROTATE U AND V WIND COMPONENT PROFILES. C*** EXTRACT SPECIFIC HUMIDITY AND TEMPERATURE TENDENCY. C*** EXTRACT CLOUD WATER, HEATING DUE TO CONVECTION, LARGE C*** SCALE RAIN, SHORT WAVE RADIATION, LONG WAVE RADIATION, C*** AND CLOUD FRACTION. C------------------------------------------------------------------ C DO LV=1,LMHK LVL=LMHK-LV+1 ! PRODAT(LVL) = PDSL1(N)*AETA(LV)+PT PRODAT(LVL) = PMID(N,LV) if (mod(LV,15) .eq. 0 .and. mod(N,50) .eq. 0) then ! write(6,*) 'PRODAT definition, PMID: ', N,L,PMID(N,LV) endif ! if (LVL .eq. 1 .and. mod(N,25) .eq. 0) then ! write(6,*) 'N, PSFC: ', N,PRODAT(1) ! endif PRODAT(LMHK+LVL) = T(N,LV) C*** ROTATE WINDS C UT = U(N,LV) VT = V(N,LV) PRODAT(NWORD2+LVL) = UT*COSALP+VT*SINALP PRODAT(NWORD3+LVL) = VT*COSALP-UT*SINALP if (N .eq. 1) THEN c WRITE(6,*) 'orig U,V: ', UT,VT c write(6,*) 'COSALP,SINALP: ', COSALP,SINALP c WRITE(6,*) 'rotat U,V: ', PRODAT(NWORD2+LVL),PRODAT(NWORD3+LVL) c write(6,*) '-----------------' endif C PRODAT(NWORD4+LVL) = Q(N,LV) C IF(RTOP(N,LV).GT.1.E-12) THEN PRODAT(NWORD5+LVL) = OMGA(N,LV) Cmp 1 PRODAT(NWORD5+LVL) = OMGALF(N,LV)*CP/(RTOP(N,LV)*DT) ENDIF IF(IW(N,LV).GT.0.5)THEN PRODAT(NWORD6+LVL) = -CWM(N,LV) ELSE PRODAT(NWORD6+LVL) = CWM(N,LV) ENDIF C GSM really need to sort out cloud data in HRRR data. set to missing for now. PRODAT(NWORD6+LVL) = 999999. PRODAT(NWORD7+LVL) = TCUCN(N,LV) PRODAT(NWORD8+LVL) = TRAIN(N,LV) PRODAT(NWORD9+LVL) = RSWTT(N,LV) PRODAT(NWORD10+LVL)= RLWTT(N,LV) PRODAT(NWORD11+LVL)= CLDFRA_BL(N,LV)*100. C IF(LV.EQ.1)THEN PRODAT(NWORD12+LVL)=Q2(N,LV) ELSE PRODAT(NWORD12+LVL)=(Q2(N,LV)+Q2(N,LV-1))*0.5 ENDIF ENDDO C C*** MODIFY ACCUMLATIONS SO AS TO REPRESENT ACCUMULATED C*** CHANGE SINCE LAST PROFILE OUTPUT TIME. C CGSM MODIFIED CODE TO ACCOUNT FOR DHCNVC AND DHRAIN BEING C COMPUTED FROM TOP DOWN WHILE PRODAT IS FILLED FROM C BOTTOM UP C DO LL=1,LMHK LVL=LMHK-LL+1 STADHC(LL) = PRODAT(NWORD7+LL) - DHCNVC(LVL,N) STADHR(LL) = PRODAT(NWORD8+LL) - DHRAIN(LVL,N) C DHCNVC(LVL,N) = PRODAT(NWORD7+LL) DHRAIN(LVL,N) = PRODAT(NWORD8+LL) C Ctmp IF(MOD(NTSD,NHEAT).LT.NCNVC)THEN DHCNVC(LVL,N) = 0. DHRAIN(LVL,N) = 0. Ctmp ENDIF ENDDO C C*** EXTRACT SINGLE LEVEL DATA. EGRID2 IS SURFACE TEMPERATURE. C PRODAT(NWORD13+1) = PSLP (N) c PRODAT(NWORD13+2) = PDS (N) PRODAT(NWORD13+2) = SFCP (N) PRODAT(NWORD13+3) = EGRID2(N) PRODAT(NWORD13+4) = TLMIN (N) PRODAT(NWORD13+5) = TLMAX (N) PRODAT(NWORD13+6) = SMSTAV(N)*100. PRODAT(NWORD13+7) = ACPREC(N)*1000. c no convective precip in HRRR c PRODAT(NWORD13+8) = CUPREC(N)*1000. PRODAT(NWORD13+8) = -9999. PRODAT(NWORD13+27) = Z0 (N) C STAPRX=PRODAT(NWORD13+7)-STATPR(N) STACRX=PRODAT(NWORD13+8)-STACPR(N) ! if (STAPRX .gt. 0) then ! write(6,*) '1hr precip: ', N,STAPRX ! endif C C*** ROTATE WINDS C UT = U10(N) VT = V10(N) PRODAT(NWORD13+28) = UT*COSALP+VT*SINALP PRODAT(NWORD13+29) = VT*COSALP-UT*SINALP C PRODAT(NWORD13+30) = TH10 (N) PRODAT(NWORD13+31) = Q10 (N) PRODAT(NWORD13+32) = TSHLTR(N) PRODAT(NWORD13+33) = QSHLTR(N) PRODAT(NWORD13+34) = SFCEXC(N)*.001 PRODAT(NWORD13+35) = VEGFRC(N) PRODAT(NWORD13+36) = CANOPY(N)*1000. PRODAT(NWORD13+37) = SMC (N,1) PRODAT(NWORD13+38) = SMC (N,2) PRODAT(NWORD13+39) = SMC (N,3) PRODAT(NWORD13+40) = SMC (N,4) PRODAT(NWORD13+41) = STC (N,1) PRODAT(NWORD13+42) = STC (N,2) PRODAT(NWORD13+43) = STC (N,3) PRODAT(NWORD13+44) = STC (N,4) PRODAT(NWORD13+45) = SM (N) + SICE(N) PRODAT(NWORD13+46) = CFRACL(N)*100. PRODAT(NWORD13+47) = CFRACM(N)*100. PRODAT(NWORD13+48) = CFRACH(N)*100. PRODAT(NWORD13+49) = SR (N)*100. PRODAT(NWORD13+50) = NINT(HBOT(N)) C PRODAT(NWORD13+9) = SFCLHX(N) PRODAT(NWORD13+10) = POTFLX(N) PRODAT(NWORD13+11) = SFCSHX(N) PRODAT(NWORD13+12) = SUBSHX(N) PRODAT(NWORD13+13) = SNOPCX(N) PRODAT(NWORD13+14) = ASWIN (N) PRODAT(NWORD13+15) = ASWOUT(N) PRODAT(NWORD13+16) = ALWIN (N) PRODAT(NWORD13+17) = ALWOUT(N) PRODAT(NWORD13+18) =-ALWTOA(N) PRODAT(NWORD13+19) = ASWTOA(N) PRODAT(NWORD13+20) = ACSNOW(N)*1000. PRODAT(NWORD13+21) = SMSTOT(N)*1000. PRODAT(NWORD13+22) = SWEM (N)*1000. PRODAT(NWORD13+23) = ACSNOM(N)*1000. PRODAT(NWORD13+24) = SSROFF(N)*1000. PRODAT(NWORD13+25) = BGROFF(N)*1000. PRODAT(NWORD13+26) = SOILTB(N) C C*** ACCUMULATED CHANGE SINCE LAST PROFILE OUTPUT TIME. C PSFCEVP = PRODAT(NWORD13+9 ) - STAEVP(N) PPOTEVP = PRODAT(NWORD13+10) - STAPOT(N) PSFCSHX = PRODAT(NWORD13+11) - STASHX(N) PSFCSUB = PRODAT(NWORD13+12) - STASUB(N) PSNOPCX = PRODAT(NWORD13+13) - STAPCX(N) PRSWIN = PRODAT(NWORD13+14) - STASWI(N) PRSWOUT = PRODAT(NWORD13+15) - STASWO(N) PRLWIN = PRODAT(NWORD13+16) - STALWI(N) PRLWOUT = PRODAT(NWORD13+17) - STALWO(N) PRLWTOA = PRODAT(NWORD13+18) - STALWT(N) PRSWTOA = PRODAT(NWORD13+19) - STASWT(N) PACSNOW = PRODAT(NWORD13+20) - STASNO(N) PACSNOM = PRODAT(NWORD13+23) - STASNM(N) PSSROFF = PRODAT(NWORD13+24) - STASRF(N) PBGROFF = PRODAT(NWORD13+25) - STABRF(N) C*** C*** TRANSFER STATION PROFILE DATA TO "PACKED" OUTPUT ARRAY. C*** NN = 0 NLEN = FPACK(7) C write(6,*) 'NWORD13+41,NWORD13+32 ', NWORD13+41,NWORD13+32 C write(6,*) 'SOIL TEMP ', PRODAT(NWORD13+41) C write(6,*) 'SHELT TEMP ', PRODAT(NWORD13+32) C DO NL = 10,NLEN NN = NL-9 FPACK(NL) = PRODAT(NN) ENDDO C C*** REPLACE ACCUMULATED QUANTITIES WITH ACCUMULATION C*** SINCE LAST PROFILE OUTPUT TIME. C DO LL = 1,LMHK ! FPACK(9+NWORD7+LL) = STADHC(LL)*RTSCU ! FPACK(9+NWORD8+LL) = STADHR(LL)*RTSRA FPACK(9+NWORD7+LL) = -9999. FPACK(9+NWORD8+LL) = -9999. ENDDO C FPACK(9+NWORD13+7) = STAPRX ! write(6,*) 'precip written to FPACK element: ', 9+NWORD13+7 FPACK(9+NWORD13+8) = STACRX ! FPACK(9+NWORD13+9) = PSFCEVP * RTSPH ! FPACK(9+NWORD13+10) = PPOTEVP * RTSPH FPACK(9+NWORD13+11) = PSFCSHX * RTSPH ! FPACK(9+NWORD13+12) = PSFCSUB * RTSPH ! FPACK(9+NWORD13+13) = PSNOPCX * RTSPH ! FPACK(9+NWORD13+14) = PRSWIN * RTSPH ! FPACK(9+NWORD13+15) = PRSWOUT * RTSPH ! FPACK(9+NWORD13+16) = PRLWIN * RTSPH ! FPACK(9+NWORD13+17) = PRLWOUT * RTSPH ! FPACK(9+NWORD13+18) = PRLWTOA * RTSPH ! FPACK(9+NWORD13+19) = PRSWTOA * RTSPH FPACK(9+NWORD13+20) = PACSNOW FPACK(9+NWORD13+23) = PACSNOM FPACK(9+NWORD13+24) = PSSROFF FPACK(9+NWORD13+25) = PBGROFF C ! IF(RESTRT)THEN IF(ITAG .eq. 0)THEN DO LL = 1,LMHK FPACK(9+NWORD7+LL) = 0. FPACK(9+NWORD8+LL) = 0. ENDDO C FPACK(9+NWORD13+7) = 0. FPACK(9+NWORD13+8) = 0. FPACK(9+NWORD13+9) = 0. FPACK(9+NWORD13+10) = 0. FPACK(9+NWORD13+11) = 0. FPACK(9+NWORD13+12) = 0. FPACK(9+NWORD13+13) = 0. FPACK(9+NWORD13+14) = 0. FPACK(9+NWORD13+15) = 0. FPACK(9+NWORD13+16) = 0. FPACK(9+NWORD13+17) = 0. FPACK(9+NWORD13+18) = 0. FPACK(9+NWORD13+19) = 0. FPACK(9+NWORD13+20) = 0. FPACK(9+NWORD13+23) = 0. FPACK(9+NWORD13+24) = 0. FPACK(9+NWORD13+25) = 0. ENDIF C--------------------------------------------------------------------- C*** C*** WRITE PROFILE DATA C*** ! write(6,*) 'IFHR, NUMSTA, N, NREC: ', IFHR, NUMSTA, N, ! & IFHR*NUMSTA+N ! NREC=(IFHR/INCR)*NUMSTA+N NREC=N ! write(6,*) 'NREC, NLEN, FPACK: ', NREC, NLEN, ! & (FPACK(NNN),NNN=1,NLEN,NLEN/5) ! if (mod(NREC,20) .eq. 0) then ! write(6,*) 'NREC, IHRST, IDAT, IFCST, ISTAT, CISTAT: ', ! & NREC, IHRST, IDAT, IFCST, ISTAT, CISTAT ! endif WRITE(LCLAS1,REC=NREC)IHRST,IDAT,IFCST,ISTAT,CISTAT 1, (FPACK(NL),NL=1,NLEN) C--------------------------------------------------------------------- 1000 CONTINUE CLOSE(LCLAS1) DEALLOCATE(T,Q,U,V,Q2,OMGALF,CWM,TRAIN,TCUCN) DEALLOCATE(RSWTT,RLWTT,CCR,RTOP,HTM,OMGA,p_hold) DEALLOCATE(t_hold,PINT,QRAIN,QICE) DEALLOCATE(DHCNVC,DHRAIN,STADHC,STADHR,TCUCN0,TRAIN0) DEALLOCATE(DUM,DUMMY,DUMMY2,DUM3D,DUM3D2,DUM3D3,GDLAT) DEALLOCATE(GDLON,PRODAT,FPACK,IDUM,LMH) DEALLOCATE( & RES,FIS,THS,HBOT &,CFRACL,CFRACM,CFRACH,SNO &,SOILTB,SFCEXC,SMSTAV,SMSTOT &,Z0,CZEN,CZMEAN,U00,SR &,ACPREC,CUPREC,ACSNOW,ACSNOM &,SSROFF,BGROFF,SFCSHX,SFCLHX &,SUBSHX,SNOPCX,ASWIN,ASWOUT &,ASWTOA,ALWIN,ALWOUT,ALWTOA &,TSHLTR,QSHLTR,TH2_hold &,TH10,Q10,U10,V10 &,TLMIN,TLMAX &,SMC,CMC,STC,SH2O &,VEGFRC,POTFLX,PSLP,PDSL1 &,EGRID2,SM,SICE &,HBM2,FACTR &,PTBL,TTBL &,STATPR,STACPR,STAEVP &,STAPOT,STASHX,STASUB,STAPCX &,STASWI,STASWO,STALWI,STALWO &,STALWT,STASWT,STASNM,STASRF &,STABRF,STASNO &,ACPREC0,CUPREC0,SFCLHX0,POTFLX0 &,SFCSHX0,SUBSHX0,SNOPCX0,ASWIN0 &,ASWOUT0,ALWIN0,ALWOUT0,ALWTOA0 &,ASWTOA0,ACSNOW0,ACSNOM0,SSROFF0 &,BGROFF0,CANOPY,LH,SWEM) C C*** END OF PROFILE SITE LOOP C C*** END PROFILE POSTING CODE. C--------------------------------------------------------------------- RETURN END