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mod_archiv.F90
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mod_archiv.F90
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module mod_archiv
use mod_xc ! HYCOM communication interface
use mod_cb_arrays ! HYCOM saved arrays
use mod_za ! HYCOM I/O interface
!
implicit none
!
! --- HYCOM archive file processing.
!
character*240, allocatable, dimension(:), &
save, private :: &
cpnts ! names of profile locations
integer, allocatable, dimension(:), &
save, private :: &
ipnts, & ! i-indexes of profile locations
jpnts ! j-indexes of profile locations
integer, save, private :: &
npnts ! number of profile locations
logical, save, private :: &
fpnts ! initialize profile location files
!
integer, parameter, private :: nfields=20 !no. fields in surface archive
character*6, save, private :: c_arch(nfields) !field names
logical, save, private :: l_arch(nfields) !field output flags
!
private archiv_prof_out
contains
subroutine archiv_init
!
! --- initialize surface archive output flags
!
logical lexist
integer ios,k_arch
!
if (mnproc.eq.1) then
write (lp,*) ' now processing archs.input ...'
endif !1st tile
call xcsync(flush_lp)
!
! --- check that archs.input exists
!
inquire(file=trim(flnminp)//'archs.input',exist=lexist)
if (.not.lexist) then
if (mnproc.eq.1) then
write (lp,*) ' output 17 standard surface archive fields.'
endif !1st tile
call xcsync(flush_lp)
!
l_arch( 1:17) = .true.
l_arch(18:20) = .false. !salflx,surtx,surty must be explicitly selected
return
endif
!
! --- list of field names, 6 character versions of 8 character names
!
c_arch( 1) = 'montg1'
c_arch( 2) = 'srfhgt'
c_arch( 3) = 'steric'
c_arch( 4) = 'surflx'
c_arch( 5) = 'wtrflx'
c_arch( 6) = 'bldpth'
c_arch( 7) = 'mldpth'
c_arch( 8) = 'covice'
c_arch( 9) = 'thkice'
c_arch(10) = 'temice'
c_arch(11) = 'ubtrop'
c_arch(12) = 'vbtrop'
c_arch(13) = 'u-vel.'
c_arch(14) = 'v-vel.'
c_arch(15) = 'thknss'
c_arch(16) = 'temp '
c_arch(17) = 'salin ' !end of default list
c_arch(18) = 'salflx' !optional fields output after wtrflx
c_arch(19) = 'surtx '
c_arch(20) = 'surty '
!
! --- read in archs.input.
!
open(unit=uoff+99,file=trim(flnminp)//'archs.input')
do k_arch= 1,nfields
call blkinl(l_arch(k_arch),c_arch(k_arch))
enddo
close (unit=uoff+99)
call xcsync(flush_lp)
return
end subroutine archiv_init
subroutine archiv(n, kkout, iyear,iday,ihour, intvl)
#if defined(STOKES)
use mod_stokes ! Stokes Drift Velocity Module
#endif
!
integer n, kkout, iyear,iday,ihour
character intvl*3
!
# include "stmt_fns.h"
!
! --- write an archive file.
!
character*8 ctype
character*80 cformat,flnmarcvs
integer i,j,k,ktr,ldot,nop,nopa
real coord,xmin,xmax
!
if (kkout.eq.1) then
flnmarcvs = flnmarcs
else
flnmarcvs = flnmarc
endif
ldot = index(flnmarcvs,'.',back=.true.)
if (ldot.eq.0) then
if (mnproc.eq.1) then
write (lp,*) 'need decimal point in flnmarcvs'
write (lp,*) 'flnmarcvs = ',trim(flnmarcvs)
endif
call xcstop('(flnmarcvs)')
stop '(flnmarcvs)'
endif
ldot = min(ldot,len(flnmarcvs)-11) !need 11 characters for archive date
!
if ((kkout.eq.1 .and. dsurfq.ge.1.0/24.0) .or. &
(kkout.gt.1 .and. diagfq.ge.1.0/24.0) ) then
! --- indicate the archive date
write(flnmarcvs(ldot+1:ldot+11),'(i4.4,a1,i3.3,a1,i2.2)') &
iyear,'_',iday,'_',ihour
ldot=ldot+11
else
! --- indicate the archive time step
write(flnmarcvs(ldot+1:ldot+11),'(i11.11)') nstep
ldot=ldot+11
endif
nopa=13
nop =13+uoff
!
! --- no .[ab] files for 1-D cases (<=6x6) or for dsur1p surface cases.
!
if (max(itdm,jtdm).gt.6 .and. &
.not.(dsur1p .and. kkout.eq.1)) then !not 1-D output
!
call zaiopf(flnmarcvs(1:ldot)//'.a', 'new', nopa)
if (mnproc.eq.1) then
open (unit=nop,file=flnmarcvs(1:ldot)//'.b',status='new') !uoff+13
write(nop,116) ctitle,iversn,iexpt,yrflag,itdm,jtdm
call flush(nop)
endif !1st tile
116 format (a80/a80/a80/a80/ &
i5,4x,'''iversn'' = hycom version number x10'/ &
i5,4x,'''iexpt '' = experiment number x10'/ &
i5,4x,'''yrflag'' = days in year flag'/ &
i5,4x,'''idm '' = longitudinal array size'/ &
i5,4x,'''jdm '' = latitudinal array size'/ &
'field time step model day', &
' k dens min max')
!
! --- surface fields
!
! --- identify the equation of state (sigver,thbase) on the first record
k =sigver
coord=thbase
!
if (kkout.gt.1 .or. l_arch(1)) then
call zaiowr(montg1,ip,.true., &
xmin,xmax, nopa, .false.)
if (mnproc.eq.1) then
write (nop,117) 'montg1 ',nstep,time,k,coord,xmin,xmax
k =0
coord=0.0
call flush(nop)
endif !1st tile
endif !l_arch
if (kkout.gt.1 .or. l_arch(2)) then
call zaiowr(srfhgt,ip,.true., &
xmin,xmax, nopa, .false.)
if (mnproc.eq.1) then
write (nop,117) 'srfhgt ',nstep,time,k,coord,xmin,xmax
k =0
coord=0.0
call flush(nop)
endif !1st tile
endif !l_arch
if (sshflg.eq.1) then
! --- write out steric SSH.
if (kkout.gt.1 .or. l_arch(3)) then
call zaiowr(steric,ip,.true., &
xmin,xmax, nopa, .false.)
if (mnproc.eq.1) then
write (nop,117) 'steric ',nstep,time,k,coord,xmin,xmax
k =0
coord=0.0
call flush(nop)
endif !1st tile
endif !l_arch
endif !sshflg
if (kkout.gt.1) then !3-D archives only
call zaiowr(oneta(1-nbdy,1-nbdy,n),ip,.true., &
xmin,xmax, nopa, .false.)
if (mnproc.eq.1) then
write (nop,117) 'oneta ',nstep,time,k,coord,xmin,xmax
k =0
coord=0.0
call flush(nop)
endif !1st tile
endif !kkout>1
!
if (kkout.gt.1 .or. l_arch(4)) then
call zaiowr(surflx,ip,.true., xmin,xmax, nopa, .false.)
if (mnproc.eq.1) then
write (nop,117) 'surflx ',nstep,time,k,coord,xmin,xmax
k =0
coord=0.0
call flush(nop)
endif !1st tile
endif !l_arch
if (kkout.gt.1 .or. l_arch(5)) then
call zaiowr(wtrflx,ip,.true., xmin,xmax, nopa, .false.)
if (mnproc.eq.1) then
write (nop,117) 'wtrflx ',nstep,time,k,coord,xmin,xmax
k =0
coord=0.0
call flush(nop)
endif !1st tile
endif !l_arch
if (kkout.gt.1 .or. l_arch(18)) then
call zaiowr(salflx,ip,.true., xmin,xmax, nopa, .false.)
if (mnproc.eq.1) then
write (nop,117) 'salflx ',nstep,time,k,coord,xmin,xmax
k =0
coord=0.0
call flush(nop)
endif !1st tile
endif !l_arch
!
! --- surtx and surty only output when selected in archs.input
if (kkout.eq.1 .and. l_arch(19)) then
call zaiowr(surtx, ip,.true., xmin,xmax, nopa, .false.)
if (mnproc.eq.1) then
write (nop,117) 'surtx ',nstep,time,k,coord,xmin,xmax
k =0
coord=0.0
call flush(nop)
endif !1st tile
endif !l_arch
if (kkout.eq.1 .and. l_arch(20)) then
call zaiowr(surty, ip,.true., xmin,xmax, nopa, .false.)
if (mnproc.eq.1) then
write (nop,117) 'surty ',nstep,time,k,coord,xmin,xmax
k =0
coord=0.0
call flush(nop)
endif !1st tile
endif !l_arch
!
if (kkout.gt.1 .or. l_arch(6)) then
call zaiowr(dpbl,ip,.true., xmin,xmax, nopa, .false.)
if (mnproc.eq.1) then
write (nop,117) 'bl_dpth ',nstep,time,k,coord,xmin,xmax
k =0
coord=0.0
call flush(nop)
endif !1st tile
endif !l_arch
if (kkout.gt.1 .or. l_arch(7)) then
call zaiowr(dpmixl(1-nbdy,1-nbdy,n),ip,.true., &
xmin,xmax, nopa, .false.)
if (mnproc.eq.1) then
write (nop,117) 'mix_dpth',nstep,time,k,coord,xmin,xmax
k =0
coord=0.0
call flush(nop)
endif !1st tile
endif !l_arch
if (iceflg.ne.0) then
if (kkout.gt.1 .or. l_arch(8)) then
call zaiowr(covice,ip,.true., xmin,xmax, nopa, .false.)
if (mnproc.eq.1) then
write (nop,117) 'covice ',nstep,time,k,coord,xmin,xmax
k =0
coord=0.0
call flush(nop)
endif !1st tile
endif !l_arch
if (kkout.gt.1 .or. l_arch(9)) then
if (iceflg.eq.1) then
call zaiowr(thkice,ip,.true., xmin,xmax, nopa, .false.)
else !from coupler
call zaiowr(si_h, ip,.true., xmin,xmax, nopa, .false.)
endif
if (mnproc.eq.1) then
write (nop,117) 'thkice ',nstep,time,k,coord,xmin,xmax
k =0
coord=0.0
call flush(nop)
endif !1st tile
endif !l_arch
if (kkout.gt.1 .or. l_arch(10)) then
call zaiowr(temice,ip,.true., xmin,xmax, nopa, .false.)
if (mnproc.eq.1) then
write (nop,117) 'temice ',nstep,time,k,coord,xmin,xmax
k =0
coord=0.0
call flush(nop)
endif !1st tile
endif !l_arch
endif !write ice fields
!
! --- depth averaged fields
!
if (kkout.gt.1 .or. l_arch(11)) then
call zaiowr(ubavg(1-nbdy,1-nbdy,n),iu,.true., &
xmin,xmax, nopa, .false.)
if (mnproc.eq.1) then
write (nop,117) 'u_btrop ',nstep,time,k,coord,xmin,xmax
k =0
coord=0.0
call flush(nop)
endif !1st tile
endif !l_arch
if (kkout.gt.1 .or. l_arch(12)) then
call zaiowr(vbavg(1-nbdy,1-nbdy,n),iv,.true., &
xmin,xmax, nopa, .false.)
if (mnproc.eq.1) then
write (nop,117) 'v_btrop ',nstep,time,k,coord,xmin,xmax
k =0
coord=0.0
call flush(nop)
endif !1st tile
endif !l_arch
!
! --- dissipation fields
!
if (kkout.eq.1 .and. disp_count.gt.0) then
displd_mn(:,:) = displd_mn(:,:)/real(disp_count)
call zaiowr(displd_mn,ip,.true., xmin,xmax, nopa, .false.)
if (mnproc.eq.1) then
k =0
coord=0.0
write (nop,117) 'disp_ld ',nstep,time,k,coord,xmin,xmax
call flush(nop)
endif !1st tile
dispqd_mn(:,:) = dispqd_mn(:,:)/real(disp_count)
call zaiowr(dispqd_mn,ip,.true., xmin,xmax, nopa, .false.)
if (mnproc.eq.1) then
k =0
coord=0.0
write (nop,117) 'disp_qd ',nstep,time,k,coord,xmin,xmax
call flush(nop)
endif !1st tile
tidepg_mn(:,:) = tidepg_mn(:,:)/real(disp_count)
call zaiowr(tidepg_mn,ip,.true., xmin,xmax, nopa, .false.)
if (mnproc.eq.1) then
k =0
coord=0.0
write (nop,117) 'tide_pg ',nstep,time,k,coord,xmin,xmax
call flush(nop)
endif !1st tile
!
displd_mn(:,:) = 0.0
dispqd_mn(:,:) = 0.0
tidepg_mn(:,:) = 0.0
disp_count = 0
endif !linear and quadratic drag dissipation
!
! --- layer loop.
!
do 75 k=1,kkout
coord=sigma(k)
if (kkout.gt.1 .or. l_arch(13)) then
call zaiowr(u(1-nbdy,1-nbdy,k,n),iu,.true., &
xmin,xmax, nopa, .false.)
if (mnproc.eq.1) then
write (nop,117) 'u-vel. ',nstep,time,k,coord,xmin,xmax
call flush(nop)
endif !1st tile
endif !l_arch
if (kkout.gt.1 .or. l_arch(14)) then
call zaiowr(v(1-nbdy,1-nbdy,k,n),iv,.true., &
xmin,xmax, nopa, .false.)
if (mnproc.eq.1) then
write (nop,117) 'v-vel. ',nstep,time,k,coord,xmin,xmax
call flush(nop)
endif !1st tile
endif !l_arch
if (kkout.gt.1 .or. l_arch(15)) then
call zaiowr(dp(1-nbdy,1-nbdy,k,n),ip,.true., &
xmin,xmax, nopa, .false.)
if (mnproc.eq.1) then
write (nop,117) 'thknss ',nstep,time,k,coord,xmin,xmax
call flush(nop)
endif !1st tile
endif !l_arch
if (kkout.gt.1 .or. l_arch(16)) then
call zaiowr(temp(1-nbdy,1-nbdy,k,n),ip,.true., &
xmin,xmax, nopa, .false.)
if (mnproc.eq.1) then
write (nop,117) 'temp ',nstep,time,k,coord,xmin,xmax
call flush(nop)
endif !1st tile
endif !l_arch
if (kkout.gt.1 .or. l_arch(17)) then
call zaiowr(saln(1-nbdy,1-nbdy,k,n),ip,.true., &
xmin,xmax, nopa, .false.)
if (mnproc.eq.1) then
write (nop,117) 'salin ',nstep,time,k,coord,xmin,xmax
call flush(nop)
endif !1st tile
endif !l_arch
!
! --- no tracers or diffusion for single layer case
!
if (kkout.gt.1) then
do ktr= 1,ntracr+mtracr
call zaiowr(tracer(1-nbdy,1-nbdy,k,n,ktr),ip,.true., &
xmin,xmax, nopa, .false.)
if (mnproc.eq.1) then
if (ktr.le.99) then
! --- older postprocessing code will not recognise this
write(ctype,'(a6,i2.2)') 'tracer',ktr
else
ctype = 'tracer '
endif
write (nop,117) ctype,nstep,time,k,coord,xmin,xmax
call flush(nop)
endif !1st tile
enddo !ktr
#if defined(STOKES)
if (stdarc) then
call zaiowr(usdp(1-nbdy,1-nbdy,k),ip,.true., &
xmin,xmax, nopa, .false.)
if (mnproc.eq.1) then
ktr = ntracr+mtracr + 1
if (ktr.le.99) then
! --- older postprocessing code will not recognise this
write(ctype,'(a6,i2.2)') 'tracer',ktr
else
ctype = 'tracer '
endif
write (nop,117) ctype,nstep,time,k,coord,xmin,xmax
call flush(nop)
endif !1st tile
call zaiowr(vsdp(1-nbdy,1-nbdy,k),ip,.true., &
xmin,xmax, nopa, .false.)
if (mnproc.eq.1) then
ktr = ntracr+mtracr + 2
if (ktr.le.99) then
! --- older postprocessing code will not recognise this
write(ctype,'(a6,i2.2)') 'tracer',ktr
else
ctype = 'tracer '
endif
write (nop,117) ctype,nstep,time,k,coord,xmin,xmax
call flush(nop)
endif !1st tile
endif !stdarc
#endif
if (difout) then
call zaiowr(vcty(1-nbdy,1-nbdy,k+1),ip,.true., &
xmin,xmax, nopa, .false.)
if (mnproc.eq.1) then
write (nop,117) 'viscty ',nstep,time,k,coord,xmin,xmax
call flush(nop)
endif !1st tile
call zaiowr(dift(1-nbdy,1-nbdy,k+1),ip,.true., &
xmin,xmax, nopa, .false.)
if (mnproc.eq.1) then
write (nop,117) 't-diff ',nstep,time,k,coord,xmin,xmax
call flush(nop)
endif !1st tile
call zaiowr(difs(1-nbdy,1-nbdy,k+1),ip,.true., &
xmin,xmax, nopa, .false.)
if (mnproc.eq.1) then
write (nop,117) 's-diff ',nstep,time,k,coord,xmin,xmax
call flush(nop)
endif !1st tile
endif !difout
endif !kkout>1
75 continue
!
117 format (a8,' =',i11,f11.3,i3,f7.3,1p2e16.7)
!
! --- output time-averaged mass fluxes, if required
!
if (.not. (mxlkpp .or. mxlmy .or. mxlgiss) .and. kkout.eq.kk) then
do k=1,kk
coord=sigma(k)
call zaiowr(diaflx(1-nbdy,1-nbdy,k),ip,.true., &
xmin,xmax, nopa, .false.)
if (mnproc.eq.1) then
write (nop,118) 'diafx',intvl,nstep,time,k,coord,xmin,xmax
call flush(nop)
endif !1st tile
118 format (a5,a3,' =',i11,f11.3,i3,f7.3,1p2e16.7)
enddo
endif !diaflx
!
close (unit=nop)
call zaiocl(nopa)
!
call xcsync(no_flush)
!
endif !not 1-D
!
if (itest.gt.0 .and. jtest.gt.0) then
open (unit=nop,file=flnmarcvs(1:ldot)//'.txt',status='new') !uoff+13
call archiv_prof_out(n, iyear,iday,ihour, ittest,jttest, nop)
close (unit=nop)
endif !test point tile
!
call xcsync(no_flush)
!ccc
!ccc --- output to line printer
!ccc
!cc call prtmsk(ip,srfhgt,util3,idm,ii,jj,0.,100.0/g,
!cc . 'sea surface height (cm)')
!cc if(mxlkpp) call prtmsk(ip,dpbl,util3,idm,ii,jj,0.,1.*qonem,
!cc . 'turb. b.l. depth (m)')
!cc call prtmsk(ip,dpmixl,util3,idm,ii,jj,0.,1.*qonem,
!cc . 'mixed layer depth (m)')
!cc call prtmsk(ip,tmix,util3,idm,ii,jj,0.,10.,
!cc . 'mix.layer temp. (.1 deg)')
!cc call prtmsk(ip,smix,util3,idm,ii,jj,35.,100.,
!cc . 'mx.lay. salin. (.01 mil)')
!cc!$OMP PARALLEL DO PRIVATE(j,i)
!cc!$OMP& SCHEDULE(STATIC,jblk)
!cc do j=1-margin,jj+margin
!cc do i=1-margin,ii+margin
!cc if (iu(i,j).ne.0) then
!cc util1(i,j)=umix(i,j)+ubavg(i,j,n)
!cc endif !iu
!cc if (iv(i,j).ne.0) then
!cc util2(i,j)=vmix(i,j)+vbavg(i,j,n)
!cc endif !iv
!cc enddo !i
!cc enddo !j
!cc!$OMP END PARALLEL DO
!cc call prtmsk(iu(2,1),util1(2,1),util3,idm,ii-2,jj,0.,1000.,
!cc . 'mix.layer u vel. (mm/s)')
!cc call prtmsk(iv(1,2),util2(1,2),util3,idm,ii,jj-2,0.,1000.,
!cc . 'mix.layer v vel. (mm/s)')
!cc call prtmsk(iu(2,1),ubavg(2,1,n),util3,idm,ii-2,jj,0.,1000.,
!cc . 'barotrop. u vel. (mm/s)')
!cc call prtmsk(iv(2,1),vbavg(1,2,n),util3,idm,ii,jj-2,0.,1000.,
!cc . 'barotrop. v vel. (mm/s)')
return
end subroutine archiv
subroutine archiv_prof_init
!
! --- initialize for multi-location profile output.
!
logical lexist
integer ios,kpnt
!
! --- check that the requried directory exists
! --- not all compilers detect directories, so look for a dummy file.
!
inquire(file='ARCHP/archv.dummy.txt',exist=lexist)
if (.not.lexist) then
if (mnproc.eq.1) then
write (lp,*) 'file ARCHP/archv.dummy.txt must exist'
endif
call xcstop('(archv_prof_init)')
stop '(archv_prof_init)'
endif
!
! --- count the number of locations
!
open(unit=uoff+99,file=trim(flnminp)//'profile.input')
do kpnt= 1,999999
read(uoff+99,*,iostat=ios)
if (ios.ne.0) then
exit
endif
enddo !kpnt
npnts = kpnt - 1
if (npnts.eq.0) then
if (mnproc.eq.1) then
write (lp,*) 'profile.input is empty'
endif
call xcstop('(archv_prof_init)')
stop '(archv_prof_init)'
endif
!
allocate( ipnts(npnts), jpnts(npnts), cpnts(npnts) )
!
! --- profile.input contains one line per profile with 3 entries
! --- i and j array indexes followed by the name of the profile
!
rewind(unit=uoff+99)
do kpnt= 1,npnts
read(uoff+99,*) ipnts(kpnt),jpnts(kpnt),cpnts(kpnt)
enddo !kpnt
close (unit=uoff+99)
!
fpnts = .true. !initialize profile location files
return
end subroutine archiv_prof_init
subroutine archiv_prof(n, kkout, iyear,iday,ihour)
!
integer n, kkout, iyear,iday,ihour
!
# include "stmt_fns.h"
!
! --- multi-location profile output.
!
character*81, save :: flnmarcp !1 extra character for trailing "_"
integer, save :: ldot
integer :: ipnt,jpnt,kpnt,nop
!
if (npnts.eq.0) then
return
endif
!
if (fpnts) then ! initialize profile location files
flnmarcp = flnmarc
ldot = index(flnmarcp,'.',back=.true.)
if (ldot.eq.0) then
if (mnproc.eq.1) then
write (lp,*) 'need decimal point in flnmarcp'
write (lp,*) 'flnmarcp = ',trim(flnmarcp)
endif
call xchalt('(flnmarcp)')
stop '(flnmarcp)'
endif
ldot = min(ldot,len(flnmarcp)-12) !need 12 characters for archive date
!
if (proffq.ge.1.0/24.0) then
! --- indicate the archive date
write(flnmarcp(ldot+1:ldot+12),'(i4.4,a1,i3.3,a1,i2.2,a1)') &
iyear,'_',iday,'_',ihour,'_'
ldot=ldot+12
else
! --- indicate the archive time step
write(flnmarcp(ldot+1:ldot+12),'(i11.11,a1)') nstep,'_'
ldot=ldot+12
endif
endif !fpnts
nop =13+uoff
!
do kpnt= 1,npnts
ipnt = ipnts(kpnt) - i0
jpnt = jpnts(kpnt) - j0
!
if (ipnt.gt.0 .and. ipnt.le.ii .and. &
jpnt.gt.0 .and. jpnt.le.jj ) then
if (fpnts) then ! initialize profile location files
open (unit=nop,status='new', &
action='write',form='formatted', &
file='ARCHP/'//flnmarcp(1:ldot)//trim(cpnts(kpnt))//'.txt')
else !write at the end of existing profile files
open (unit=nop,status='old',position='append', &
action='write',form='formatted', &
file='ARCHP/'//flnmarcp(1:ldot)//trim(cpnts(kpnt))//'.txt')
endif !fpnts
call archiv_prof_out(n, iyear,iday,ihour, &
ipnts(kpnt),jpnts(kpnt), nop)
close (unit=nop)
endif !test point tile
enddo !kpnt
!
fpnts = .false. ! use existing profile location files
!
call xcsync(no_flush) !called on all tiles
return
end subroutine archiv_prof
subroutine archiv_prof_out(n, iyear,iday,ihour, ipoint,jpoint,nop)
#if defined(STOKES)
use mod_stokes ! Stokes Drift Velocity Module
#endif
!
integer n, iyear,iday,ihour, ipoint,jpoint,nop
!
# include "stmt_fns.h"
!
! --- on the owning tile only: write a text profile file to unit nop.
! --- open and close of the I/O unit is done outside this routine.
!
character*80 cformat
integer ipnt,ipnt1,jpnt,jpnt1,k,ktr
real ssha,sshn,sshs,sssc,sstc,ubpnt,upnt,vbpnt,vpnt
real difsp,sshb,opnt,sssa,sihpnt
real*8 sums
#if defined(STOKES)
real ubstk,ustk,ust0,vbstk,vstk,vst0
#endif
!
real, parameter :: difriv = 60.0 !river diffusion, cm**2/s
!
ipnt = ipoint - i0
jpnt = jpoint - j0
!
if (ipnt.gt.0 .and. ipnt.le.ii .and. &
jpnt.gt.0 .and. jpnt.le.jj ) then
! --- owning tile.
write (nop,'(3a / a,6i7,f9.3,f8.3,i7,i5.4,i4.3,i3.2)') &
'## expt idm jdm kdm', &
' iloc jloc lonloc latloc', &
' yrflag year day hr', &
'##',iexpt, itdm, jtdm, kdm, &
ipoint,jpoint, &
mod(plon(ipnt,jpnt),360.0),plat(ipnt,jpnt), &
yrflag,iyear,iday,ihour
!
ssha = srfhgt(ipnt,jpnt)
if (sshflg.eq.1) then
sshs = steric(ipnt,jpnt)
elseif (sshflg.eq.2) then
sshs = montg1(ipnt,jpnt)
else
sshs = ssha !assume all is steric
endif
sshn = ssha - sshs
!
opnt = oneta(ipnt,jpnt,n)
sshb = (opnt - 1.0)*pbot(ipnt,jpnt) !pressure units
!
sssa = (opnt* dp(ipnt,jpnt,1,n)*saln(ipnt,jpnt,1,n) - &
dp0k(1)*saln0)*qonem !layer 1 salt anomaly
sums = 0.d0
do k= 1,kdm
sums = sums + opnt*dp(ipnt,jpnt,k,n)*saln(ipnt,jpnt,k,n)
enddo !k
sums = (sums - pbot(ipnt,jpnt)*saln0)*qonem !salt anomaly, m.psu
!
if (sstflg.le.1) then
if (relaxf) then
sstc = twall(ipnt,jpnt,1,lc0)*wc0+ &
twall(ipnt,jpnt,1,lc1)*wc1+ &
twall(ipnt,jpnt,1,lc2)*wc2+ &
twall(ipnt,jpnt,1,lc3)*wc3
else
sstc = 99.9999
endif !relaxf
else !synoptic observed sst
if (natm.eq.2) then
sstc = seatmp(ipnt,jpnt,l0)*w0+ &
seatmp(ipnt,jpnt,l1)*w1
else
sstc = seatmp(ipnt,jpnt,l0)*w0+ &
seatmp(ipnt,jpnt,l1)*w1+ &
seatmp(ipnt,jpnt,l2)*w2+ &
seatmp(ipnt,jpnt,l3)*w3
endif !natm
endif !sstflg
if (relaxf) then
sssc = swall(ipnt,jpnt,1,lc0)*wc0+ &
swall(ipnt,jpnt,1,lc1)*wc1+ &
swall(ipnt,jpnt,1,lc2)*wc2+ &
swall(ipnt,jpnt,1,lc3)*wc3
else
sssc = 99.9999
endif !relaxf
!
! --- interpolate to the p-grid, but only if it requres no halo points
ipnt1 = min(ipnt+1,ii) !either ipnt+1 or ipnt
jpnt1 = min(jpnt+1,jj) !either jpnt+1 or jpnt
ubpnt = 0.5*(ubavg(ipnt,jpnt,n)+ubavg(ipnt1,jpnt, n))
vbpnt = 0.5*(vbavg(ipnt,jpnt,n)+vbavg(ipnt, jpnt1,n))
upnt = 0.5*( umix(ipnt,jpnt) + umix(ipnt1,jpnt ) ) + ubpnt
vpnt = 0.5*( vmix(ipnt,jpnt) + vmix(ipnt, jpnt1) ) + vbpnt
#if defined(STOKES)
ubstk = 0.5*(usdbavg(ipnt,jpnt)+usdbavg(ipnt1,jpnt ))
vbstk = 0.5*(vsdbavg(ipnt,jpnt)+vsdbavg(ipnt, jpnt1))
ust0 = usds(ipnt,jpnt)
vst0 = vsds(ipnt,jpnt)
!
! --- order is not optimal, constrained by ALL/bin/hycom_profile_list
! --- which only includes the fields up to vbavg (or up to nsterc)
write (nop,'(8a)') &
'## model-day srfhgt surflx', &
' dpbl dpmixl tmix smix thmix', &
' umix vmix ubavg vbavg steric nsterc', &
' oneta tclim sclim', &
' sswflx mixflx sstflx', &
' E-P sssE-P rivE-P bhtflx buoflx', &
' ustar hekman dpbbl', &
' usdbave vsdbave usd0 vsd0'
write (nop,'(a,f11.4,f8.2,f8.1,'// & !...surflx
'2f9.3,3f8.4,'// & !... thmix
'6f8.2,'// & !...nsterc
'3f8.4,'// & !... sclim
'3f8.1,'// & !...sstflx
'3f9.2,2f8.4,'// & !...buoflx
'f9.5, 2f9.3,'// & !... dpbbl
'4f8.2)') & !... vsd0
'#',time, & !model-day
ssha*100.0/g, & !cm
surflx(ipnt,jpnt), & !W/m**2
min( dpbl(ipnt,jpnt) *qonem, 9999.999), & !m
min(dpmixl(ipnt,jpnt,n)*qonem, 9999.999), & !m
tmix(ipnt,jpnt), & !degC
smix(ipnt,jpnt), & !psu
thmix(ipnt,jpnt)+thbase, & !SigmaT
max(-999.99,min(999.99, upnt*100.0)), & !cm/s
max(-999.99,min(999.99, vpnt*100.0)), & !cm/s
max(-999.99,min(999.99,ubpnt*100.0)), & !cm/s
max(-999.99,min(999.99,vbpnt*100.0)), & !cm/s
sshs*100.0/g, & !cm
sshn*100.0/g, & !cm
opnt, & !unitless
sstc, & !degC
sssc, & !psu
sswflx(ipnt,jpnt), & !W/m**2
mixflx(ipnt,jpnt), & !W/m**2
sstflx(ipnt,jpnt), & !W/m**2
wtrflx(ipnt,jpnt)*svref*8.64E7, & !mm/day
sssflx(ipnt,jpnt)*svref*8.64E7/ &
max(0.1,saln(ipnt,jpnt,1,n)), & !mm/day
rivflx(ipnt,jpnt)*svref*8.64E7, & !mm/day
bhtflx(ipnt,jpnt)*1.e6, & !1.e6*m**2/sec**3
buoflx(ipnt,jpnt)*1.e6, & !1.e6*m**2/sec**3
ustar(ipnt,jpnt), & !m/s?
min(hekman(ipnt,jpnt), 9999.999), & !m
min( dpbbl(ipnt,jpnt) *qonem, 9999.999), & !m
max(-999.99,min(999.99,ubstk*100.0)), & !cm/s
max(-999.99,min(999.99,vbstk*100.0)), & !cm/s
max(-999.99,min(999.99, ust0*100.0)), & !cm/s
max(-999.99,min(999.99, vst0*100.0)) !cm/s
#else
!
! --- order is not optimal, constrained by ALL/bin/hycom_profile_list
! --- which only includes the fields up to vbavg (or up to nsterc)
write (nop,'(7a)') &
'## model-day srfhgt surflx', &
' dpbl dpmixl tmix smix thmix', &
' umix vmix ubavg vbavg steric nsterc', &
' oneta tclim sclim', &
' sswflx mixflx sstflx', &
' E-P sssE-P rivE-P bhtflx buoflx', &
' ustar hekman dpbbl'
write (nop,'(a,f11.4,f8.2,f8.1,'// & !...surflx
'2f9.3,3f8.4,'// & !... thmix
'6f8.2,'// & !...nsterc
'3f8.4,'// & !... sclim
'3f8.1,'// & !...sstflx
'3f9.2,2f8.4,'// & !...buoflx
'f9.5, 2f9.3)') & !... dpbbl
'#',time, & !model-day
ssha*100.0/g, & !cm
surflx(ipnt,jpnt), & !W/m**2
min( dpbl(ipnt,jpnt) *qonem, 9999.999), & !m
min(dpmixl(ipnt,jpnt,n)*qonem, 9999.999), & !m
tmix(ipnt,jpnt), & !degC
smix(ipnt,jpnt), & !psu
thmix(ipnt,jpnt)+thbase, & !SigmaT
max(-999.99,min(999.99, upnt*100.0)), & !cm/s
max(-999.99,min(999.99, vpnt*100.0)), & !cm/s
max(-999.99,min(999.99,ubpnt*100.0)), & !cm/s
max(-999.99,min(999.99,vbpnt*100.0)), & !cm/s
sshs*100.0/g, & !cm
sshn*100.0/g, & !cm
opnt, & !unitless
sstc, & !degC
sssc, & !psu
sswflx(ipnt,jpnt), & !W/m**2
mixflx(ipnt,jpnt), & !W/m**2
sstflx(ipnt,jpnt), & !W/m**2
wtrflx(ipnt,jpnt)*svref*8.64E7, & !mm/day
sssflx(ipnt,jpnt)*svref*8.64E7/ &
max(0.1,saln(ipnt,jpnt,1,n)), & !mm/day
rivflx(ipnt,jpnt)*svref*8.64E7, & !mm/day
bhtflx(ipnt,jpnt)*1.e6, & !1.e6*m**2/sec**3
buoflx(ipnt,jpnt)*1.e6, & !1.e6*m**2/sec**3
ustar(ipnt,jpnt), & !m/s?
min(hekman(ipnt,jpnt), 9999.999), & !m
min( dpbbl(ipnt,jpnt) *qonem, 9999.999) !m
#endif
!
! --- An added line for mass constervation
write (nop,'(2a)') &
'## model-day srfhgt steric nsterc pbavg', &
' oneta salt1.anom salt.anom'
write (nop,'(a,f11.4,4f8.2,f8.5,2f12.2)') &
'#',time, & !model-day
ssha*100.0/g, & !cm
sshs*100.0/g, & !cm
sshn*100.0/g, & !cm
sshb*100.0*qonem, & !cm
opnt, & !1+eta, unitless
sssa, & !m.psu
sums !m.psu
!
if (iceflg.ne.0) then
if (.not.icegln) then
wflfrz(ipnt,jpnt) = wflice(ipnt,jpnt)
endif
if (iceflg.eq.1) then
sihpnt = thkice(ipnt,jpnt) !from icloan
else
sihpnt = si_h(ipnt,jpnt) !from coupler
endif
write (nop,'(2a / a,f11.4, 3f8.2,2f8.1,2f9.2)') &
'## model-day', &
' covice thkice temice flxice fswice iceE-P iceFRZ', &
'#',time, & !model-day
covice(ipnt,jpnt)*100.0, & !%
sihpnt, & !m
temice(ipnt,jpnt), & !degC
flxice(ipnt,jpnt), & !W/m**2
fswice(ipnt,jpnt), & !W/m**2
wflice(ipnt,jpnt)*svref*8.64E7, & !mm/day
wflfrz(ipnt,jpnt)*svref*8.64E7 !mm/day
endif !iceflg
#if defined(STOKES)
if (ntracr+mtracr.eq.0) then
write(cformat,'(a)') '(4a)'
else
write(cformat,'(a,i2,a)') '(4a,', ntracr+mtracr, 'a)'
endif
write (nop,cformat) &
'# k', &
' utot vtot p.temp saln p.dens', &
' thkns dpth viscty t-diff s-diff', &
' usdtot vsdtot', &
(' tracer',ktr=1,ntracr+mtracr)
if (ntracr+mtracr.eq.0) then
write(cformat,'(a)') &
'(i4,2f8.2,3f8.4,f9.3,f10.3,3f8.2,2f8.2)'
else
write(cformat,'(a,i2,a)') &
'(i4,2f8.2,3f8.4,f9.3,f10.3,3f8.2,2f8.2,', ntracr+mtracr, 'f8.3)'
endif
#else
if (ntracr+mtracr.eq.0) then
write(cformat,'(a)') '(3a)'
else
write(cformat,'(a,i2,a)') '(3a,', ntracr+mtracr, 'a)'
endif
write (nop,cformat) &
'# k', &
' utot vtot p.temp saln p.dens', &
' thkns dpth viscty t-diff s-diff', &
(' tracer',ktr=1,ntracr+mtracr)
if (ntracr+mtracr.eq.0) then
write(cformat,'(a)') &
'(i4,2f8.2,3f8.4,f9.3,f10.3,3f8.2)'
else
write(cformat,'(a,i2,a)') &
'(i4,2f8.2,3f8.4,f9.3,f10.3,3f8.2,', ntracr+mtracr, 'f8.3)'
endif
#endif
do k= 1,kk
upnt = 0.5*(u(ipnt,jpnt,k,n)+u(ipnt1,jpnt, k,n)) + ubpnt
vpnt = 0.5*(v(ipnt,jpnt,k,n)+v(ipnt, jpnt1,k,n)) + vbpnt
#if defined(STOKES)
ustk = 0.5*(usd(ipnt,jpnt,k)+usd(ipnt1,jpnt, k))
vstk = 0.5*(vsd(ipnt,jpnt,k)+vsd(ipnt, jpnt1,k))
#endif
difsp = min(9999.99,difs(ipnt,jpnt,k+1)*1.e4)
if (rivers(ipnt,jpnt, 1).ne.0.0 .and. &
p(ipnt,jpnt,k+1).lt.thkriv ) then
difsp = max(difsp, difriv)
endif
write (nop,cformat) &
k, &
max(-999.99,min(999.99,upnt*100.0)), & !cm/s
max(-999.99,min(999.99,vpnt*100.0)), & !cm/s
temp(ipnt,jpnt,k,n), & !degC
saln(ipnt,jpnt,k,n), & !psu
th3d(ipnt,jpnt,k,n)+thbase, & !SigmaT
dp(ipnt,jpnt,k,n)*qonem, & !m
(p(ipnt,jpnt,k+1)+p(ipnt,jpnt,k))*0.5*qonem, & !m
min(9999.99,vcty(ipnt,jpnt,k+1)*1.e4), & !cm**2/s
min(9999.99,dift(ipnt,jpnt,k+1)*1.e4), & !cm**2/s
difsp, & !cm**2/s
#if defined(STOKES)
max(-999.99,min(999.99,ustk*100.0)), & !cm/s
max(-999.99,min(999.99,vstk*100.0)), & !cm/s
#endif
(tracer(ipnt,jpnt,k,n,ktr),ktr=1,ntracr+mtracr) !0-999?
enddo !k
else
write (lp,*) 'archiv_prof_out called on wrong tile'
write (lp,*) 'ipoint,jpoint = ',ipoint,jpoint
write (lp,*) 'ipnt, jpnt = ',ipnt, jpnt
write (lp,*)
call xchalt('(archiv_prof_out)')
stop '(archiv_prof_out)'
endif !point tile
return
end subroutine archiv_prof_out
subroutine archiv_tile(n, kkout, iyear,iday,ihour)
#if defined(STOKES)
use mod_stokes ! Stokes Drift Velocity Module
#endif
!
integer n, kkout, iyear,iday,ihour
real sssc,sstc
!
# include "stmt_fns.h"
!
! --- write a partial archive file on a tile by tile basis.
!
character*8 ctype
character*12 cdir
character*80 cformat