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mod_mean.F90
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#if defined(ROW_LAND)
#define SEA_P .true.
#define SEA_U .true.
#define SEA_V .true.
#elif defined(ROW_ALLSEA)
#define SEA_P allip(j).or.ip(i,j).ne.0
#define SEA_U alliu(j).or.iu(i,j).ne.0
#define SEA_V alliv(j).or.iv(i,j).ne.0
#else
#define SEA_P ip(i,j).ne.0
#define SEA_U iu(i,j).ne.0
#define SEA_V iv(i,j).ne.0
#endif
module mod_mean
use mod_xc ! HYCOM communication interface
use mod_cb_arrays ! HYCOM saved arrays
#if defined(STOKES)
use mod_stokes ! HYCOM Stokes drift
#endif
!
implicit none
!
! --- HYCOM time means
!
real*8, save, public :: &
time_min, & !start of averaging interval, set by mean_zero
time_ave, & !middle of averaging interval, set by mean_end
time_max !end of averaging interval, set by mean_end
!
integer, save, private :: &
nmean ! mean sum counter
real, save, private :: &
snmean ! mean sum counter
!
real, allocatable, dimension(:,:,:,:), &
save, private :: &
tracer_m
!
real, allocatable, dimension(:,:,:), &
save, private :: &
#if defined(STOKES)
u_m,v_m,ke_m,temp_m,saln_m,th3d_m,dp_m,dpu_m,dpv_m &
,usdp_m,vsdp_m
#else
u_m,v_m,ke_m,temp_m,saln_m,th3d_m,dp_m,dpu_m,dpv_m
#endif
!
real, allocatable, dimension(:,:), &
save, private :: &
ubaro_m,vbaro_m,kebaro_m, &
montg_m,srfht_m,steric_m,dpbl_m,dpmixl_m, &
surflx_m,salflx_m,wtrflx_m, covice_m,thkice_m,temice_m, &
oneta_m,oneta_u,oneta_v
contains
subroutine mean_allocate
!
! --- Allocate mean fields.
!
if (ntracr+mtracr.gt.0) then
allocate(tracer_m(1-nbdy:idm+nbdy,1-nbdy:jdm+nbdy,kdm,ntracr+mtracr) )
call mem_stat_add((idm+2*nbdy)*(jdm+2*nbdy)*kdm*ntracr+mtracr )
endif
!
allocate( u_m(1-nbdy:idm+nbdy,1-nbdy:jdm+nbdy,kdm) )
allocate( v_m(1-nbdy:idm+nbdy,1-nbdy:jdm+nbdy,kdm) )
allocate( ke_m(1-nbdy:idm+nbdy,1-nbdy:jdm+nbdy,kdm) )
allocate( temp_m(1-nbdy:idm+nbdy,1-nbdy:jdm+nbdy,kdm) )
allocate( saln_m(1-nbdy:idm+nbdy,1-nbdy:jdm+nbdy,kdm) )
allocate( th3d_m(1-nbdy:idm+nbdy,1-nbdy:jdm+nbdy,kdm) )
allocate( dp_m(1-nbdy:idm+nbdy,1-nbdy:jdm+nbdy,kdm) )
allocate( dpu_m(1-nbdy:idm+nbdy,1-nbdy:jdm+nbdy,kdm) )
allocate( dpv_m(1-nbdy:idm+nbdy,1-nbdy:jdm+nbdy,kdm) )
call mem_stat_add( 9*(idm+2*nbdy)*(jdm+2*nbdy)*kdm )
#if defined(STOKES)
if (stdarc) then
allocate( usdp_m(1-nbdy:idm+nbdy,1-nbdy:jdm+nbdy,kdm) )
allocate( vsdp_m(1-nbdy:idm+nbdy,1-nbdy:jdm+nbdy,kdm) )
call mem_stat_add( 2*(idm+2*nbdy)*(jdm+2*nbdy)*kdm )
endif !stdarc
#endif
!
allocate( ubaro_m(1-nbdy:idm+nbdy,1-nbdy:jdm+nbdy) )
allocate( vbaro_m(1-nbdy:idm+nbdy,1-nbdy:jdm+nbdy) )
allocate( kebaro_m(1-nbdy:idm+nbdy,1-nbdy:jdm+nbdy) )
allocate( montg_m(1-nbdy:idm+nbdy,1-nbdy:jdm+nbdy) )
allocate( steric_m(1-nbdy:idm+nbdy,1-nbdy:jdm+nbdy) ) !not always output
allocate( srfht_m(1-nbdy:idm+nbdy,1-nbdy:jdm+nbdy) )
allocate( dpbl_m(1-nbdy:idm+nbdy,1-nbdy:jdm+nbdy) )
allocate( dpmixl_m(1-nbdy:idm+nbdy,1-nbdy:jdm+nbdy) )
allocate( surflx_m(1-nbdy:idm+nbdy,1-nbdy:jdm+nbdy) )
allocate( salflx_m(1-nbdy:idm+nbdy,1-nbdy:jdm+nbdy) )
allocate( wtrflx_m(1-nbdy:idm+nbdy,1-nbdy:jdm+nbdy) )
allocate( covice_m(1-nbdy:idm+nbdy,1-nbdy:jdm+nbdy) )
allocate( thkice_m(1-nbdy:idm+nbdy,1-nbdy:jdm+nbdy) )
allocate( temice_m(1-nbdy:idm+nbdy,1-nbdy:jdm+nbdy) )
allocate( oneta_m(1-nbdy:idm+nbdy,1-nbdy:jdm+nbdy) )
allocate( oneta_u(1-nbdy:idm+nbdy,1-nbdy:jdm+nbdy) )
allocate( oneta_v(1-nbdy:idm+nbdy,1-nbdy:jdm+nbdy) )
call mem_stat_add( 17*(idm+2*nbdy)*(jdm+2*nbdy) )
!
return
end subroutine mean_allocate
subroutine mean_zero(time_now)
!
real*8 time_now
!
! --- Zero all mean fields
!
integer i,j,k,ktr
!
snmean = 0.0
nmean = 0
time_min = time_now
!
!$OMP PARALLEL DO PRIVATE(j,i,k,ktr)
do j=1,jj
do i=1,ii
kebaro_m(i,j) = 0.0
montg_m(i,j) = 0.0
steric_m(i,j) = 0.0
srfht_m(i,j) = 0.0
dpbl_m(i,j) = 0.0
dpmixl_m(i,j) = 0.0
surflx_m(i,j) = 0.0
salflx_m(i,j) = 0.0
wtrflx_m(i,j) = 0.0
covice_m(i,j) = 0.0
thkice_m(i,j) = 0.0
temice_m(i,j) = 0.0
ubaro_m(i,j) = 0.0
vbaro_m(i,j) = 0.0
oneta_m(i,j) = 0.0
oneta_u(i,j) = 0.0
oneta_v(i,j) = 0.0
enddo !i
do k= 1,kk
do i=1,ii
dp_m(i,j,k) = 0.0
dpu_m(i,j,k) = 0.0
dpv_m(i,j,k) = 0.0
temp_m(i,j,k) = 0.0
saln_m(i,j,k) = 0.0
th3d_m(i,j,k) = 0.0
ke_m(i,j,k) = 0.0
u_m(i,j,k) = 0.0
v_m(i,j,k) = 0.0
do ktr= 1,ntracr+mtracr
tracer_m(i,j,k,ktr) = 0.0
enddo !ktr
#if defined(STOKES)
if (stdarc) then
usdp_m(i,j,k) = 0.0
vsdp_m(i,j,k) = 0.0
endif !stdarc
#endif
enddo !i
enddo !k
enddo !j
!
return
end subroutine mean_zero
subroutine mean_add(n, s)
!
integer n
real s
!
! --- Add to mean fields
! --- s is 1.0 or 0.5
!
integer i,j,k,ktr
real q,ke
!
snmean = snmean + s
nmean = nmean + 1
!
! --- assume dp,dpu,dpv are up to date
! --- halos only needed for kinetic energy
!
vland = 1.0
call xctilr(oneta( 1-nbdy,1-nbdy, n),1, 1, 1,1, halo_ps)
vland = 0.0
call xctilr(u( 1-nbdy,1-nbdy,1,n),1,kk, 1,1, halo_uv)
call xctilr(ubavg( 1-nbdy,1-nbdy, n),1, 1, 1,1, halo_uv)
call xctilr(v( 1-nbdy,1-nbdy,1,n),1,kk, 1,1, halo_vv)
call xctilr(vbavg( 1-nbdy,1-nbdy, n),1, 1, 1,1, halo_vv)
!
!$OMP PARALLEL DO PRIVATE(j,i,k,ktr,q,ke)
do j=1,jj
do i=1,ii
if (SEA_P) then
ke = 0.5*((0.5*(ubavg(i, j,n) + &
ubavg(i+1,j,n) ))**2 + &
(0.5*(vbavg(i,j, n) + &
vbavg(i,j+1,n) ))**2 )
kebaro_m(i,j) = kebaro_m(i,j) + s*ke
montg_m(i,j) = montg_m(i,j) + s*montg1(i,j)
steric_m(i,j) = steric_m(i,j) + s*steric(i,j)
srfht_m(i,j) = srfht_m(i,j) + s*srfhgt(i,j)
oneta_m(i,j) = oneta_m(i,j) + s* oneta(i,j,n)
dpbl_m(i,j) = dpbl_m(i,j) + s* dpbl(i,j)
dpmixl_m(i,j) = dpmixl_m(i,j) + s*dpmixl(i,j,n)
surflx_m(i,j) = surflx_m(i,j) + s*surflx(i,j)
wtrflx_m(i,j) = wtrflx_m(i,j) + s*wtrflx(i,j)
salflx_m(i,j) = salflx_m(i,j) + s*salflx(i,j)
covice_m(i,j) = covice_m(i,j) + s*covice(i,j)
thkice_m(i,j) = thkice_m(i,j) + s*thkice(i,j)
temice_m(i,j) = temice_m(i,j) + s*temice(i,j)
endif !ip
if (SEA_U) then
ubaro_m(i,j) = ubaro_m(i,j) + s*ubavg(i,j,n)
! --- depthu is either pbot(i,j) or pbot(i-1,j)
if (pbot(i,j).eq.pbot(i-1,j)) then
oneta_u(i,j) = 0.5*(oneta(i,j,n)+oneta(i-1,j,n))
elseif (pbot(i,j).eq.depthu(i,j)) then
oneta_u(i,j) = oneta(i,j,n)
else
oneta_u(i,j) = oneta(i-1,j,n)
endif
endif !iu
if (SEA_V) then
vbaro_m(i,j) = vbaro_m(i,j) + s*vbavg(i,j,n)
! --- depthv is either pbot(i,j) or pbot(i,j-1)
if (pbot(i,j).eq.pbot(i,j-1)) then
oneta_v(i,j) = 0.5*(oneta(i,j,n)+oneta(i,j-1,n))
elseif (pbot(i,j).eq.depthv(i,j)) then
oneta_v(i,j) = oneta(i,j,n)
else
oneta_v(i,j) = oneta(i,j-1,n)
endif
endif !ip
enddo !i
do k= 1,kk
do i=1,ii
if (SEA_P) then
ke = 0.5*((0.5*(u(i, j,k,n) + ubavg(i, j,n) + &
u(i+1,j,k,n) + ubavg(i+1,j,n) ))**2 + &
(0.5*(v(i,j ,k,n) + vbavg(i,j, n) + &
v(i,j+1,k,n) + vbavg(i,j+1,n) ))**2 )
!
q = s*oneta(i,j,n)*dp(i,j,k,n)
dp_m(i,j,k) = dp_m(i,j,k) + q
temp_m(i,j,k) = temp_m(i,j,k) + temp(i,j,k,n) * q
saln_m(i,j,k) = saln_m(i,j,k) + saln(i,j,k,n) * q
th3d_m(i,j,k) = th3d_m(i,j,k) + th3d(i,j,k,n) * q
ke_m(i,j,k) = ke_m(i,j,k) + ke * q
do ktr= 1,ntracr+mtracr
tracer_m(i,j,k,ktr) = tracer_m(i,j,k, ktr) + &
tracer(i,j,k,n,ktr) * q
enddo !ktr
#if defined(STOKES)
if (stdarc) then
usdp_m(i,j,k) = usdp_m(i,j,k) + usdp(i,j,k) * q
vsdp_m(i,j,k) = vsdp_m(i,j,k) + vsdp(i,j,k) * q
endif !stdarc
#endif
endif !ip
if (SEA_U) then
q = s*dpu(i,j,k,n)*oneta_u(i,j)
dpu_m(i,j,k) = dpu_m(i,j,k) + q
u_m(i,j,k) = u_m(i,j,k) + q*(u(i,j,k,n) + ubavg(i,j,n))
endif !iu
if (SEA_V) then
q = s*dpv(i,j,k,n)*oneta_v(i,j)
dpv_m(i,j,k) = dpv_m(i,j,k) + q
v_m(i,j,k) = v_m(i,j,k) + q*(v(i,j,k,n) + vbavg(i,j,n))
endif !iv
enddo !i
enddo !k
enddo !j
!
return
end subroutine mean_add
subroutine mean_end(time_now)
!
real*8 time_now
!
! --- Reduce sums to their mean.
!
integer i,j,k,ktr
real dpthin,q,qdp,q1ta
real*8 time_int
!
q = 1.0/snmean
time_max = time_now
time_ave = 0.5*(time_min + time_max)
if (nint(snmean).ne.nmean) then
! --- 1st and last sample scaled by 1/2.
nmean = nint(snmean)
time_int = (time_max - time_min)*q
time_min = time_min + 0.5*time_int
time_max = time_max - 0.5*time_int
endif
!
dpthin = 0.001*onemm
!
!$OMP PARALLEL DO PRIVATE(j,i,k,qdp)
do j=1,jj
do i=1,ii
if (SEA_P) then
kebaro_m(i,j) = kebaro_m(i,j) * q
montg_m(i,j) = montg_m(i,j) * q
steric_m(i,j) = steric_m(i,j) * q
oneta_m(i,j) = oneta_m(i,j) * q
srfht_m(i,j) = srfht_m(i,j) * q
dpbl_m(i,j) = dpbl_m(i,j) * q
dpmixl_m(i,j) = dpmixl_m(i,j) * q
surflx_m(i,j) = surflx_m(i,j) * q
wtrflx_m(i,j) = wtrflx_m(i,j) * q
salflx_m(i,j) = salflx_m(i,j) * q
covice_m(i,j) = covice_m(i,j) * q
thkice_m(i,j) = thkice_m(i,j) * q
temice_m(i,j) = temice_m(i,j) * q
p(i,j,1) = 0.0
endif !ip
if (SEA_U) then
ubaro_m(i,j) = ubaro_m(i,j) * q
endif !iu
if (SEA_V) then
vbaro_m(i,j) = vbaro_m(i,j) * q
endif !iv
enddo !i
do k= 1,kk
do i=1,ii
if (SEA_P) then
dp_m(i,j,k) = dp_m(i,j,k) * q
if (dp_m(i,j,k).ge.dpthin) then
qdp = q/dp_m(i,j,k)
temp_m(i,j,k) = temp_m(i,j,k) * qdp
saln_m(i,j,k) = saln_m(i,j,k) * qdp
th3d_m(i,j,k) = th3d_m(i,j,k) * qdp
ke_m(i,j,k) = ke_m(i,j,k) * qdp
do ktr= 1,ntracr+mtracr
tracer_m(i,j,k,ktr) = tracer_m(i,j,k, ktr) * qdp
enddo !ktr
#if defined(STOKES)
if (stdarc) then
usdp_m(i,j,k) = usdp_m(i,j,k) * qdp
vsdp_m(i,j,k) = vsdp_m(i,j,k) * qdp
endif !stdarc
#endif
else !project into zero thickness layers
temp_m(i,j,k) = temp_m(i,j,k-1)
saln_m(i,j,k) = saln_m(i,j,k-1)
th3d_m(i,j,k) = th3d_m(i,j,k-1)
ke_m(i,j,k) = ke_m(i,j,k-1)
do ktr= 1,ntracr+mtracr
tracer_m(i,j,k,ktr) = tracer_m(i,j,k-1,ktr)
enddo !ktr
#if defined(STOKES)
if (stdarc) then
usdp_m(i,j,k) = usdp_m(i,j,k-1)
vsdp_m(i,j,k) = vsdp_m(i,j,k-1)
endif !stdarc
#endif
endif !dpthin:else
!
! --- archived dp_m is based on dp' (dp_m/oneta_m)
dp_m(i,j,k) = dp_m(i,j,k)/oneta_m(i,j)
p(i,j,k+1) = dp_m(i,j,k) + p(i,j,k)
endif !ip
if (SEA_U) then
dpu_m(i,j,k) = dpu_m(i,j,k) * q
if (dpu_m(i,j,k).ge.dpthin) then
qdp = q/dpu_m(i,j,k)
u_m(i,j,k) = u_m(i,j,k) * qdp
else
u_m(i,j,k) = u_m(i,j,k-1)
endif
endif !iu
if (SEA_V) then
dpv_m(i,j,k) = dpv_m(i,j,k) * q
if (dpv_m(i,j,k).ge.dpthin) then
qdp = q/dpv_m(i,j,k)
v_m(i,j,k) = v_m(i,j,k) * qdp
else
v_m(i,j,k) = v_m(i,j,k-1)
endif
endif !iv
enddo !i
enddo !k
enddo !j
!
call xctilr(p(1-nbdy,1-nbdy,2),1,kk, 1,1, halo_ps)
!
return
end subroutine mean_end
subroutine mean_archiv(n, iyear,iday,ihour)
use mod_za ! HYCOM I/O interface
!
integer n, iyear,iday,ihour
!
! --- write a mean archive file.
!
character*8 ctype
character*80 cformat
integer i,j,k,ktr,ldot,nop,nopa
integer itst1,jtst1
real ssha,sshn,sshs,sssc,sstc,ubpnt,upnt,vbpnt,vpnt
#if defined(STOKES)
real ustk,vstk
#endif
real coord,xmin,xmax
!
ldot = index(flnmarcm,'.',back=.true.)
if (ldot.eq.0) then
if (mnproc.eq.1) then
write (lp,*) 'need decimal point in flnmarcm'
write (lp,*) 'flnmarcm = ',trim(flnmarcm)
endif
call xcstop('(flnmarcm)')
stop '(flnmarcm)'
endif
ldot = min(ldot,len(flnmarcm)-11) !need 11 characters for archive date
!
! --- indicate the archive date
write(flnmarcm(ldot+1:ldot+11),'(i4.4,a1,i3.3,a1,i2.2)') &
iyear,'_',iday,'_',ihour
ldot=ldot+11
nopa=13
nop =13+uoff
!
! --- no .[ab] files for 1-D cases (<=6x6).
!
if (max(itdm,jtdm).gt.6) then !not 1-D output
!
call zaiopf(flnmarcm(1:ldot)//'.a', 'new', nopa)
if (mnproc.eq.1) then
open (unit=nop,file=flnmarcm(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 mean day', &
' k dens min max')
!
! --- surface fields
!
coord=0.
!
call zaiowr(montg_m,ip,.true., &
xmin,xmax, nopa, .false.)
if (mnproc.eq.1) then
write (nop,117) 'montg1 ',nmean,time_min,0,coord,xmin,xmax
call flush(nop)
endif !1st tile
call zaiowr(srfht_m,ip,.true., &
xmin,xmax, nopa, .false.)
if (mnproc.eq.1) then
write (nop,117) 'srfhgt ',nmean,time_max,0,coord,xmin,xmax
call flush(nop)
endif !1st tile
if (sshflg.eq.1) then
! --- write out steric SSH.
call zaiowr(steric_m,ip,.true., &
xmin,xmax, nopa, .false.)
if (mnproc.eq.1) then
write (nop,117) 'steric ',nmean,time_ave,0,coord,xmin,xmax
call flush(nop)
endif !1st tile
endif !sshflg
call zaiowr(oneta_m,ip,.true., &
xmin,xmax, nopa, .false.)
if (mnproc.eq.1) then
write (nop,117) 'oneta ',nmean,time_ave,0,coord,xmin,xmax
call flush(nop)
endif !1st tile
!
call zaiowr(surflx_m,ip,.true., xmin,xmax, nopa, .false.)
if (mnproc.eq.1) then
write (nop,117) 'surflx ',nmean,time_ave,0,coord,xmin,xmax
call flush(nop)
endif !1st tile
call zaiowr(wtrflx_m,ip,.true., xmin,xmax, nopa, .false.)
if (mnproc.eq.1) then
write (nop,117) 'wtrflx ',nmean,time_ave,0,coord,xmin,xmax
call flush(nop)
endif !1st tile
call zaiowr(salflx_m,ip,.true., xmin,xmax, nopa, .false.)
if (mnproc.eq.1) then
write (nop,117) 'salflx ',nmean,time_ave,0,coord,xmin,xmax
call flush(nop)
endif !1st tile
!
call zaiowr(dpbl_m,ip,.true., xmin,xmax, nopa, .false.)
if (mnproc.eq.1) then
write (nop,117) 'bl_dpth ',nmean,time_ave,0,coord,xmin,xmax
call flush(nop)
endif !1st tile
call zaiowr(dpmixl_m,ip,.true., &
xmin,xmax, nopa, .false.)
if (mnproc.eq.1) then
write (nop,117) 'mix_dpth',nmean,time_ave,0,coord,xmin,xmax
call flush(nop)
endif !1st tile
call zaiowr(temp_m,ip,.true., xmin,xmax, nopa, .false.)
if (mnproc.eq.1) then
write (nop,117) 'tmix ',nmean,time_ave,0,coord,xmin,xmax
call flush(nop)
endif !1st tile
call zaiowr(saln_m,ip,.true., xmin,xmax, nopa, .false.)
if (mnproc.eq.1) then
write (nop,117) 'smix ',nmean,time_ave,0,coord,xmin,xmax
call flush(nop)
endif !1st tile
call zaiowr(th3d_m,ip,.true., xmin,xmax, nopa, .false.)
if (mnproc.eq.1) then
write (nop,117) 'thmix ',nmean,time_ave,0,thbase,xmin,xmax
call flush(nop)
endif !1st tile
call zaiowr(u_m,iu,.true., xmin,xmax, nopa, .false.)
if (mnproc.eq.1) then
write (nop,117) 'umix ',nmean,time_ave,0,coord,xmin,xmax
call flush(nop)
endif !1st tile
call zaiowr(v_m,iv,.true., xmin,xmax, nopa, .false.)
if (mnproc.eq.1) then
write (nop,117) 'vmix ',nmean,time_ave,0,coord,xmin,xmax
call flush(nop)
endif !1st tile
call zaiowr(ke_m,ip,.true., xmin,xmax, nopa, .false.)
if (mnproc.eq.1) then
write (nop,117) 'kemix ',nmean,time_ave,0,thbase,xmin,xmax
call flush(nop)
endif !1st tile
if (iceflg.ne.0) then
call zaiowr(covice_m,ip,.true., xmin,xmax, nopa, .false.)
if (mnproc.eq.1) then
write (nop,117) 'covice ',nmean,time_ave,0,coord,xmin,xmax
call flush(nop)
endif !1st tile
call zaiowr(thkice_m,ip,.true., xmin,xmax, nopa, .false.)
if (mnproc.eq.1) then
write (nop,117) 'thkice ',nmean,time_ave,0,coord,xmin,xmax
call flush(nop)
endif !1st tile
call zaiowr(temice_m,ip,.true., xmin,xmax, nopa, .false.)
if (mnproc.eq.1) then
write (nop,117) 'temice ',nmean,time_ave,0,coord,xmin,xmax
call flush(nop)
endif !1st tile
endif !write ice fields
!
! --- depth averaged fields
!
call zaiowr(ubaro_m,iu,.true., &
xmin,xmax, nopa, .false.)
if (mnproc.eq.1) then
write (nop,117) 'u_btrop ',nmean,time_ave,0,coord,xmin,xmax
call flush(nop)
endif !1st tile
call zaiowr(vbaro_m,iv,.true., &
xmin,xmax, nopa, .false.)
if (mnproc.eq.1) then
write (nop,117) 'v_btrop ',nmean,time_ave,0,coord,xmin,xmax
call flush(nop)
endif !1st tile
call zaiowr(kebaro_m,ip,.true., &
xmin,xmax, nopa, .false.)
if (mnproc.eq.1) then
write (nop,117) 'kebtrop ',nmean,time_ave,0,coord,xmin,xmax
call flush(nop)
endif !1st tile
!
! --- layer loop.
!
do 75 k=1,kk
coord=sigma(k)
call zaiowr(u_m(1-nbdy,1-nbdy,k),iu,.true., &
xmin,xmax, nopa, .false.)
if (mnproc.eq.1) then
write (nop,117) 'u-vel. ',nmean,time_ave,k,coord,xmin,xmax
call flush(nop)
endif !1st tile
call zaiowr(v_m(1-nbdy,1-nbdy,k),iv,.true., &
xmin,xmax, nopa, .false.)
if (mnproc.eq.1) then
write (nop,117) 'v-vel. ',nmean,time_ave,k,coord,xmin,xmax
call flush(nop)
endif !1st tile
call zaiowr(ke_m(1-nbdy,1-nbdy,k),ip,.true., &
xmin,xmax, nopa, .false.)
if (mnproc.eq.1) then
write (nop,117) 'k.e. ',nmean,time_ave,k,coord,xmin,xmax
call flush(nop)
endif !1st tile
call zaiowr(dp_m(1-nbdy,1-nbdy,k),ip,.true., &
xmin,xmax, nopa, .false.)
if (mnproc.eq.1) then
write (nop,117) 'thknss ',nmean,time_ave,k,coord,xmin,xmax
call flush(nop)
endif !1st tile
call zaiowr(temp_m(1-nbdy,1-nbdy,k),ip,.true., &
xmin,xmax, nopa, .false.)
if (mnproc.eq.1) then
write (nop,117) 'temp ',nmean,time_ave,k,coord,xmin,xmax
call flush(nop)
endif !1st tile
call zaiowr(saln_m(1-nbdy,1-nbdy,k),ip,.true., &
xmin,xmax, nopa, .false.)
if (mnproc.eq.1) then
write (nop,117) 'salin ',nmean,time_ave,k,coord,xmin,xmax
call flush(nop)
endif !1st tile
call zaiowr(th3d_m(1-nbdy,1-nbdy,k),ip,.true., &
xmin,xmax, nopa, .false.)
if (mnproc.eq.1) then
write (nop,117) 'density ',nmean,time_ave,k,coord,xmin,xmax
call flush(nop)
endif !1st tile
do ktr= 1,ntracr+mtracr
call zaiowr(tracer_m(1-nbdy,1-nbdy,k,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,nmean,time_ave,k,coord,xmin,xmax
call flush(nop)
endif !1st tile
enddo !ktr
#if defined(STOKES)
if (stdarc) then
call zaiowr(usdp_m(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,nmean,time_ave,k,coord,xmin,xmax
call flush(nop)
endif !1st tile
call zaiowr(vsdp_m(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,nmean,time_ave,k,coord,xmin,xmax
call flush(nop)
endif !1st tile
endif !stdarc
#endif
75 continue
!
117 format (a8,' =',i11,f11.3,i3,f7.3,1p2e16.7)
!
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=flnmarcm(1:ldot)//'.txt',status='new') !uoff+13
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, &
ittest,jttest, &
mod(plon(itest,jtest),360.0),plat(itest,jtest), &
yrflag, iyear, iday, ihour
!
ssha = srfht_m(itest,jtest)
if (sshflg.eq.1) then
sshs = steric_m(itest,jtest)
elseif (sshflg.eq.2) then
sshs = montg_m(itest,jtest)
else
sshs = ssha !assume all is steric
endif
sshn = ssha - sshs
!
if (relaxf .and. sstflg.le.1) then
sstc = twall(itest,jtest,1,lc0)*wc0+ &
twall(itest,jtest,1,lc1)*wc1+ &
twall(itest,jtest,1,lc2)*wc2+ &
twall(itest,jtest,1,lc3)*wc3
else !synoptic observed sst
if (natm.eq.2) then
sstc = seatmp(itest,jtest,l0)*w0+ &
seatmp(itest,jtest,l1)*w1
else
sstc = seatmp(itest,jtest,l0)*w0+ &
seatmp(itest,jtest,l1)*w1+ &
seatmp(itest,jtest,l2)*w2+ &
seatmp(itest,jtest,l3)*w3
endif !natm
endif
sssc = swall(itest,jtest,1,lc0)*wc0+ &
swall(itest,jtest,1,lc1)*wc1+ &
swall(itest,jtest,1,lc2)*wc2+ &
swall(itest,jtest,1,lc3)*wc3
!
! --- interpolate to the p-grid, but only if it requres no halo points
itst1 = min(itest+1,ii) !either itest+1 or itest
jtst1 = min(jtest+1,jj) !either jtest+1 or jtest
ubpnt = 0.5*(ubaro_m(itest,jtest) +ubaro_m(itst1,jtest))
vbpnt = 0.5*(vbaro_m(itest,jtest) +vbaro_m(itest,jtst1))
upnt = 0.5*( u_m(itest,jtest,1)+ u_m(itst1,jtest,1))
vpnt = 0.5*( v_m(itest,jtest,1)+ v_m(itest,jtst1,1))
!
! --- 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,'(6a)') &
'## model-day srfhgt surflx', &
' dpbl dpmixl tmix smix thmix', &
' umix vmix ubavg vbavg steric nsterc', &
' oneta tclim sclim', &
' sswflx mixflx sstflx', &
' E-P'
write (nop,'(a,f11.4,f8.2,f8.1,'// & !...surflx
'2f9.3,3f8.4,'// & !... thmix
'6f8.2,'// & !...nsterc
'3f8.4,'// & !... sclim
'3f8.1,'// & !...sstflx
'f9.2)') & !...E-P
'#',time_ave, & !model-day
ssha*100.0/g, & !cm
surflx_m(itest,jtest), & !W/m**2
min( dpbl_m(itest,jtest)*qonem, 9999.999), & !m
min(dpmixl_m(itest,jtest)*qonem, 9999.999), & !m
temp_m(itest,jtest,1), & !degC
saln_m(itest,jtest,1), & !psu
th3d_m(itest,jtest,1)+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
oneta_m(itest,jtest), & !unitless
sstc, & !degC
sssc, & !psu
0.0, & !W/m**2
0.0, & !W/m**2
0.0, & !W/m**2
wtrflx_m(itest,jtest)*svref*8.64E7 !mm/day
if (iceflg.ne.0) then
write (nop,'(2a / a,f11.4, 3f8.2,2f8.1,f9.2)') &
'## model-day', &
' covice thkice temice flxice fswice iceE-P', &
'#',time_ave, & !model-day
covice_m(itest,jtest)*100.0, & !%
thkice_m(itest,jtest), & !m
temice_m(itest,jtest), & !degC
0.0, & !flxice_m(itest,jtest), !W/m**2
0.0, & !fswice_m(itest,jtest), !W/m**2
0.0 !sflice_m(itest,jtest)*svref*8.64E7/saln_m(itest,jtest,1) !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_m(itest,jtest,k)+u_m(itst1,jtest,k))
vpnt = 0.5*(v_m(itest,jtest,k)+v_m(itest,jtst1,k))
#if defined(STOKES)
if (stdarc) then
ustk = usdp_m(itest,jtest,k)
vstk = vsdp_m(itest,jtest,k)
else
ustk = 0.0
vstk = 0.0
endif
#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_m(itest,jtest,k), & !degC
saln_m(itest,jtest,k), & !psu
th3d_m(itest,jtest,k)+thbase, & !SigmaT
dp_m(itest,jtest,k)*qonem, & !m
(p(itest,jtest,k+1)+p(itest,jtest,k))*0.5*qonem, & !m
0.0, & !vcty(itest,jtest,k+1)*1.e4, !cm**2/s
0.0, & !dift(itest,jtest,k+1)*1.e4, !cm**2/s
0.0, & !difs(itest,jtest,k+1)*1.e4, !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_m(itest,jtest,k,ktr),ktr=1,ntracr+mtracr) !0-999?
enddo !k
close (unit=nop)
endif !test point tile
!
call xcsync(no_flush)
return
end subroutine mean_archiv
end module mod_mean
!
!
!> Revision history:
!>
!> Apr 2007 - 1st version
!> Dec. 2012 - fixed array out of bounds bug
!> May 2014 - use land/sea masks (e.g. ip) to skip land
!> Jul 2017 - use dpu and dpv to form mean velocity
!> Nov 2018 - added wtrflx
!> Nov 2018 - added oneta, use oneta*dp in place of dp
!> Dec 2018 - archive dp_m/oneta_m
!> July 2023 - added a number 01-99 to tracer output
!> July 2023 - added mtracr for diagnostic tracers