! source file: /Users/nadinemengis/Documents/UVic_ESCM/2.10/updates/02_CE_permafrost_merge_CMIP6forcing/source/common/sulphdata.F
subroutine sulphdata
!=======================================================================
! read and interpolate sulphate data
!=======================================================================
implicit none
character(120) :: fname, name, vname, new_file_name, text
integer i, iou, j, n, ln, ib(10), ic(10)
logical first_time, intrp, exists, inqvardef
real data_time, wt3, wt1, yrl(3), iyr(3)
real, allocatable :: time(:)
save time, ln, yrl, first_time
include "size.h"
include "param.h"
include "pconst.h"
include "stdunits.h"
include "atm.h"
include "calendar.h"
include "cembm.h"
include "levind.h"
include "tmngr.h"
real tmpij(imtm2,jmtm2)
name = "A_sulphod.nc"
vname = "A_sulphod"
if (.not. allocated (time)) then
fname = new_file_name (name)
inquire (file=trim(fname), exist=exists)
if (.not. exists) then
print*, "Warning => ", trim(fname), " does not exist."
ln = 3
allocate ( time(ln) )
time(:) = year0
sulph(:,:,:) = 0.
first_time = .false.
else
call openfile (fname, iou)
call getdimlen ('time', iou, ln)
allocate ( time(ln) )
ib(:) = 1
ic(:) = ln
call getvara ('time', iou, ln, ib, ic, time, c1, c0)
text = 'years'
call getatttext (iou, 'time', 'units', text)
if (trim(text) .eq. "days since 1-1-1")
& time(:) = time(:)/yrlen - 1.
if (trim(text) .eq. "days since 0-1-1")
& time(:) = time(:)/yrlen
if (trim(text) .eq. "years since 1-1-1")
& time(:) = time(:) - 1.
exists = inqvardef(trim(vname), iou)
if (.not. exists) then
print*, "==> Warning: A_sulpfor data does not exist."
endif
first_time = .true.
endif
iyr(:) = 0
yrl(:) = 0.
else
first_time = .false.
endif
intrp = .false.
yrl(2) = min(time(ln), max(time(1), sulph_yr))
if (yrl(2) .gt. time(1) .and. yrl(2) .lt. time(ln)) intrp = .true.
if (first_time .or. yrl(2) .gt. yrl(3)) then
! read data
ib(:) = 1
ic(:) = imtm2
ic(2) = jmtm2
ic(3) = 1
fname = new_file_name (name)
if (intrp) then
do n=2,ln
if (time(n-1) .le. yrl(2) .and. time(n) .ge. yrl(2)) then
yrl(1) = time(n-1)
iyr(1) = n-1
yrl(3) = time(n)
iyr(3) = n
endif
enddo
call openfile (fname, iou)
ib(3) = iyr(1)
print*, "=> reading sulphate data for year:",yrl(1)
call getvara (trim(vname), iou, imtm2*jmtm2, ib, ic
&, tmpij, c1, c0)
sulph(2:imtm1,2:jmtm1,1) = tmpij(1:imtm2,1:jmtm2)
call embmbc (sulph(:,:,1))
call openfile (fname, iou)
ib(3) = iyr(3)
print*, "=> reading sulphate data for year:",yrl(3)
call getvara (trim(vname), iou, imtm2*jmtm2, ib, ic
&, tmpij, c1, c0)
sulph(2:imtm1,2:jmtm1,3) = tmpij(1:imtm2,1:jmtm2)
call embmbc (sulph(:,:,3))
else
if (yrl(2) .le. time(1)) then
n = 1
yrl(1) = time(1)
yrl(3) = time(1)
iyr(n) = 1
else
n = 3
yrl(1) = time(ln)
yrl(3) = time(ln)
iyr(n) = ln
endif
call openfile (fname, iou)
ib(3) = iyr(n)
print*, "=> reading sulphate data for year:",yrl(2)
call getvara (trim(vname), iou, imtm2*jmtm2, ib, ic
&, tmpij, c1, c0)
sulph(2:imtm1,2:jmtm1,2) = tmpij(1:imtm2,1:jmtm2)
call embmbc (sulph(:,:,2))
sulph(:,:,1) = sulph(:,:,2)
sulph(:,:,3) = sulph(:,:,2)
endif
endif
if (intrp) then
! interpolate data
wt1 = 1.
if (yrl(3) .ne. yrl(1)) wt1 = (yrl(3)-yrl(2))/(yrl(3)-yrl(1))
wt1 = max(0., min(1., wt1))
wt3 = 1. - wt1
do j=1,jmt
do i=1,imt
sulph(i,j,2) = sulph(i,j,1)*wt1 + sulph(i,j,3)*wt3
enddo
enddo
elseif (yrl(2) .le. time(1)) then
sulph(:,:,2) = sulph(:,:,1)
elseif (yrl(2) .ge. time(ln)) then
sulph(:,:,2) = sulph(:,:,3)
endif
call embmbc (sulph(1,1,2))
return
end