subroutine aggdata #if defined O_aggfor_data_transient !======================================================================= ! routine to read and interpolate additional greenhouse gas forcing ! data !======================================================================= implicit none character(120) :: fname, name, new_file_name, text integer iou, n, ln, ib(10), ic(10) logical inqvardef, exists real dat(3), data_time, tim(3), wt1, wt3, c1e3 real, allocatable :: data(:), time(:) save dat, data, ln, tim, time include "size.h" include "param.h" include "pconst.h" include "stdunits.h" include "calendar.h" include "cembm.h" include "switch.h" include "tmngr.h" c1e3 = 1000. if (.not. allocated (time)) then name = "A_aggfor.nc" 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) ) allocate ( data(ln) ) time(:) = year0 data(:) = 0. else call openfile (fname, iou) call getdimlen ('time', iou, ln) allocate ( time(ln) ) allocate ( data(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('A_aggfor', iou) if (.not. exists) then print*, "==> Warning: A_aggfor data does not exist." else call getvara ('A_aggfor', iou, ln, ib, ic, data, c1e3, c0) endif endif tim(:) = time(1) dat(:) = data(1) endif data_time = year0 + accel_yr0 + (relyr - accel_yr0)*accel tim(2) = min(time(ln), max(time(1), data_time)) if (tim(2) .le. time(1)) then dat(2) = data(1) elseif (tim(2) .ge. time(ln)) then dat(2) = data(ln) else if (tim(2) .gt. tim(3)) then do n=2,ln if (time(n-1) .le. tim(2) .and. time(n) .ge. tim(2)) then tim(1) = time(n-1) dat(1) = data(n-1) tim(3) = time(n) dat(3) = data(n) endif enddo endif wt1 = 1. if (tim(3) .ne. tim(1)) wt1 = (tim(3)-tim(2))/(tim(3)-tim(1)) wt1 = max(0., min(1., wt1)) wt3 = 1. - wt1 dat(2) = dat(1)*wt1 + dat(3)*wt3 endif aggfor = dat(2) #endif return end