! ! ! ! module module_sf_scmskintemp contains ! !------------------------------------------------------------------- ! subroutine scmskintemp(tsk, julian_in, itimestep, & ids, ide, jds, jde, kds, kde, & ims, ime, jms, jme, kms, kme, & its, ite, jts, jte, kts, kte ) !------------------------------------------------------------------- implicit none !------------------------------------------------------------------- ! integer, intent(in) :: ids, ide, jds, jde, kds, kde, & ims, ime, jms, jme, kms, kme, & its, ite, jts, jte, kts, kte, & itimestep ! real, intent(in) :: julian_in ! real, dimension( ims:ime, jms:jme ) , & intent(inout):: tsk ! local vars integer, parameter :: n_max = 1200 integer :: i, j, n, nm, nt, m real :: julian_s, julian_e, fc_int real, dimension( 0:n_max ) :: fc_tsk, fc_julian logical :: end_of_file ! !-----open scmtemp_bdy and read the julian_s, julian_e, fc_int ! open(unit=11, file='scmtemp_bdy', form='formatted', status='old') read(11,*) julian_s, julian_e, fc_int ! end_of_file = .false. n=1 do while (.not. end_of_file) read(11,*,end=100) fc_tsk(n) fc_julian(n)=julian_s+real(n-1)*fc_int/86400. n=n+1 go to 110 100 end_of_file = .true. 110 continue enddo nt=n-1 close(11) ! !-----linear interpolation of the skin temperature for each time step ! do n=1,nt if (julian_in.ge.fc_julian(n) .and. julian_in.lt.fc_julian(n+1)) then fc_tsk(0)= fc_tsk(n) & +(fc_tsk(n+1)-fc_tsk(n))*(julian_in-fc_julian(n))/fc_int/86400. endif enddo ! !-----compute skin temperature ! do j=jts,jte do i=its,ite tsk(i,j)=fc_tsk(0) enddo enddo end subroutine scmskintemp !------------------------------------------------------------------- end module module_sf_scmskintemp