MODULE module_compute_geop CONTAINS SUBROUTINE compute_500mb_height ( ph, phb, p, pb, & height, track_level, & ids, ide, jds, jde, kds, kde, & ims, ime, jms, jme, kms, kme, & its, ite, jts, jte, kts, kte ) IMPLICIT NONE ! Input data. INTEGER , INTENT(IN ) :: ids, ide, jds, jde, kds, kde, & ims, ime, jms, jme, kms, kme, & its, ite, jts, jte, kts, kte REAL , DIMENSION( ims:ime , kms:kme, jms:jme ) , & INTENT(IN ) :: & ph, & phb, & pb, & p REAL , DIMENSION( ims:ime , jms:jme ) , INTENT( OUT) :: height INTEGER , INTENT(IN) :: track_level ! local variables integer :: i,j,k real, dimension(kms:kme) :: pressure,geopotential real :: interp_output real :: track_level_p ! slow version of code, we'll call interp routine for each column track_level_p = float(track_level) do j = jts, min(jde-1,jte) do i = its, min(ide-1,ite) do k=kds,kde pressure(k) = p(i,k,j) + pb(i,k,j) geopotential(k) = 0.5*( ph(i,k ,j)+phb(i,k ,j) & +ph(i,k+1,j)+phb(i,k+1,j) ) enddo ! call interp_p( geopotential, pressure, 70000., interp_output, & call interp_p( geopotential, pressure, track_level_p, interp_output, & kds,kde-1,kms,kme, i,j ) height(i,j) = interp_output/9.81 ! 500 mb height in meters enddo enddo end subroutine compute_500mb_height !-------- subroutine interp_p(a,p,p_loc,a_interp,ks,ke,kms,kme,i,j) implicit none integer, intent(in) :: ks,ke,kms,kme,i,j real, dimension(kms:kme), intent(in) :: a,p real, intent(in) :: p_loc real, intent(out) :: a_interp !--- local variables integer :: kp, pk, k real :: wght1, wght2, dp, pressure character*256 mess !cys_change: set high value at below-ground point if (p(ks).lt.p_loc) then a_interp=9.81e5 else kp = ks+1 pk = p(kp) pressure = p_loc do while( pk .gt. pressure ) kp = kp+1 if(kp .gt. ke) then write(mess,*) ' interp too high: pressure, p(ke), i, j = ',pressure,p(ke),i,j write(0,*)'p: ',p call wrf_error_fatal( mess ) end if pk = p(kp) enddo dp = p(kp-1) - p(kp) wght2 = (p(kp-1)-pressure)/dp wght1 = 1.-wght2 a_interp = wght1*a(kp-1) + wght2*a(kp) endif !cys_change end subroutine interp_p END MODULE module_compute_geop