MODULE usrdef_hgr !!====================================================================== !! *** MODULE usrdef_hgr *** !! !! === TSUNAMI configuration === !! !! User defined : mesh and Coriolis parameter of a user configuration !!====================================================================== !! History : NEMO ! 2017-11 (J. Chanut) Original code !!---------------------------------------------------------------------- !!---------------------------------------------------------------------- !! usr_def_hgr : initialize the horizontal mesh for TSUNAMI configuration !!---------------------------------------------------------------------- USE dom_oce ! ocean space and time domain USE par_oce ! ocean space and time domain USE phycst ! physical constants USE usrdef_nam, ONLY: rn_dx, rn_dy, rn_0xratio, rn_0yratio, rn_ppgphi0, nn_fcase ! and reference latitude USE in_out_manager ! I/O manager USE lib_mpp ! MPP library IMPLICIT NONE PRIVATE PUBLIC usr_def_hgr ! called by domhgr.F90 !! * Substitutions # include "do_loop_substitute.h90" !!---------------------------------------------------------------------- !! NEMO/OCE 4.0 , NEMO Consortium (2018) !! $Id: usrdef_hgr.F90 14223 2020-12-19 10:22:45Z smasson $ !! Software governed by the CeCILL license (see ./LICENSE) !!---------------------------------------------------------------------- CONTAINS SUBROUTINE usr_def_hgr( plamt , plamu , plamv , plamf , & ! geographic position (required) & pphit , pphiu , pphiv , pphif , & ! & kff , pff_f , pff_t , & ! Coriolis parameter (if domain not on the sphere) & pe1t , pe1u , pe1v , pe1f , & ! scale factors (required) & pe2t , pe2u , pe2v , pe2f , & ! & ke1e2u_v , pe1e2u , pe1e2v ) ! u- & v-surfaces (if gridsize reduction is used in strait(s)) !!---------------------------------------------------------------------- !! *** ROUTINE usr_def_hgr *** !! !! ** Purpose : user defined mesh and Coriolis parameter !! !! ** Method : set all intent(out) argument to a proper value !! TSUNAMI configuration : beta-plance with uniform grid spacing (rn_dx) !! !! ** Action : - define longitude & latitude of t-, u-, v- and f-points (in degrees) !! - define coriolis parameter at f-point if the domain in not on the sphere (on beta-plane) !! - define i- & j-scale factors at t-, u-, v- and f-points (in meters) !! - define u- & v-surfaces (if gridsize reduction is used in some straits) (in m2) !!---------------------------------------------------------------------- REAL(wp), DIMENSION(:,:), INTENT(out) :: plamt, plamu, plamv, plamf ! longitude outputs [degrees] REAL(wp), DIMENSION(:,:), INTENT(out) :: pphit, pphiu, pphiv, pphif ! latitude outputs [degrees] INTEGER , INTENT(out) :: kff ! =1 Coriolis parameter computed here, =0 otherwise REAL(wp), DIMENSION(:,:), INTENT(out) :: pff_f, pff_t ! Coriolis factor at f-point [1/s] REAL(wp), DIMENSION(:,:), INTENT(out) :: pe1t, pe1u, pe1v, pe1f ! i-scale factors [m] REAL(wp), DIMENSION(:,:), INTENT(out) :: pe2t, pe2u, pe2v, pe2f ! j-scale factors [m] INTEGER , INTENT(out) :: ke1e2u_v ! =1 u- & v-surfaces computed here, =0 otherwise REAL(wp), DIMENSION(:,:), INTENT(out) :: pe1e2u, pe1e2v ! u- & v-surfaces (if reduction in strait) [m2] ! INTEGER :: ji, jj ! dummy loop indices INTEGER :: ii0, ij0 ! dummy loop indices REAL(wp) :: zbeta, zf0 REAL(wp) :: zti, ztj ! local scalars !!------------------------------------------------------------------------------- ! IF(lwp) WRITE(numout,*) IF(lwp) WRITE(numout,*) 'usr_def_hgr : TSUNAMI configuration bassin' IF(lwp) WRITE(numout,*) IF(lwp) WRITE(numout,*) ' Beta-plane with regular grid-spacing' IF(lwp) WRITE(numout,*) ' given by rn_dx and rn_dy' ! ! ! Position coordinates (in kilometers) ! ========== ii0 = NINT( REAL(Ni0glo, wp) * rn_0xratio ) ij0 = NINT( REAL(Nj0glo, wp) * rn_0yratio ) #if defined key_agrif ! ! let lower left longitude and latitude from parent IF (.NOT.Agrif_root()) THEN to be coded... ENDIF #endif DO_2D( nn_hls, nn_hls, nn_hls, nn_hls ) zti = REAL( mig0(ji)-ii0, wp ) ! =0 at i=ii0 in the global grid without halos ztj = REAL( mjg0(jj)-ij0, wp ) ! =0 at i=ij0 in the global grid without halos plamt(ji,jj) = rn_dx * zti plamu(ji,jj) = rn_dx * ( zti + 0.5_wp ) plamv(ji,jj) = plamt(ji,jj) plamf(ji,jj) = plamu(ji,jj) pphit(ji,jj) = rn_dy * ztj pphiv(ji,jj) = rn_dy * ( ztj + 0.5_wp ) pphiu(ji,jj) = pphit(ji,jj) pphif(ji,jj) = pphiv(ji,jj) END_2D ! ! Horizontal scale factors (in meters) ! ====== pe1t(:,:) = rn_dx * 1.e+3 ; pe2t(:,:) = rn_dy * 1.e+3 pe1u(:,:) = rn_dx * 1.e+3 ; pe2u(:,:) = rn_dy * 1.e+3 pe1v(:,:) = rn_dx * 1.e+3 ; pe2v(:,:) = rn_dy * 1.e+3 pe1f(:,:) = rn_dx * 1.e+3 ; pe2f(:,:) = rn_dy * 1.e+3 ! ! NO reduction of grid size in some straits ke1e2u_v = 0 ! ==>> u_ & v_surfaces will be computed in dom_hgr routine pe1e2u(:,:) = 0._wp ! CAUTION: set to zero to avoid error with some compilers that pe1e2v(:,:) = 0._wp ! require an initialization of INTENT(out) arguments ! ! ! !== Coriolis parameter ==! kff = 1 ! indicate not to compute Coriolis parameter afterward ! SELECT CASE(nn_fcase) CASE(0) zf0 = 2._wp * omega * SIN( rad * rn_ppgphi0 ) pff_f(:,:) = zf0 pff_t(:,:) = zf0 CASE(1) zbeta = 2._wp * omega * COS( rad * rn_ppgphi0 ) / ra zf0 = 2._wp * omega * SIN( rad * rn_ppgphi0 ) pff_f(:,:) = zf0 + zbeta * pphif(:,:) * 1.e+3 pff_t(:,:) = zf0 + zbeta * pphit(:,:) * 1.e+3 CASE(2) pff_f(:,:) = 2._wp * omega * SIN( rad * ( rn_ppgphi0 + pphif(:,:)/110. ) ) pff_t(:,:) = 2._wp * omega * SIN( rad * ( rn_ppgphi0 + pphit(:,:)/110. ) ) END SELECT ! END SUBROUTINE usr_def_hgr !!====================================================================== END MODULE usrdef_hgr