MODULE agrif_opa_interp !!====================================================================== !! *** MODULE agrif_opa_interp *** !! AGRIF: interpolation package !!====================================================================== !! History : 2.0 ! 2002-06 (XXX) Original cade !! - ! 2005-11 (XXX) !! 3.2 ! 2009-04 (R. Benshila) !!---------------------------------------------------------------------- #if defined key_agrif && ! defined key_offline !!---------------------------------------------------------------------- !! 'key_agrif' AGRIF zoom !! NOT 'key_offline' NO off-line tracers !!---------------------------------------------------------------------- !! Agrif_tra : !! Agrif_dyn : !! interpu : !! interpv : !!---------------------------------------------------------------------- USE par_oce USE oce USE dom_oce USE sol_oce USE agrif_oce USE phycst USE in_out_manager USE agrif_opa_sponge USE lib_mpp IMPLICIT NONE PRIVATE PUBLIC Agrif_tra, Agrif_dyn, Agrif_ssh, interpu, interpv # include "domzgr_substitute.h90" # include "vectopt_loop_substitute.h90" !!---------------------------------------------------------------------- !! NEMO/NST 3.3 , NEMO Consortium (2010) !! $Id$ !! Software governed by the CeCILL licence (NEMOGCM/NEMO_CeCILL.txt) !!---------------------------------------------------------------------- CONTAINS SUBROUTINE Agrif_tra !!---------------------------------------------------------------------- !! *** ROUTINE Agrif_Tra *** !!---------------------------------------------------------------------- USE wrk_nemo, ONLY: wrk_in_use, wrk_not_released USE wrk_nemo, ONLY: wrk_3d_1, wrk_3d_2 !! INTEGER :: ji, jj, jk ! dummy loop indices REAL(wp) :: zrhox , alpha1, alpha2, alpha3 REAL(wp) :: alpha4, alpha5, alpha6, alpha7 REAL(wp), POINTER, DIMENSION(:,:,:) :: zta, zsa !!---------------------------------------------------------------------- ! IF( Agrif_Root() ) RETURN zta => wrk_3d_1 ; zsa => wrk_3d_2 IF( wrk_in_use(3, 1,2) )THEN CALL ctl_stop('agrif_tra: requested workspace arrays unavailable.') RETURN END IF Agrif_SpecialValue = 0.e0 Agrif_UseSpecialValue = .TRUE. zta(:,:,:) = 0.e0 zsa(:,:,:) = 0.e0 CALL Agrif_Bc_variable( zta, tn_id, procname = interptn ) CALL Agrif_Bc_variable( zsa, sn_id, procname = interpsn ) Agrif_UseSpecialValue = .FALSE. zrhox = Agrif_Rhox() alpha1 = ( zrhox - 1. ) * 0.5 alpha2 = 1. - alpha1 alpha3 = ( zrhox - 1. ) / ( zrhox + 1. ) alpha4 = 1. - alpha3 alpha6 = 2. * ( zrhox - 1. ) / ( zrhox + 1. ) alpha7 = - ( zrhox - 1. ) / ( zrhox + 3. ) alpha5 = 1. - alpha6 - alpha7 IF( nbondi == 1 .OR. nbondi == 2 ) THEN ta(nlci,:,:) = alpha1 * zta(nlci,:,:) + alpha2 * zta(nlci-1,:,:) sa(nlci,:,:) = alpha1 * zsa(nlci,:,:) + alpha2 * zsa(nlci-1,:,:) DO jk = 1, jpkm1 DO jj = 1, jpj IF( umask(nlci-2,jj,jk) == 0.e0 ) THEN ta(nlci-1,jj,jk) = ta(nlci,jj,jk) * tmask(nlci-1,jj,jk) sa(nlci-1,jj,jk) = sa(nlci,jj,jk) * tmask(nlci-1,jj,jk) ELSE ta(nlci-1,jj,jk)=(alpha4*ta(nlci,jj,jk)+alpha3*ta(nlci-2,jj,jk))*tmask(nlci-1,jj,jk) sa(nlci-1,jj,jk)=(alpha4*sa(nlci,jj,jk)+alpha3*sa(nlci-2,jj,jk))*tmask(nlci-1,jj,jk) IF( un(nlci-2,jj,jk) > 0.e0 ) THEN ta(nlci-1,jj,jk)=( alpha6*ta(nlci-2,jj,jk)+alpha5*ta(nlci,jj,jk) & & + alpha7*ta(nlci-3,jj,jk) ) * tmask(nlci-1,jj,jk) sa(nlci-1,jj,jk)=( alpha6*sa(nlci-2,jj,jk)+alpha5*sa(nlci,jj,jk) & & + alpha7*sa(nlci-3,jj,jk) ) * tmask(nlci-1,jj,jk) ENDIF ENDIF END DO END DO ENDIF IF( nbondj == 1 .OR. nbondj == 2 ) THEN ta(:,nlcj,:) = alpha1 * zta(:,nlcj,:) + alpha2 * zta(:,nlcj-1,:) sa(:,nlcj,:) = alpha1 * zsa(:,nlcj,:) + alpha2 * zsa(:,nlcj-1,:) DO jk = 1, jpkm1 DO ji = 1, jpi IF( vmask(ji,nlcj-2,jk) == 0.e0 ) THEN ta(ji,nlcj-1,jk) = ta(ji,nlcj,jk) * tmask(ji,nlcj-1,jk) sa(ji,nlcj-1,jk) = sa(ji,nlcj,jk) * tmask(ji,nlcj-1,jk) ELSE ta(ji,nlcj-1,jk)=(alpha4*ta(ji,nlcj,jk)+alpha3*ta(ji,nlcj-2,jk))*tmask(ji,nlcj-1,jk) sa(ji,nlcj-1,jk)=(alpha4*sa(ji,nlcj,jk)+alpha3*sa(ji,nlcj-2,jk))*tmask(ji,nlcj-1,jk) IF (vn(ji,nlcj-2,jk) > 0.e0 ) THEN ta(ji,nlcj-1,jk)=( alpha6*ta(ji,nlcj-2,jk)+alpha5*ta(ji,nlcj,jk) & & + alpha7*ta(ji,nlcj-3,jk) ) * tmask(ji,nlcj-1,jk) sa(ji,nlcj-1,jk)=( alpha6*sa(ji,nlcj-2,jk)+alpha5*sa(ji,nlcj,jk) & & + alpha7*sa(ji,nlcj-3,jk))*tmask(ji,nlcj-1,jk) ENDIF ENDIF END DO END DO ENDIF IF( nbondi == -1 .OR. nbondi == 2 ) THEN ta(1,:,:) = alpha1 * zta(1,:,:) + alpha2 * zta(2,:,:) sa(1,:,:) = alpha1 * zsa(1,:,:) + alpha2 * zsa(2,:,:) DO jk = 1, jpkm1 DO jj = 1, jpj IF( umask(2,jj,jk) == 0.e0 ) THEN ta(2,jj,jk) = ta(1,jj,jk) * tmask(2,jj,jk) sa(2,jj,jk) = sa(1,jj,jk) * tmask(2,jj,jk) ELSE ta(2,jj,jk)=(alpha4*ta(1,jj,jk)+alpha3*ta(3,jj,jk))*tmask(2,jj,jk) sa(2,jj,jk)=(alpha4*sa(1,jj,jk)+alpha3*sa(3,jj,jk))*tmask(2,jj,jk) IF( un(2,jj,jk) < 0.e0 ) THEN ta(2,jj,jk)=(alpha6*ta(3,jj,jk)+alpha5*ta(1,jj,jk)+alpha7*ta(4,jj,jk))*tmask(2,jj,jk) sa(2,jj,jk)=(alpha6*sa(3,jj,jk)+alpha5*sa(1,jj,jk)+alpha7*sa(4,jj,jk))*tmask(2,jj,jk) ENDIF ENDIF END DO END DO ENDIF IF( nbondj == -1 .OR. nbondj == 2 ) THEN ta(:,1,:) = alpha1 * zta(:,1,:) + alpha2 * zta(:,2,:) sa(:,1,:) = alpha1 * zsa(:,1,:) + alpha2 * zsa(:,2,:) DO jk=1,jpk DO ji=1,jpi IF( vmask(ji,2,jk) == 0.e0 ) THEN ta(ji,2,jk)=ta(ji,1,jk) * tmask(ji,2,jk) sa(ji,2,jk)=sa(ji,1,jk) * tmask(ji,2,jk) ELSE ta(ji,2,jk)=(alpha4*ta(ji,1,jk)+alpha3*ta(ji,3,jk))*tmask(ji,2,jk) sa(ji,2,jk)=(alpha4*sa(ji,1,jk)+alpha3*sa(ji,3,jk))*tmask(ji,2,jk) IF( vn(ji,2,jk) < 0.e0 ) THEN ta(ji,2,jk)=(alpha6*ta(ji,3,jk)+alpha5*ta(ji,1,jk)+alpha7*ta(ji,4,jk))*tmask(ji,2,jk) sa(ji,2,jk)=(alpha6*sa(ji,3,jk)+alpha5*sa(ji,1,jk)+alpha7*sa(ji,4,jk))*tmask(ji,2,jk) ENDIF ENDIF END DO END DO ENDIF ! IF( wrk_not_released(3, 1,2) ) THEN CALL ctl_stop('agrif_tra: failed to release workspace arrays.') ENDIF ! END SUBROUTINE Agrif_tra SUBROUTINE Agrif_dyn( kt ) !!---------------------------------------------------------------------- !! *** ROUTINE Agrif_DYN *** !!---------------------------------------------------------------------- USE wrk_nemo, ONLY: wrk_in_use, wrk_not_released USE wrk_nemo, ONLY: wrk_2d_4, wrk_2d_5 USE wrk_nemo, ONLY: wrk_2d_6, wrk_2d_7 USE wrk_nemo, ONLY: wrk_3d_1, wrk_3d_2 !! INTEGER, INTENT(in) :: kt !! INTEGER :: ji,jj,jk REAL(wp) :: timeref REAL(wp) :: z2dt, znugdt REAL(wp) :: zrhox, rhoy REAL(wp), POINTER, DIMENSION(:,:,:) :: zua, zva REAL(wp), POINTER, DIMENSION(:,:) :: spgv1, spgu1, zua2d, zva2d !!---------------------------------------------------------------------- IF( Agrif_Root() ) RETURN spgu1 => wrk_2d_4 ; spgv1 => wrk_2d_5 zua2d => wrk_2d_6 ; zva2d => wrk_2d_7 zua => wrk_3d_1 ; zva => wrk_3d_2 IF( wrk_in_use(2, 4,5,6,7) .OR. wrk_in_use(3, 1,2) )THEN CALL ctl_stop('agrif_dyn: requested workspace arrays unavailable.') RETURN END IF zrhox = Agrif_Rhox() rhoy = Agrif_Rhoy() timeref = 1. ! time step: leap-frog z2dt = 2. * rdt ! time step: Euler if restart from rest IF( neuler == 0 .AND. kt == nit000 ) z2dt = rdt ! coefficients znugdt = grav * z2dt Agrif_SpecialValue=0. Agrif_UseSpecialValue = ln_spc_dyn zua = 0. zva = 0. CALL Agrif_Bc_variable(zua,un_id,procname=interpu) CALL Agrif_Bc_variable(zva,vn_id,procname=interpv) zua2d = 0. zva2d = 0. Agrif_SpecialValue=0. Agrif_UseSpecialValue = ln_spc_dyn CALL Agrif_Bc_variable(zua2d,e1u_id,calledweight=1.,procname=interpu2d) CALL Agrif_Bc_variable(zva2d,e2v_id,calledweight=1.,procname=interpv2d) Agrif_UseSpecialValue = .FALSE. IF((nbondi == -1).OR.(nbondi == 2)) THEN DO jj=1,jpj laplacu(2,jj) = timeref * (zua2d(2,jj)/(rhoy*e2u(2,jj)))*umask(2,jj,1) END DO DO jk=1,jpkm1 DO jj=1,jpj ua(1:2,jj,jk) = (zua(1:2,jj,jk)/(rhoy*e2u(1:2,jj))) ua(1:2,jj,jk) = ua(1:2,jj,jk) / fse3u(1:2,jj,jk) END DO END DO DO jk=1,jpkm1 DO jj=1,jpj ua(2,jj,jk) = (ua(2,jj,jk) - z2dt * znugdt * laplacu(2,jj))*umask(2,jj,jk) END DO END DO spgu(2,:)=0. DO jk=1,jpkm1 DO jj=1,jpj spgu(2,jj)=spgu(2,jj)+fse3u(2,jj,jk)*ua(2,jj,jk) END DO END DO DO jj=1,jpj IF (umask(2,jj,1).NE.0.) THEN spgu(2,jj)=spgu(2,jj)/hu(2,jj) ENDIF END DO DO jk=1,jpkm1 DO jj=1,jpj ua(2,jj,jk) = 0.25*(ua(1,jj,jk)+2.*ua(2,jj,jk)+ua(3,jj,jk)) ua(2,jj,jk) = ua(2,jj,jk) * umask(2,jj,jk) END DO END DO spgu1(2,:)=0. DO jk=1,jpkm1 DO jj=1,jpj spgu1(2,jj)=spgu1(2,jj)+fse3u(2,jj,jk)*ua(2,jj,jk) END DO END DO DO jj=1,jpj IF (umask(2,jj,1).NE.0.) THEN spgu1(2,jj)=spgu1(2,jj)/hu(2,jj) ENDIF END DO DO jk=1,jpkm1 DO jj=1,jpj ua(2,jj,jk) = (ua(2,jj,jk)+spgu(2,jj)-spgu1(2,jj))*umask(2,jj,jk) END DO END DO DO jk=1,jpkm1 DO jj=1,jpj va(2,jj,jk) = (zva(2,jj,jk)/(zrhox*e1v(2,jj)))*vmask(2,jj,jk) va(2,jj,jk) = va(2,jj,jk) / fse3v(2,jj,jk) END DO END DO ENDIF IF((nbondi == 1).OR.(nbondi == 2)) THEN DO jj=1,jpj laplacu(nlci-2,jj) = timeref * (zua2d(nlci-2,jj)/(rhoy*e2u(nlci-2,jj))) END DO DO jk=1,jpkm1 DO jj=1,jpj ua(nlci-2:nlci-1,jj,jk) = (zua(nlci-2:nlci-1,jj,jk)/(rhoy*e2u(nlci-2:nlci-1,jj))) ua(nlci-2:nlci-1,jj,jk) = ua(nlci-2:nlci-1,jj,jk) / fse3u(nlci-2:nlci-1,jj,jk) END DO END DO DO jk=1,jpkm1 DO jj=1,jpj ua(nlci-2,jj,jk) = (ua(nlci-2,jj,jk)- z2dt * znugdt * laplacu(nlci-2,jj))*umask(nlci-2,jj,jk) END DO END DO spgu(nlci-2,:)=0. do jk=1,jpkm1 do jj=1,jpj spgu(nlci-2,jj)=spgu(nlci-2,jj)+fse3u(nlci-2,jj,jk)*ua(nlci-2,jj,jk) enddo enddo DO jj=1,jpj IF (umask(nlci-2,jj,1).NE.0.) THEN spgu(nlci-2,jj)=spgu(nlci-2,jj)/hu(nlci-2,jj) ENDIF END DO DO jk=1,jpkm1 DO jj=1,jpj ua(nlci-2,jj,jk) = 0.25*(ua(nlci-3,jj,jk)+2.*ua(nlci-2,jj,jk)+ua(nlci-1,jj,jk)) ua(nlci-2,jj,jk) = ua(nlci-2,jj,jk) * umask(nlci-2,jj,jk) END DO END DO spgu1(nlci-2,:)=0. DO jk=1,jpkm1 DO jj=1,jpj spgu1(nlci-2,jj)=spgu1(nlci-2,jj)+fse3u(nlci-2,jj,jk)*ua(nlci-2,jj,jk)*umask(nlci-2,jj,jk) END DO END DO DO jj=1,jpj IF (umask(nlci-2,jj,1).NE.0.) THEN spgu1(nlci-2,jj)=spgu1(nlci-2,jj)/hu(nlci-2,jj) ENDIF END DO DO jk=1,jpkm1 DO jj=1,jpj ua(nlci-2,jj,jk) = (ua(nlci-2,jj,jk)+spgu(nlci-2,jj)-spgu1(nlci-2,jj))*umask(nlci-2,jj,jk) END DO END DO DO jk=1,jpkm1 DO jj=1,jpj-1 va(nlci-1,jj,jk) = (zva(nlci-1,jj,jk)/(zrhox*e1v(nlci-1,jj)))*vmask(nlci-1,jj,jk) va(nlci-1,jj,jk) = va(nlci-1,jj,jk) / fse3v(nlci-1,jj,jk) END DO END DO ENDIF IF((nbondj == -1).OR.(nbondj == 2)) THEN DO ji=1,jpi laplacv(ji,2) = timeref * (zva2d(ji,2)/(zrhox*e1v(ji,2))) END DO DO jk=1,jpkm1 DO ji=1,jpi va(ji,1:2,jk) = (zva(ji,1:2,jk)/(zrhox*e1v(ji,1:2))) va(ji,1:2,jk) = va(ji,1:2,jk) / fse3v(ji,1:2,jk) END DO END DO DO jk=1,jpkm1 DO ji=1,jpi va(ji,2,jk) = (va(ji,2,jk) - z2dt * znugdt * laplacv(ji,2))*vmask(ji,2,jk) END DO END DO spgv(:,2)=0. DO jk=1,jpkm1 DO ji=1,jpi spgv(ji,2)=spgv(ji,2)+fse3v(ji,2,jk)*va(ji,2,jk) END DO END DO DO ji=1,jpi IF (vmask(ji,2,1).NE.0.) THEN spgv(ji,2)=spgv(ji,2)/hv(ji,2) ENDIF END DO DO jk=1,jpkm1 DO ji=1,jpi va(ji,2,jk)=0.25*(va(ji,1,jk)+2.*va(ji,2,jk)+va(ji,3,jk)) va(ji,2,jk)=va(ji,2,jk)*vmask(ji,2,jk) END DO END DO spgv1(:,2)=0. DO jk=1,jpkm1 DO ji=1,jpi spgv1(ji,2)=spgv1(ji,2)+fse3v(ji,2,jk)*va(ji,2,jk)*vmask(ji,2,jk) END DO END DO DO ji=1,jpi IF (vmask(ji,2,1).NE.0.) THEN spgv1(ji,2)=spgv1(ji,2)/hv(ji,2) ENDIF END DO DO jk=1,jpkm1 DO ji=1,jpi va(ji,2,jk) = (va(ji,2,jk)+spgv(ji,2)-spgv1(ji,2))*vmask(ji,2,jk) END DO END DO DO jk=1,jpkm1 DO ji=1,jpi ua(ji,2,jk) = (zua(ji,2,jk)/(rhoy*e2u(ji,2)))*umask(ji,2,jk) ua(ji,2,jk) = ua(ji,2,jk) / fse3u(ji,2,jk) END DO END DO ENDIF IF((nbondj == 1).OR.(nbondj == 2)) THEN DO ji=1,jpi laplacv(ji,nlcj-2) = timeref * (zva2d(ji,nlcj-2)/(zrhox*e1v(ji,nlcj-2))) END DO DO jk=1,jpkm1 DO ji=1,jpi va(ji,nlcj-2:nlcj-1,jk) = (zva(ji,nlcj-2:nlcj-1,jk)/(zrhox*e1v(ji,nlcj-2:nlcj-1))) va(ji,nlcj-2:nlcj-1,jk) = va(ji,nlcj-2:nlcj-1,jk) / fse3v(ji,nlcj-2:nlcj-1,jk) END DO END DO DO jk=1,jpkm1 DO ji=1,jpi va(ji,nlcj-2,jk) = (va(ji,nlcj-2,jk)-z2dt * znugdt * laplacv(ji,nlcj-2))*vmask(ji,nlcj-2,jk) END DO END DO spgv(:,nlcj-2)=0. DO jk=1,jpkm1 DO ji=1,jpi spgv(ji,nlcj-2)=spgv(ji,nlcj-2)+fse3v(ji,nlcj-2,jk)*va(ji,nlcj-2,jk) END DO END DO DO ji=1,jpi IF (vmask(ji,nlcj-2,1).NE.0.) THEN spgv(ji,nlcj-2)=spgv(ji,nlcj-2)/hv(ji,nlcj-2) ENDIF END DO DO jk=1,jpkm1 DO ji=1,jpi va(ji,nlcj-2,jk)=0.25*(va(ji,nlcj-3,jk)+2.*va(ji,nlcj-2,jk)+va(ji,nlcj-1,jk)) va(ji,nlcj-2,jk) = va(ji,nlcj-2,jk) * vmask(ji,nlcj-2,jk) END DO END DO spgv1(:,nlcj-2)=0. DO jk=1,jpkm1 DO ji=1,jpi spgv1(ji,nlcj-2)=spgv1(ji,nlcj-2)+fse3v(ji,nlcj-2,jk)*va(ji,nlcj-2,jk) END DO END DO DO ji=1,jpi IF (vmask(ji,nlcj-2,1).NE.0.) THEN spgv1(ji,nlcj-2)=spgv1(ji,nlcj-2)/hv(ji,nlcj-2) ENDIF END DO DO jk=1,jpkm1 DO ji=1,jpi va(ji,nlcj-2,jk) = (va(ji,nlcj-2,jk)+spgv(ji,nlcj-2)-spgv1(ji,nlcj-2))*vmask(ji,nlcj-2,jk) END DO END DO DO jk=1,jpkm1 DO ji=1,jpi ua(ji,nlcj-1,jk) = (zua(ji,nlcj-1,jk)/(rhoy*e2u(ji,nlcj-1)))*umask(ji,nlcj-1,jk) ua(ji,nlcj-1,jk) = ua(ji,nlcj-1,jk) / fse3u(ji,nlcj-1,jk) END DO END DO ENDIF ! IF( wrk_not_released(3, 1,2) .OR. wrk_not_released(2, 4,5,6,7)) THEN CALL ctl_stop('agrif_dyn: failed to release workspace arrays.') ENDIF ! END SUBROUTINE Agrif_dyn SUBROUTINE Agrif_ssh( kt ) !!---------------------------------------------------------------------- !! *** ROUTINE Agrif_DYN *** !!---------------------------------------------------------------------- INTEGER, INTENT(in) :: kt !! !!---------------------------------------------------------------------- IF( Agrif_Root() ) RETURN IF((nbondi == -1).OR.(nbondi == 2)) THEN ssha(2,:)=ssha(3,:) sshn(2,:)=sshn(3,:) ENDIF IF((nbondi == 1).OR.(nbondi == 2)) THEN ssha(nlci-1,:)=ssha(nlci-2,:) sshn(nlci-1,:)=sshn(nlci-2,:) ENDIF IF((nbondj == -1).OR.(nbondj == 2)) THEN ssha(:,2)=sshn(:,3) sshn(:,2)=sshb(:,3) ENDIF IF((nbondj == 1).OR.(nbondj == 2)) THEN ssha(:,nlcj-1)=ssha(:,nlcj-2) ssha(:,nlcj-1)=sshn(:,nlcj-2) ENDIF END SUBROUTINE Agrif_ssh SUBROUTINE interpu(tabres,i1,i2,j1,j2,k1,k2) !!---------------------------------------------------------------------- !! *** ROUTINE interpu *** !!---------------------------------------------------------------------- INTEGER, INTENT(in) :: i1,i2,j1,j2,k1,k2 REAL(wp),DIMENSION(i1:i2,j1:j2,k1:k2), INTENT(inout) :: tabres !! INTEGER :: ji,jj,jk !!---------------------------------------------------------------------- DO jk=k1,k2 DO jj=j1,j2 DO ji=i1,i2 tabres(ji,jj,jk) = e2u(ji,jj) * un(ji,jj,jk) tabres(ji,jj,jk) = tabres(ji,jj,jk) * fse3u(ji,jj,jk) END DO END DO END DO END SUBROUTINE interpu SUBROUTINE interpu2d(tabres,i1,i2,j1,j2) !!---------------------------------------------------------------------- !! *** ROUTINE interpu2d *** !!---------------------------------------------------------------------- INTEGER, INTENT(in) :: i1,i2,j1,j2 REAL(wp), DIMENSION(i1:i2,j1:j2), INTENT(inout) :: tabres !! INTEGER :: ji,jj !!---------------------------------------------------------------------- DO jj=j1,j2 DO ji=i1,i2 tabres(ji,jj) = e2u(ji,jj) * ((gcx(ji+1,jj) - gcx(ji,jj))/e1u(ji,jj)) & * umask(ji,jj,1) END DO END DO END SUBROUTINE interpu2d SUBROUTINE interpv(tabres,i1,i2,j1,j2,k1,k2) !!---------------------------------------------------------------------- !! *** ROUTINE interpv *** !!---------------------------------------------------------------------- INTEGER, INTENT(in) :: i1,i2,j1,j2,k1,k2 REAL(wp),DIMENSION(i1:i2,j1:j2,k1:k2), INTENT(inout) :: tabres !! INTEGER :: ji, jj, jk !!---------------------------------------------------------------------- DO jk=k1,k2 DO jj=j1,j2 DO ji=i1,i2 tabres(ji,jj,jk) = e1v(ji,jj) * vn(ji,jj,jk) tabres(ji,jj,jk) = tabres(ji,jj,jk) * fse3v(ji,jj,jk) END DO END DO END DO END SUBROUTINE interpv SUBROUTINE interpv2d(tabres,i1,i2,j1,j2) !!---------------------------------------------------------------------- !! *** ROUTINE interpu2d *** !!---------------------------------------------------------------------- INTEGER, INTENT(in) :: i1,i2,j1,j2 REAL(wp), DIMENSION(i1:i2,j1:j2), INTENT(inout) :: tabres !! INTEGER :: ji,jj !!---------------------------------------------------------------------- DO jj=j1,j2 DO ji=i1,i2 tabres(ji,jj) = e1v(ji,jj) * ((gcx(ji,jj+1) - gcx(ji,jj))/e2v(ji,jj)) & * vmask(ji,jj,1) END DO END DO END SUBROUTINE interpv2d #else !!---------------------------------------------------------------------- !! Empty module no AGRIF zoom !!---------------------------------------------------------------------- CONTAINS SUBROUTINE Agrif_OPA_Interp_empty WRITE(*,*) 'agrif_opa_interp : You should not have seen this print! error?' END SUBROUTINE Agrif_OPA_Interp_empty #endif !!====================================================================== END MODULE agrif_opa_interp