#include "cppdefs.h" MODULE ad_u2dbc_mod #ifdef ADJOINT ! !git $Id$ !svn $Id: ad_u2dbc_im.F 1180 2023-07-13 02:42:10Z arango $ !================================================== Hernan G. Arango === ! Copyright (c) 2002-2023 The ROMS/TOMS Group Andrew M. Moore ! ! Licensed under a MIT/X style license ! ! See License_ROMS.md ! !======================================================================= ! ! ! This subroutine sets adjoint lateral boundary conditions for ! ! vertically integrated U-velocity. It updates the specified ! ! "kout" index. ! ! ! ! BASIC STATE variables needed: zeta ! ! ! !======================================================================= ! implicit none PRIVATE PUBLIC :: ad_u2dbc, ad_u2dbc_tile CONTAINS ! !*********************************************************************** SUBROUTINE ad_u2dbc (ng, tile, kout) !*********************************************************************** ! USE mod_param USE mod_ocean USE mod_stepping ! ! Imported variable declarations. ! integer, intent(in) :: ng, tile, kout ! ! Local variable declarations. ! # include "tile.h" ! CALL ad_u2dbc_tile (ng, tile, & & LBi, UBi, LBj, UBj, & & IminS, ImaxS, JminS, JmaxS, & & krhs(ng), kstp(ng), kout, & & OCEAN(ng) % ubar, & & OCEAN(ng) % vbar, & & OCEAN(ng) % zeta, & & OCEAN(ng) % ad_ubar, & & OCEAN(ng) % ad_ubar, & & OCEAN(ng) % ad_zeta) RETURN END SUBROUTINE ad_u2dbc ! !*********************************************************************** SUBROUTINE ad_u2dbc_tile (ng, tile, & & LBi, UBi, LBj, UBj, & & IminS, ImaxS, JminS, JmaxS, & & krhs, kstp, kout, & & ubar, vbar, zeta, & & ad_ubar, ad_vbar, ad_zeta) !*********************************************************************** ! USE mod_param USE mod_boundary USE mod_clima USE mod_forces USE mod_grid USE mod_ncparam USE mod_scalars ! ! Imported variable declarations. ! integer, intent(in) :: ng, tile integer, intent(in) :: LBi, UBi, LBj, UBj integer, intent(in) :: IminS, ImaxS, JminS, JmaxS integer, intent(in) :: krhs, kstp, kout ! # ifdef ASSUMED_SHAPE real(r8), intent(in) :: ubar(LBi:,LBj:,:) real(r8), intent(in) :: vbar(LBi:,LBj:,:) real(r8), intent(in) :: zeta(LBi:,LBj:,:) real(r8), intent(inout) :: ad_ubar(LBi:,LBj:,:) real(r8), intent(inout) :: ad_vbar(LBi:,LBj:,:) real(r8), intent(inout) :: ad_zeta(LBi:,LBj:,:) # else real(r8), intent(in) :: ubar(LBi:UBi,LBj:UBj,:) real(r8), intent(in) :: vbar(LBi:UBi,LBj:UBj,:) real(r8), intent(in) :: zeta(LBi:UBi,LBj:UBj,:) real(r8), intent(inout) :: ad_ubar(LBi:UBi,LBj:UBj,:) real(r8), intent(inout) :: ad_vbar(LBi:UBi,LBj:UBj,:) real(r8), intent(inout) :: ad_zeta(LBi:UBi,LBj:UBj,:) # endif ! ! Local variable declarations. ! integer :: Imin, Imax integer :: i, j, know real(r8) :: Ce, Cx, Zx real(r8) :: bry_pgr, bry_cor, bry_str, bry_val real(r8) :: cff, cff1, cff2, cff3, dt2d real(r8) :: obc_in, obc_out, tau # if defined ATM_PRESS && defined PRESS_COMPENSATE real(r8) :: OneAtm, fac # endif real(r8) :: ad_Ce, ad_Cx real(r8) :: ad_bry_pgr, ad_bry_cor, ad_bry_str, ad_bry_val, ad_Zx real(r8) :: ad_cff, ad_cff1, ad_cff2, ad_cff3 real(r8) :: adfac real(r8), dimension(IminS:ImaxS,JminS:JmaxS) :: ad_grad # include "set_bounds.h" ! !----------------------------------------------------------------------- ! Initialize adjoint private variables. !----------------------------------------------------------------------- ! ad_Ce=0.0_r8 ad_Cx=0.0_r8 ad_Zx=0.0_r8 ad_cff=0.0_r8 ad_cff1=0.0_r8 ad_cff2=0.0_r8 ad_cff3=0.0_r8 ad_bry_pgr=0.0_r8 ad_bry_cor=0.0_r8 ad_bry_str=0.0_r8 ad_bry_val=0.0_r8 ad_grad(LBi:UBi,LBj:UBj)=0.0_r8 ! !----------------------------------------------------------------------- ! Set time-indices !----------------------------------------------------------------------- ! IF (FIRST_2D_STEP) THEN know=krhs dt2d=dtfast(ng) ELSE IF (PREDICTOR_2D_STEP(ng)) THEN know=krhs dt2d=2.0_r8*dtfast(ng) ELSE know=kstp dt2d=dtfast(ng) END IF # if defined ATM_PRESS && defined PRESS_COMPENSATE OneAtm=1013.25_r8 ! 1 atm = 1013.25 mb fac=100.0_r8/(g*rho0) # endif # if defined WET_DRY_NOT_YET ! !----------------------------------------------------------------------- ! Impose wetting and drying conditions. ! ! HGA: need ADM code here for the NLM code below. !----------------------------------------------------------------------- ! IF (.not.(EWperiodic(ng).or.NSperiodic(ng))) THEN IF (DOMAIN(ng)%NorthEast_Corner(tile)) THEN IF ((LBC_apply(ng)%north(Iend+1).and. & & LBC_apply(ng)%east (Jend+1)).or. & & (LBC(ieast,isUbar,ng)%nested.and. & & LBC(inorth,isUbar,ng)%nested)) THEN !^ cff1=ABS(ABS(GRID(ng)%umask_wet(Iend+1,Jend+1))-1.0_r8) !^ cff2=0.5_r8+DSIGN(0.5_r8,ubar(Iend+1,Jend+1,kout))* & !^ & GRID(ng)%umask_wet(Iend+1,Jend+1) !^ cff=0.5_r8*GRID(ng)%umask_wet(Iend+1,Jend+1)+cff1+ & !^ & cff2*(1.0_r8-cff1) !^ ubar(Iend+1,Jend+1,kout)=ubar(Iend+1,Jend+1,kout)*cff END IF END IF IF (DOMAIN(ng)%NorthWest_Corner(tile)) THEN IF ((LBC_apply(ng)%north(Istr ).and. & & LBC_apply(ng)%west (Jend+1)).or. & & (LBC(iwest,isUbar,ng)%nested.and. & & LBC(inorth,isUbar,ng)%nested)) THEN !^ cff1=ABS(ABS(GRID(ng)%umask_wet(Istr,Jend+1))-1.0_r8) !^ cff2=0.5_r8+DSIGN(0.5_r8,ubar(Istr,Jend+1,kout))* & !^ & GRID(ng)%umask_wet(Istr,Jend+1) !^ cff=0.5_r8*GRID(ng)%umask_wet(Istr,Jend+1)*cff1+ & !^ & cff2*(1.0_r8-cff1) !^ ubar(Istr,Jend+1,kout)=ubar(Istr,Jend+1,kout)*cff END IF END IF IF (DOMAIN(ng)%SouthEast_Corner(tile)) THEN IF ((LBC_apply(ng)%south(Iend+1).and. & & LBC_apply(ng)%east (Jstr-1)).or. & & (LBC(ieast,isUbar,ng)%nested.and. & & LBC(isouth,isUbar,ng)%nested)) THEN !^ cff1=ABS(ABS(GRID(ng)%umask_wet(Iend+1,Jstr-1))-1.0_r8) !^ cff2=0.5_r8+DSIGN(0.5_r8,ubar(Iend+1,Jstr-1,kout))* & !^ & GRID(ng)%umask_wet(Iend+1,Jstr-1) !^ cff=0.5_r8*GRID(ng)%umask_wet(Iend+1,Jstr-1)*cff1+ & !^ & cff2*(1.0_r8-cff1) !^ ubar(Iend+1,Jstr-1,kout)=ubar(Iend+1,Jstr-1,kout)*cff END IF END IF IF (DOMAIN(ng)%SouthWest_Corner(tile)) THEN IF ((LBC_apply(ng)%south(Istr ).and. & & LBC_apply(ng)%west (Jstr-1)).or. & & (LBC(iwest,isUbar,ng)%nested.and. & & LBC(isouth,isUbar,ng)%nested)) THEN !^ cff1=ABS(ABS(GRID(ng)%umask_wet(Istr,Jstr-1))-1.0_r8) !^ cff2=0.5_r8+DSIGN(0.5_r8,ubar(Istr,Jstr-1,kout))* & !^ & GRID(ng)%umask_wet(Istr,Jstr-1) !^ cff=0.5_r8*GRID(ng)%umask_wet(Istr,Jstr-1)*cff1+ & !^ & cff2*(1.0_r8-cff1) !^ ubar(Istr,Jstr-1,kout)=ubar(Istr,Jstr-1,kout)*cff END IF END IF END IF ! IF (.not.NSperiodic(ng)) THEN IF (DOMAIN(ng)%Northern_Edge(tile)) THEN DO i=Istr,Iend IF (LBC_apply(ng)%north(i).or. & & LBC(inorth,isUbar,ng)%nested) THEN !^ cff1=ABS(ABS(GRID(ng)%umask_wet(i,Jend+1))-1.0_r8) !^ cff2=0.5_r8+DSIGN(0.5_r8,ubar(i,Jend+1,kout))* & !^ & GRID(ng)%umask_wet(i,Jend+1) !^ cff=0.5_r8*GRID(ng)%umask_wet(i,Jend+1)*cff1+ & !^ & cff2*(1.0_r8-cff1) !^ ubar(i,Jend+1,kout)=ubar(i,Jend+1,kout)*cff END IF END DO END IF IF (DOMAIN(ng)%Southern_Edge(tile)) THEN DO i=IstrU,Iend IF (LBC_apply(ng)%south(i).or. & & LBC(isouth,isUbar,ng)%nested) THEN !^ cff1=ABS(ABS(GRID(ng)%umask_wet(i,Jstr-1))-1.0_r8) !^ cff2=0.5_r8+DSIGN(0.5_r8,ubar(i,Jstr-1,kout))* & !^ & GRID(ng)%umask_wet(i,Jstr-1) !^ cff=0.5_r8*GRID(ng)%umask_wet(i,Jstr-1)*cff1+ & !^ & cff2*(1.0_r8-cff1) !^ ubar(i,Jstr-1,kout)=ubar(i,Jstr-1,kout)*cff END IF END DO END IF END IF ! IF (.not.EWperiodic(ng)) THEN IF (DOMAIN(ng)%Eastern_Edge(tile)) THEN DO j=Jstr,Jend IF (LBC_apply(ng)%east(j).or. & & LBC(ieast,isUbar,ng)%nested) THEN !^ cff1=ABS(ABS(GRID(ng)%umask_wet(Iend+1,j))-1.0_r8) !^ cff2=0.5_r8+DSIGN(0.5_r8,ubar(Iend+1,j,kout))* & !^ & GRID(ng)%umask_wet(Iend+1,j) !^ cff=0.5_r8*GRID(ng)%umask_wet(Iend+1,j)*cff1+ & !^ & cff2*(1.0_r8-cff1) !^ ubar(Iend+1,j,kout)=ubar(Iend+1,j,kout)*cff END IF END DO END IF IF (DOMAIN(ng)%Western_Edge(tile)) THEN DO j=Jstr,Jend IF (LBC_apply(ng)%west(j).or. & & LBC(iwest,isUbar,ng)%nested) THEN !^ cff1=ABS(ABS(GRID(ng)%umask_wet(Istr,j))-1.0_r8) !^ cff2=0.5_r8+DSIGN(0.5_r8,ubar(Istr,j,kout))* & !^ & GRID(ng)%umask_wet(Istr,j) !^ cff=0.5_r8*GRID(ng)%umask_wet(Istr,j)*cff1+ & !^ & cff2*(1.0_r8-cff1) !^ ubar(Istr,j,kout)=ubar(Istr,j,kout)*cff END IF END DO END IF END IF # endif ! !----------------------------------------------------------------------- ! Boundary corners. !----------------------------------------------------------------------- ! IF (.not.(EWperiodic(ng).or.NSperiodic(ng))) THEN IF (DOMAIN(ng)%NorthEast_Corner(tile)) THEN IF (LBC_apply(ng)%north(Iend+1).and. & & LBC_apply(ng)%east (Jend+1)) THEN !^ tl_ubar(Iend+1,Jend+1,kout)=0.5_r8* & !^ & (tl_ubar(Iend+1,Jend ,kout)+ & !^ & tl_ubar(Iend ,Jend+1,kout)) !^ adfac=0.5_r8*ad_ubar(Iend+1,Jend+1,kout) ad_ubar(Iend+1,Jend ,kout)=ad_ubar(Iend+1,Jend ,kout)+ & & adfac ad_ubar(Iend ,Jend+1,kout)=ad_ubar(Iend ,Jend+1,kout)+ & & adfac ad_ubar(Iend+1,Jend+1,kout)=0.0_r8 END IF END IF IF (DOMAIN(ng)%NorthWest_Corner(tile)) THEN IF (LBC_apply(ng)%north(Istr ).and. & & LBC_apply(ng)%west (Jend+1)) THEN !^ tl_ubar(Istr,Jend+1,kout)=0.5_r8* & !^ & (tl_ubar(Istr ,Jend ,kout)+ & !^ & tl_ubar(Istr+1,Jend+1,kout)) !^ adfac=0.5_r8*ad_ubar(Istr,Jend+1,kout) ad_ubar(Istr ,Jend ,kout)=ad_ubar(Istr ,Jend ,kout)+ & & adfac ad_ubar(Istr+1,Jend+1,kout)=ad_ubar(Istr+1,Jend+1,kout)+ & & adfac ad_ubar(Istr ,Jend+1,kout)=0.0_r8 END IF END IF IF (DOMAIN(ng)%SouthEast_Corner(tile)) THEN IF (LBC_apply(ng)%south(Iend+1).and. & & LBC_apply(ng)%east (Jstr-1)) THEN !^ tl_ubar(Iend+1,Jstr-1,kout)=0.5_r8* & !^ & (tl_ubar(Iend ,Jstr-1,kout)+ & !^ & tl_ubar(Iend+1,Jstr ,kout)) !^ adfac=0.5_r8*ad_ubar(Iend+1,Jstr-1,kout) ad_ubar(Iend ,Jstr-1,kout)=ad_ubar(Iend ,Jstr-1,kout)+ & & adfac ad_ubar(Iend+1,Jstr ,kout)=ad_ubar(Iend+1,Jstr ,kout)+ & & adfac ad_ubar(Iend+1,Jstr-1,kout)=0.0_r8 END IF END IF IF (DOMAIN(ng)%SouthWest_Corner(tile)) THEN IF (LBC_apply(ng)%south(Istr ).and. & & LBC_apply(ng)%west (Jstr-1)) THEN !^ ubar(Istr,Jstr-1,kout)=0.5_r8* & !^ & (ubar(Istr+1,Jstr-1,kout)+ & !^ & ubar(Istr ,Jstr ,kout)) !^ adfac=0.5_r8*ad_ubar(Istr,Jstr-1,kout) ad_ubar(Istr+1,Jstr-1,kout)=ad_ubar(Istr+1,Jstr-1,kout)+ & & adfac ad_ubar(Istr ,Jstr ,kout)=ad_ubar(Istr ,Jstr ,kout)+ & & adfac ad_ubar(Istr ,Jstr-1,kout)=0.0_r8 END IF END IF END IF ! !----------------------------------------------------------------------- ! Lateral boundary conditions at the northern edge. !----------------------------------------------------------------------- ! IF (DOMAIN(ng)%Northern_Edge(tile)) THEN ! ! Northern edge, implicit upstream radiation condition. ! IF (ad_LBC(inorth,isUbar,ng)%radiation) THEN IF (iic(ng).ne.0) THEN DO i=IstrU,Iend IF (LBC_apply(ng)%north(i)) THEN # if defined CELERITY_READ && defined FORWARD_READ IF (ad_LBC(inorth,isUbar,ng)%nudging) THEN IF (LnudgeM2CLM(ng)) THEN obc_out=0.5_r8* & & (CLIMA(ng)%M2nudgcof(i-1,Jend+1)+ & & CLIMA(ng)%M2nudgcof(i ,Jend+1)) obc_in =obcfac(ng)*obc_out ELSE obc_out=M2obc_out(ng,inorth) obc_in =M2obc_in (ng,inorth) END IF IF (BOUNDARY(ng)%ubar_north_Ce(i).lt.0.0_r8) THEN tau=obc_in ELSE tau=obc_out END IF tau=tau*dt2d END IF # ifdef RADIATION_2D Cx=BOUNDARY(ng)%ubar_north_Cx(i) # else Cx=0.0_r8 # endif Ce=BOUNDARY(ng)%ubar_north_Ce(i) cff=BOUNDARY(ng)%ubar_north_C2(i) # endif # ifdef MASKING !^ tl_ubar(i,Jend+1,kout)=tl_ubar(i,Jend+1,kout)* & !^ & GRID(ng)%umask(i,Jend+1) !^ ad_ubar(i,Jend+1,kout)=ad_ubar(i,Jend+1,kout)* & & GRID(ng)%umask(i,Jend+1) # endif IF (ad_LBC(inorth,isUbar,ng)%nudging) THEN !^ tl_ubar(i,Jend+1,kout)=tl_ubar(i,Jend+1,kout)- & !^ & tau*tl_ubar(i,Jend+1,know) !^ ad_ubar(i,Jend+1 ,know)=ad_ubar(i,Jend+1 ,know)- & & tau*ad_ubar(i,Jend+1,kout) END IF !^ tl_ubar(i,Jend+1,kout)=(cff*tl_ubar(i,Jend+1,know)+ & !^ & Ce *tl_ubar(i,Jend ,kout)- & !^ & MAX(Cx,0.0_r8)* & !^ & tl_grad(i-1,Jend+1)- & !^ & MIN(Cx,0.0_r8)* & !^ & tl_grad(i ,Jend+1))/ & !^ & (cff+Ce) !^ adfac=ad_ubar(i,Jend+1,kout)/(cff+Ce) ad_grad(i-1,Jend+1)=ad_grad(i-1,Jend+1)- & & MAX(Cx,0.0_r8)*adfac ad_grad(i ,Jend+1)=ad_grad(i ,Jend+1)- & & MIN(Cx,0.0_r8)*adfac ad_ubar(i,Jend ,kout)=ad_ubar(i,Jend ,kout)+Ce *adfac ad_ubar(i,Jend+1,know)=ad_ubar(i,Jend+1,know)+cff*adfac ad_ubar(i,Jend+1,kout)=0.0_r8 END IF END DO END IF ! ! Northern edge, Chapman boundary condition. ! ELSE IF (ad_LBC(inorth,isUbar,ng)%Flather.or. & & ad_LBC(inorth,isUbar,ng)%Shchepetkin.or. & & ad_LBC(inorth,isUbar,ng)%reduced) THEN DO i=IstrU,Iend IF (LBC_apply(ng)%north(i)) THEN cff=dt2d*0.5_r8*(GRID(ng)%pn(i-1,Jend)+ & & GRID(ng)%pn(i ,Jend)) cff1=SQRT(g*0.5_r8*(GRID(ng)%h(i-1,Jend)+ & & zeta(i-1,Jend,know)+ & & GRID(ng)%h(i ,Jend)+ & & zeta(i ,Jend,know))) Ce=cff*cff1 cff2=1.0_r8/(1.0_r8+Ce) # ifdef MASKING !^ tl_ubar(i,Jend+1,kout)=tl_ubar(i,Jend+1,kout)* & !^ & GRID(ng)%umask(i,Jend+1) !^ ad_ubar(i,Jend+1,kout)=ad_ubar(i,Jend+1,kout)* & & GRID(ng)%umask(i,Jend+1) # endif !^ tl_ubar(i,Jend+1,kout)=tl_cff2*(ubar(i,Jend+1,know)+ & !^ & Ce*ubar(i,Jend,kout))+ & !^ & cff2*(tl_ubar(i,Jend+1,know)+ & !^ & tl_Ce*ubar(i,Jend,kout)+ & !^ & Ce*tl_ubar(i,Jend,kout)) !^ adfac=cff2*ad_ubar(i,Jend+1,kout) ad_ubar(i,Jend ,kout)=ad_ubar(i,Jend ,kout)+Ce*adfac ad_ubar(i,Jend+1,know)=ad_ubar(i,Jend+1,know)+adfac ad_Ce=ad_Ce+ubar(i,Jend,kout)*adfac ad_cff2=ad_cff2+ & & (ubar(i,Jend+1,know)+ & & Ce*ubar(i,Jend,kout))*ad_ubar(i,Jend+1,kout) ad_ubar(i,Jend+1,kout)=0.0_r8 !^ tl_cff2=-cff2*cff2*tl_Ce !^ ad_Ce=ad_Ce-cff2*cff2*ad_cff2 ad_cff2=0.0_r8 !^ tl_Ce=cff*tl_cff1 !^ ad_cff1=ad_cff1+cff*ad_Ce ad_Ce=0.0_r8 !^ tl_cff1=0.25_r8*g*(GRID(ng)%tl_h(i-1,Jend)+ & !^ & tl_zeta(i-1,Jend,know)+ & !^ & GRID(ng)%tl_h(i ,Jend)+ & !^ & tl_zeta(i ,Jend,know))/cff1 !^ adfac=0.25_r8*g*ad_cff1/cff1 GRID(ng)%ad_h(i-1,Jend)=GRID(ng)%ad_h(i-1,Jend)+adfac GRID(ng)%ad_h(i ,Jend)=GRID(ng)%ad_h(i ,Jend)+adfac ad_zeta(i-1,Jend,know)=ad_zeta(i-1,Jend,know)+adfac ad_zeta(i ,Jend,know)=ad_zeta(i ,Jend,know)+adfac ad_cff1=0.0_r8 END IF END DO ! ! Northern edge, clamped boundary condition. ! ELSE IF (ad_LBC(inorth,isUbar,ng)%clamped) THEN DO i=IstrU,Iend IF (LBC_apply(ng)%north(i)) THEN # ifdef MASKING !^ tl_ubar(i,Jend+1,kout)=tl_ubar(i,Jend+1,kout)* & !^ & GRID(ng)%umask(i,Jend+1) !^ ad_ubar(i,Jend+1,kout)=ad_ubar(i,Jend+1,kout)* & & GRID(ng)%umask(i,Jend+1) # endif # ifdef ADJUST_BOUNDARY IF (Lobc(inorth,isUbar,ng)) THEN !^ tl_ubar(i,Jend+1,kout)=BOUNDARY(ng)%tl_ubar_north(i) !^ BOUNDARY(ng)%ad_ubar_north(i)=BOUNDARY(ng)% & & ad_ubar_north(i)+ & & ad_ubar(i,Jend+1,kout) ad_ubar(i,Jend+1,kout)=0.0_r8 ELSE !^ tl_ubar(i,Jend+1,kout)=0.0_r8 !^ ad_ubar(i,Jend+1,kout)=0.0_r8 END IF # else !^ tl_ubar(i,Jend+1,kout)=0.0_r8 !^ ad_ubar(i,Jend+1,kout)=0.0_r8 # endif END IF END DO ! ! Northern edge, gradient boundary condition. ! ELSE IF (ad_LBC(inorth,isUbar,ng)%gradient) THEN DO i=IstrU,Iend IF (LBC_apply(ng)%north(i)) THEN # ifdef MASKING !^ tl_ubar(i,Jend+1,kout)=tl_ubar(i,Jend+1,kout)* & !^ & GRID(ng)%umask(i,Jend+1) !^ ad_ubar(i,Jend+1,kout)=ad_ubar(i,Jend+1,kout)* & & GRID(ng)%umask(i,Jend+1) # endif !^ tl_ubar(i,Jend+1,kout)=tl_ubar(i,Jend,kout) !^ ad_ubar(i,Jend,kout)=ad_ubar(i,Jend,kout)+ & & ad_ubar(i,Jend+1,kout) ad_ubar(i,Jend+1,kout)=0.0_r8 END IF END DO ! ! Northern edge, closed boundary condition: free slip (gamma2=1) or ! no slip (gamma2=-1). ! ELSE IF (ad_LBC(inorth,isUbar,ng)%closed) THEN IF (EWperiodic(ng)) THEN Imin=IstrU Imax=Iend ELSE Imin=Istr Imax=IendR END IF DO i=Imin,Imax IF (LBC_apply(ng)%north(i)) THEN # ifdef MASKING !^ tl_ubar(i,Jend+1,kout)=tl_ubar(i,Jend+1,kout)* & !^ & GRID(ng)%umask(i,Jend+1) !^ ad_ubar(i,Jend+1,kout)=ad_ubar(i,Jend+1,kout)* & & GRID(ng)%umask(i,Jend+1) # endif !^ tl_ubar(i,Jend+1,kout)=gamma2(ng)*tl_ubar(i,Jend,kout) !^ ad_ubar(i,Jend ,kout)=ad_ubar(i,Jend,kout)+ & & gamma2(ng)*ad_ubar(i,Jend+1,kout) ad_ubar(i,Jend+1,kout)=0.0_r8 END IF END DO END IF END IF ! !----------------------------------------------------------------------- ! Lateral boundary conditions at the southern edge. !----------------------------------------------------------------------- ! IF (DOMAIN(ng)%Southern_Edge(tile)) THEN ! ! Southern edge, implicit upstream radiation condition. ! IF (ad_LBC(isouth,isUbar,ng)%radiation) THEN IF (iic(ng).ne.0) THEN DO i=IstrU,Iend IF (LBC_apply(ng)%south(i)) THEN # if defined CELERITY_READ && defined FORWARD_READ IF (ad_LBC(isouth,isUbar,ng)%nudging) THEN IF (LnudgeM2CLM(ng)) THEN obc_out=0.5_r8* & & (CLIMA(ng)%M2nudgcof(i-1,Jstr-1)+ & & CLIMA(ng)%M2nudgcof(i ,Jstr-1)) obc_in =obcfac(ng)*obc_out ELSE obc_out=M2obc_out(ng,isouth) obc_in =M2obc_in (ng,isouth) END IF IF (BOUNDARY(ng)%ubar_south_Ce(i).lt.0.0_r8) THEN tau=obc_in ELSE tau=obc_out END IF tau=tau*dt2d END IF # ifdef RADIATION_2D Cx=BOUNDARY(ng)%ubar_south_Cx(i) # else Cx=0.0_r8 # endif Ce=BOUNDARY(ng)%ubar_south_Ce(i) cff=BOUNDARY(ng)%ubar_south_C2(i) # endif # ifdef MASKING !^ tl_ubar(i,Jstr-1,kout)=tl_ubar(i,Jstr-1,kout)* & !^ & GRID(ng)%umask(i,Jstr-1) !^ ad_ubar(i,Jstr-1,kout)=ad_ubar(i,Jstr-1,kout)* & & GRID(ng)%umask(i,Jstr-1) # endif IF (ad_LBC(isouth,isUbar,ng)%nudging) THEN !^ tl_ubar(i,Jstr-1,kout)=tl_ubar(i,Jstr-1,kout)- & !^ & tau*tl_ubar(i,Jstr-1,know) !^ ad_ubar(i,Jstr-1,know)=ad_ubar(i,Jstr-1,know)- & & tau*ad_ubar(i,Jstr-1,kout) END IF !^ tl_ubar(i,Jstr-1,kout)=(cff*tl_ubar(i,Jstr-1,know)+ & !^ & Ce *tl_ubar(i,Jstr ,kout)- & !^ & MAX(Cx,0.0_r8)* & !^ & tl_grad(i-1,Jstr-1)- & !^ & MIN(Cx,0.0_r8)* & !^ & tl_grad(i ,Jstr-1))/ & !^ & (cff+Ce) !^ adfac=ad_ubar(i,Jstr-1,kout)/(cff+Ce) ad_grad(i-1,Jstr-1)=ad_grad(i-1,Jstr-1)- & & MAX(Cx,0.0_r8)*adfac ad_grad(i ,Jstr-1)=ad_grad(i ,Jstr-1)- & & MIN(Cx,0.0_r8)*adfac ad_ubar(i,Jstr-1,know)=ad_ubar(i,Jstr-1,know)+cff*adfac ad_ubar(i,Jstr ,kout)=ad_ubar(i,Jstr ,kout)+Ce *adfac ad_ubar(i,Jstr-1,kout)=0.0_r8 END IF END DO END IF ! ! Southern edge, Chapman boundary condition. ! ELSE IF (ad_LBC(isouth,isUbar,ng)%Flather.or. & & ad_LBC(isouth,isUbar,ng)%Shchepetkin.or. & & ad_LBC(isouth,isUbar,ng)%reduced) THEN DO i=IstrU,Iend IF (LBC_apply(ng)%south(i)) THEN cff=dt2d*0.5_r8*(GRID(ng)%pn(i-1,Jstr)+ & & GRID(ng)%pn(i ,Jstr)) cff1=SQRT(g*0.5_r8*(GRID(ng)%h(i-1,Jstr)+ & & zeta(i-1,Jstr,know)+ & & GRID(ng)%h(i ,Jstr)+ & & zeta(i ,Jstr,know))) Ce=cff*cff1 cff2=1.0_r8/(1.0_r8+Ce) # ifdef MASKING !^ tl_ubar(i,Jstr-1,kout)=tl_ubar(i,Jstr-1,kout)* & !^ & GRID(ng)%umask(i,Jstr-1) !^ ad_ubar(i,Jstr-1,kout)=ad_ubar(i,Jstr-1,kout)* & & GRID(ng)%umask(i,Jstr-1) # endif !^ tl_ubar(i,Jstr-1,kout)=tl_cff2*(ubar(i,Jstr-1,know)+ & !^ & Ce*ubar(i,Jstr,kout))+ & !^ & cff2*(tl_ubar(i,Jstr-1,know)+ & !^ & tl_Ce*ubar(i,Jstr,kout)+ & !^ & Ce*tl_ubar(i,Jstr,kout)) !^ adfac=cff2*ad_ubar(i,Jstr-1,kout) ad_ubar(i,Jstr-1,know)=ad_ubar(i,Jstr-1,know)+adfac ad_ubar(i,Jstr ,kout)=ad_ubar(i,Jstr ,kout)+Ce*adfac ad_Ce=ad_Ce+ubar(i,Jstr,kout)*adfac ad_cff2=ad_cff2+ & & (ubar(i,Jstr-1,know)+ & & Ce*ubar(i,Jstr,kout))*ad_ubar(i,Jstr-1,kout) ad_ubar(i,Jstr-1,kout)=0.0_r8 !^ tl_cff2=-cff2*cff2*tl_Ce !^ ad_Ce=ad_Ce-cff2*cff2*ad_cff2 ad_cff2=0.0_r8 !^ tl_Ce=cff*tl_cff1 !^ ad_cff1=ad_cff1+cff*ad_Ce ad_Ce=0.0_r8 !^ tl_cff1=0.25_r8*g*(GRID(ng)%tl_h(i-1,Jstr)+ & !^ & tl_zeta(i-1,Jstr,know)+ & !^ & GRID(ng)%tl_h(i ,Jstr)+ & !^ & tl_zeta(i ,Jstr,know))/cff1 !^ adfac=0.25_r8*g*ad_cff1/cff1 GRID(ng)%ad_h(i-1,Jstr)=GRID(ng)%ad_h(i-1,Jstr)+adfac GRID(ng)%ad_h(i ,Jstr)=GRID(ng)%ad_h(i ,Jstr)+adfac ad_zeta(i-1,Jstr,know)=ad_zeta(i-1,Jstr,know)+adfac ad_zeta(i ,Jstr,know)=ad_zeta(i ,Jstr,know)+adfac ad_cff1=0.0_r8 END IF END DO ! ! Southern edge, clamped boundary condition. ! ELSE IF (ad_LBC(isouth,isUbar,ng)%clamped) THEN DO i=IstrU,Iend IF (LBC_apply(ng)%south(i)) THEN # ifdef MASKING !^ tl_ubar(i,Jstr-1,kout)=tl_ubar(i,Jstr-1,kout)* & !^ & GRID(ng)%umask(i,Jstr-1) !^ ad_ubar(i,Jstr-1,kout)=ad_ubar(i,Jstr-1,kout)* & & GRID(ng)%umask(i,Jstr-1) # endif # ifdef ADJUST_BOUNDARY IF (Lobc(isouth,isUbar,ng)) THEN !^ tl_ubar(i,Jstr-1,kout)=BOUNDARY(ng)%tl_ubar_south(i) !^ BOUNDARY(ng)%ad_ubar_south(i)=BOUNDARY(ng)% & & ad_ubar_south(i)+ & & ad_ubar(i,Jstr-1,kout) ad_ubar(i,Jstr-1,kout)=0.0_r8 ELSE !^ tl_ubar(i,Jstr-1,kout)=0.0_r8 !^ ad_ubar(i,Jstr-1,kout)=0.0_r8 END IF # else !^ tl_ubar(i,Jstr-1,kout)=0.0_r8 !^ ad_ubar(i,Jstr-1,kout)=0.0_r8 # endif END IF END DO ! ! Southern edge, gradient boundary condition. ! ELSE IF (ad_LBC(isouth,isUbar,ng)%gradient) THEN DO i=IstrU,Iend IF (LBC_apply(ng)%south(i)) THEN # ifdef MASKING !^ tl_ubar(i,Jstr-1,kout)=tl_ubar(i,Jstr-1,kout)* & !^ & GRID(ng)%umask(i,Jstr-1) !^ ad_ubar(i,Jstr-1,kout)=ad_ubar(i,Jstr-1,kout)* & & GRID(ng)%umask(i,Jstr-1) # endif !^ tl_ubar(i,Jstr-1,kout)=tl_ubar(i,Jstr,kout) !^ ad_ubar(i,Jstr ,kout)=ad_ubar(i,Jstr ,kout)+ & & ad_ubar(i,Jstr-1,kout) ad_ubar(i,Jstr-1,kout)=0.0_r8 END IF END DO ! ! Southern edge, closed boundary condition: free slip (gamma2=1) or ! no slip (gamma2=-1). ! ELSE IF (ad_LBC(isouth,isUbar,ng)%closed) THEN IF (EWperiodic(ng)) THEN Imin=IstrU Imax=Iend ELSE Imin=Istr Imax=IendR END IF DO i=Imin,Imax IF (LBC_apply(ng)%south(i)) THEN # ifdef MASKING !^ tl_ubar(i,Jstr-1,kout)=tl_ubar(i,Jstr-1,kout)* & !^ & GRID(ng)%umask(i,Jstr-1) !^ ad_ubar(i,Jstr-1,kout)=ad_ubar(i,Jstr-1,kout)* & & GRID(ng)%umask(i,Jstr-1) # endif !^ tl_ubar(i,Jstr-1,kout)=gamma2(ng)*tl_ubar(i,Jstr,kout) !^ ad_ubar(i,Jstr ,kout)=ad_ubar(i,Jstr,kout)+ & & gamma2(ng)*ad_ubar(i,Jstr-1,kout) ad_ubar(i,Jstr-1,kout)=0.0_r8 END IF END DO END IF END IF ! !----------------------------------------------------------------------- ! Lateral boundary conditions at the eastern edge. !----------------------------------------------------------------------- ! IF (DOMAIN(ng)%Eastern_Edge(tile)) THEN ! ! Eastern edge, implicit upstream radiation condition. ! IF (ad_LBC(ieast,isUbar,ng)%radiation) THEN IF (iic(ng).ne.0) THEN DO j=Jstr,Jend IF (LBC_apply(ng)%east(j)) THEN # if defined CELERITY_READ && defined FORWARD_READ IF (ad_LBC(ieast,isUbar,ng)%nudging) THEN IF (LnudgeM2CLM(ng)) THEN obc_out=0.5_r8* & & (CLIMA(ng)%M2nudgcof(Iend ,j)+ & & CLIMA(ng)%M2nudgcof(Iend+1,j)) obc_in =obcfac(ng)*obc_out ELSE obc_out=M2obc_out(ng,ieast) obc_in =M2obc_in (ng,ieast) END IF IF (BOUNDARY(ng)%ubar_east_Cx(j).lt.0.0_r8) THEN tau=obc_in ELSE tau=obc_out END IF tau=tau*dt2d END IF Cx=BOUNDARY(ng)%ubar_east_Cx(j) # ifdef RADIATION_2D Ce=BOUNDARY(ng)%ubar_east_Ce(j) # else Ce=0.0_r8 # endif cff=BOUNDARY(ng)%ubar_east_C2(j) # endif # ifdef MASKING !^ tl_ubar(Iend+1,j,kout)=tl_ubar(Iend+1,j,kout)* & !^ & GRID(ng)%umask(Iend+1,j) !^ ad_ubar(Iend+1,j,kout)=ad_ubar(Iend+1,j,kout)* & & GRID(ng)%umask(Iend+1,j) # endif IF (ad_LBC(ieast,isUbar,ng)%nudging) THEN !^ tl_ubar(Iend+1,j,kout)=tl_ubar(Iend+1,j,kout)- & !^ & tau*tl_ubar(Iend+1,j,know) !^ ad_ubar(Iend+1,j,know)=ad_ubar(Iend+1,j,know)- & & tau*ad_ubar(Iend+1,j,kout) END IF !^ tl_ubar(Iend+1,j,kout)=(cff*tl_ubar(Iend+1,j,know)+ & !^ & Cx *tl_ubar(Iend ,j,kout)- & !^ & MAX(Ce,0.0_r8)* & !^ & tl_grad(Iend+1,j )- & !^ & MIN(Ce,0.0_r8)* & !^ & tl_grad(Iend+1,j+1))/ & !^ & (cff+Cx) !^ adfac=ad_ubar(Iend+1,j,kout)/(cff+Cx) ad_grad(Iend+1,j )=ad_grad(Iend+1,j )- & & MAX(Ce,0.0_r8)*adfac ad_grad(Iend+1,j+1)=ad_grad(Iend+1,j+1)- & & MIN(Ce,0.0_r8)*adfac ad_ubar(Iend ,j,kout)=ad_ubar(Iend ,j,kout)+Cx *adfac ad_ubar(Iend+1,j,know)=ad_ubar(Iend+1,j,know)+cff*adfac ad_ubar(Iend+1,j,kout)=0.0_r8 END IF END DO END IF ! ! Eastern edge, Flather boundary condition. ! ELSE IF (ad_LBC(ieast,isUbar,ng)%Flather) THEN DO j=Jstr,Jend IF (LBC_apply(ng)%east(j)) THEN cff=1.0_r8/(0.5_r8*(GRID(ng)%h(Iend ,j)+ & & zeta(Iend ,j,know)+ & & GRID(ng)%h(Iend+1,j)+ & & zeta(Iend+1,j,know))) Cx=SQRT(g*cff) # ifdef MASKING !^ tl_ubar(Iend+1,j,kout)=tl_ubar(Iend+1,j,kout)* & !^ & GRID(ng)%umask(Iend+1,j) !^ ad_ubar(Iend+1,j,kout)=ad_ubar(Iend+1,j,kout)* & & GRID(ng)%umask(Iend+1,j) # endif # ifdef ADJUST_BOUNDARY IF (Lobc(ieast,isUbar,ng)) THEN !^ tl_ubar(Iend+1,j,kout)=tl_ubar(Iend+1,j,kout)- & !^ & Cx*BOUNDARY(ng)%tl_zeta_east(j) !^ BOUNDARY(ng)%ad_zeta_east(j)= & & BOUNDARY(ng)%ad_zeta_east(j)- & & Cx*ad_ubar(Iend+1,j,kout) END IF # endif # if defined ATM_PRESS && defined PRESS_COMPENSATE !^ tl_ubar(Iend+1,j,kout)=tl_bry_val+ & !^ & tl_Cx* & !^ & (0.5_r8* & !^ & (zeta(Iend ,j,know)+ & !^ & zeta(Iend+1,j,know)+ & !^ & fac*(FORCES(ng)%Pair(Iend ,j)+ & !^ & FORCES(ng)%Pair(Iend+1,j)- & !^ & 2.0_r8*OneAtm))- & !^ & BOUNDARY(ng)%zeta_east(j))+ & !^ & Cx* & !^ & (0.5_r8*(tl_zeta(Iend ,j,know)+ & !^ & tl_zeta(Iend+1,j,know))) !^ adfac=Cx*0.5_r8*ad_ubar(Iend+1,j,kout) ad_zeta(Iend ,j,know)=ad_zeta(Iend ,j,know)+adfac ad_zeta(Iend+1,j,know)=ad_zeta(Iend+1,j,know)+adfac ad_Cx=ad_Cx+ & & (0.5_r8*(zeta(Iend ,j,know)+ & & zeta(Iend+1,j,know)+ & & fac*(FORCES(ng)%Pair(Iend ,j)+ & & FORCES(ng)%Pair(Iend+1,j)- & & 2.0_r8*OneAtm))- & & BOUNDARY(ng)%zeta_east(j))*ad_ubar(Iend+1,j,kout) ad_bry_val=ad_bry_val+ad_ubar(Iend+1,j,kout) ad_ubar(Iend+1,j,kout)=0.0_r8 # else !^ tl_ubar(Iend+1,j,kout)=tl_bry_val+ & !^ & tl_Cx* & !^ & (0.5_r8*(zeta(Iend ,j,know)+ & !^ & zeta(Iend+1,j,know))- & !^ & BOUNDARY(ng)%zeta_east(j))+ & !^ & Cx* & !^ (0.5_r8*(tl_zeta(Iend ,j,know)+ & !^ & tl_zeta(Iend+1,j,know))) !^ adfac=Cx*0.5_r8*ad_ubar(Iend+1,j,kout) ad_zeta(Iend ,j,know)=ad_zeta(Iend ,j,know)+adfac ad_zeta(Iend+1,j,know)=ad_zeta(Iend+1,j,know)+adfac ad_Cx=ad_Cx+ & & (0.5_r8*(zeta(Iend ,j,know)+ & & zeta(Iend+1,j,know))- & & BOUNDARY(ng)%zeta_east(j))*ad_ubar(Iend+1,j,kout) ad_bry_val=ad_bry_val+ad_ubar(Iend+1,j,kout) ad_ubar(Iend+1,j,kout)=0.0_r8 # endif !^ tl_Cx=0.5_r8*g*tl_cff/Cx !^ ad_cff=ad_cff+0.5_r8*g*ad_Cx/Cx ad_Cx=0.0_r8 !^ tl_cff=-cff*cff*(0.5_r8*(GRID(ng)%tl_h(Iend ,j)+ & !^ & tl_zeta(Iend ,j,know)+ & !^ & GRID(ng)%tl_h(Iend+1,j)+ & !^ & tl_zeta(Iend+1,j,know))) !^ adfac=-cff*cff*0.5_r8*ad_cff GRID(ng)%ad_h(Iend ,j)=GRID(ng)%ad_h(Iend ,j)+adfac GRID(ng)%ad_h(Iend+1,j)=GRID(ng)%ad_h(Iend+1,j)+adfac ad_zeta(Iend ,j,know)=ad_zeta(Iend ,j,know)+adfac ad_zeta(Iend+1,j,know)=ad_zeta(Iend+1,j,know)+adfac ad_cff=0.0_r8 # if defined SSH_TIDES_NOT_YET && !defined UV_TIDES_NOT_YET IF (ad_LBC(ieast,isFsur,ng)%acquire) THEN bry_pgr=-g*(BOUNDARY(ng)%zeta_east(j)- & & zeta(Iend,j,know))* & & 0.5_r8*GRID(ng)%pm(Iend,j) ELSE bry_pgr=-g*(zeta(Iend+1,j,know)- & & zeta(Iend ,j,know))* & & 0.5_r8*(GRID(ng)%pm(Iend ,j)+ & & GRID(ng)%pm(Iend+1,j)) END IF # ifdef UV_COR bry_cor=0.125_r8*(vbar(Iend ,j ,know)+ & & vbar(Iend ,j+1,know)+ & & vbar(Iend+1,j ,know)+ & & vbar(Iend+1,j+1,know))* & & (GRID(ng)%f(Iend ,j)+ & & GRID(ng)%f(Iend+1,j)) # else bry_cor=0.0_r8 # endif cff1=1.0_r8/(0.5_r8*(GRID(ng)%h(Iend ,j)+ & & zeta(Iend ,j,know)+ & & GRID(ng)%h(Iend+1,j)+ & & zeta(Iend+1,j,know))) bry_str=cff1*(FORCES(ng)%sustr(Iend+1,j)- & & FORCES(ng)%bustr(Iend+1,j)) Cx=1.0_r8/SQRT(g*0.5_r8*(GRID(ng)%h(Iend+1,j)+ & & zeta(Iend+1,j,know)+ & & GRID(ng)%h(Iend ,j)+ & & zeta(Iend ,j,know))) cff2=GRID(ng)%om_u(Iend+1,j)*Cx !^ tl_bry_val=tl_ubar(Iend,j,know)+ & !^ & tl_cff2*(bry_pgr+ & !^ & bry_cor+ & !^ & bry_str)+ & !^ & cff2*(tl_bry_pgr+ & !^ & tl_bry_cor+ & !^ & tl_bry_str) !^ adfac=cff2*ad_bry_val ad_bry_pgr=ad_bry_pgr+adfac ad_bry_cor=ad_bry_cor+adfac ad_bry_str=ad_bry_str+adfac ad_cff2=ad_cff2+(bry_pgr+ & & bry_cor+ & & bry_str)*ad_bry_val ad_ubar(Iend,j,know)=ad_ubar(Iend,j,know)+ad_bry_val ad_bry_val=0.0_r8 !^ tl_cff2=GRID(ng)%om_u(Iend+1,j)*tl_Cx !^ ad_Cx=ad_Cx+GRID(ng)%om_u(Iend+1,j)*ad_cff2 ad_cff2=0.0_r8 !^ tl_Cx=-Cx*Cx*Cx*0.25_r8*g*(GRID(ng)%tl_h(Iend+1,j)+ & !^ & tl_zeta(Iend+1,j,know)+ & !^ & GRID(ng)%tl_h(Iend ,j)+ & !^ & tl_zeta(Iend ,j,know)) !^ adfac=-Cx*Cx*Cx*0.25_r8*g*ad_Cx ad_zeta(Iend ,j,know)=ad_zeta(Iend ,j,know)+adfac ad_zeta(Iend+1,j,know)=ad_zeta(Iend+1,j,know)+adfac GRID(ng)%ad_h(Iend ,j)=GRID(ng)%ad_h(Iend ,j)+adfac GRID(ng)%ad_h(Iend+1,j)=GRID(ng)%ad_h(Iend+1,j)+adfac ad_Cx=0.0_r8 !^ tl_bry_str=tl_cff1*(FORCES(ng)%sustr(Iend+1,j)- & !^ & FORCES(ng)%bustr(Iend+1,j))+ & !^ & cff1*(FORCES(ng)%tl_sustr(Iend+1,j)- & !^ & FORCES(ng)%tl_bustr(Iend+1,j)) !^ adfac=cff1*ad_bry_str FORCES(ng)%ad_sustr(Iend+1,j)= & & FORCES(ng)%ad_sustr(Iend+1,j)+ & & adfac FORCES(ng)%tl_bustr(Iend+1,j)= & & FORCES(ng)%tl_bustr(Iend+1,j)- & & adfac ad_cff1=ad_cff1+(FORCES(ng)%sustr(Iend+1,j)- & & FORCES(ng)%bustr(Iend+1,j))*ad_bry_str ad_bry_str=0.0_r8 !^ tl_cff1=-cff1*cff1*0.5_r8*(GRID(ng)%tl_h(Iend ,j)+ & !^ & tl_zeta(Iend ,j,know)+ & !^ & GRID(ng)%tl_h(Iend+1,j)+ & !^ & tl_zeta(Iend+1,j,know)) !^ adfac=-cff1*cff1*0.5_r8*ad_cff1 ad_zeta(Iend ,j,know)=ad_zeta(Iend ,j,know)+adfac ad_zeta(Iend+1,j,know)=ad_zeta(Iend+1,j,know)+adfac GRID(ng)%ad_h(Iend ,j)=GRID(ng)%ad_h(Iend ,j)+adfac GRID(ng)%ad_h(Iend+1,j)=GRID(ng)%ad_h(Iend+1,j)+adfac ad_cff1=0.0_r8 # ifdef UV_COR !^ tl_bry_cor=0.125_r8*(tl_vbar(Iend ,j ,know)+ & !^ & tl_vbar(Iend ,j+1,know)+ & !^ & tl_vbar(Iend+1,j ,know)+ & !^ & tl_vbar(Iend+1,j+1,know))* & !^ & (GRID(ng)%f(Iend ,j)+ & !^ & GRID(ng)%f(Iend+1,j)) !^ adfac=0.125_r8*(GRID(ng)%f(Iend ,j)+ & & GRID(ng)%f(Iend+1,j))*ad_bry_cor ad_vbar(Iend ,j ,know)=ad_vbar(Iend ,j ,know)+adfac ad_vbar(Iend+1,j ,know)=ad_vbar(Iend+1,j ,know)+adfac ad_vbar(Iend ,j+1,know)=ad_vbar(Iend ,j+1,know)+adfac ad_vbar(Iend+1,j+1,know)=ad_vbar(Iend+1,j+1,know)+adfac ad_bry_cor=0.0_r8 # else !^ tl_bry_cor=0.0_r8 !^ ad_bry_cor=0.0_r8 # endif IF (ad_LBC(ieast,isFsur,ng)%acquire) THEN # ifdef ADJUST_BOUNDARY IF (Lobc(ieast,isUbar,ng)) THEN !^ tl_bry_pgr=tl_bry_pgr- & !^ & g*BOUNDARY(ng)%tl_zeta_east(j)* & !^ & 0.5_r8*GRID(ng)%pm(Iend,j) !^ BOUNDARY(ng)%ad_zeta_east(j)=BOUNDARY(ng)% & & ad_zeta_east(j)- & & g*0.5_r8* & & GRID(ng)%pm(Iend,j)* & & ad_bry_pgr END IF # endif !^ tl_bry_pgr=g*tl_zeta(Iend,j,know)* & !^ & 0.5_r8*GRID(ng)%pm(Iend,j) !^ ad_zeta(Iend,j,know)=ad_zeta(Iend,j,know)+ & & g*0.5_r8*GRID(ng)%pm(Iend,j)* & & ad_bry_pgr ad_bry_pgr=0.0_r8 ELSE !^ tl_bry_pgr=-g*(tl_zeta(Iend+1,j,know)- & !^ & tl_zeta(Iend ,j,know))* & !^ & 0.5_r8*(GRID(ng)%pm(Iend ,j)+ & !^ & GRID(ng)%pm(Iend+1,j)) !^ adfac=-g*0.5_r8*(GRID(ng)%pm(Iend ,j)+ & & GRID(ng)%pm(Iend+1,j))*ad_bry_pgr ad_zeta(Iend ,j,know)=ad_zeta(Iend ,j,know)-adfac ad_zeta(Iend+1,j,know)=ad_zeta(Iend+1,j,know)+adfac ad_bry_pgr=0.0_r8 END IF # else # ifdef ADJUST_BOUNDARY IF (Lobc(ieast,isUbar,ng)) THEN !^ tl_bry_val=BOUNDARY(ng)%tl_ubar_east(j) !^ BOUNDARY(ng)%ad_ubar_east(j)= & & BOUNDARY(ng)%ad_ubar_east(j)+ & & ad_bry_val ad_bry_val=0.0_r8 ELSE !^ tl_bry_val=0.0_r8 !^ ad_bry_val=0.0_r8 END IF # else !^ tl_bry_val=0.0_r8 !^ ad_bry_val=0.0_r8 # endif # endif END IF END DO ! ! Eastern edge, Shchepetkin boundary condition (Maison et al., 2010). ! ELSE IF (ad_LBC(ieast,isUbar,ng)%Shchepetkin) THEN DO j=Jstr,Jend IF (LBC_apply(ng)%east(j)) THEN # ifdef WET_DRY_NOT_YET cff=0.5_r8*(GRID(ng)%h(Iend ,j)+ & & zeta(Iend ,j,know)+ & & GRID(ng)%h(Iend+1,j)+ & & zeta(Iend+1,j,know)) # else cff=0.5_r8*(GRID(ng)%h(Iend ,j)+ & & GRID(ng)%h(Iend+1,j)) # endif cff1=SQRT(g/cff) Cx=dt2d*cff1*cff*0.5_r8*(GRID(ng)%pm(Iend ,j)+ & & GRID(ng)%pm(Iend+1,j)) Zx=(0.5_r8+Cx)*zeta(Iend ,j,know)+ & & (0.5_r8-Cx)*zeta(Iend+1,j,know) IF (Cx.gt.Co) THEN cff2=(1.0_r8-Co/Cx)**2 cff3=zeta(Iend,j,kout)+ & & Cx*zeta(Iend+1,j,know)- & & (1.0_r8+Cx)*zeta(Iend,j,know) Zx=Zx+cff2*cff3 END IF # ifdef MASKING !^ tl_ubar(Iend+1,j,kout)=tl_ubar(Iend+1,j,kout)* & !^ & GRID(ng)%umask(Iend+1,j) !^ ad_ubar(Iend+1,j,kout)=ad_ubar(Iend+1,j,kout)* & & GRID(ng)%umask(Iend+1,j) # endif # ifdef ADJUST_BOUNDARY IF (Lobc(ieast,isUbar,ng)) THEN !^ tl_ubar(Iend+1,j,kout)=tl_ubar(Iend+1,j,kout)- & !^ & 0.5_r8*cff1* & !^ & BOUNDARY(ng)%tl_zeta_east(j) !^ BOUNDARY(ng)%ad_zeta_east(j)= & & BOUNDARY(ng)%ad_zeta_east(j)- & & 0.5_r8*cff1* & & ad_ubar(Iend+1,j,kout) END IF # endif !^ tl_ubar(Iend+1,j,kout)=0.5_r8* & !^ & ((1.0_r8-Cx)* & !^ & tl_ubar(Iend+1,j,know)+ & !^ & tl_Cx*(ubar(Iend ,j,know)- & !^ & ubar(Iend+1,j,know))+ & !^ & Cx*tl_ubar(Iend,j,know)+ & !^ & tl_bry_val+ & !^ & tl_cff1* & !^ & (Zx-BOUNDARY(ng)%zeta_east(j))- & !^ & cff1*tl_Zx) !^ adfac=0.5_r8*ad_ubar(Iend+1,j,kout) ad_ubar(Iend+1,j,know)=ad_ubar(Iend+1,j,know)+ & & (1.0_r8-Cx)*adfac ad_ubar(Iend ,j,know)=ad_ubar(Iend ,j,know)+ & & Cx*adfac ad_Cx=ad_Cx+ & & (ubar(Iend ,j,know)- & & ubar(Iend+1,j,know))*adfac ad_bry_val=ad_bry_val+adfac ad_cff1=ad_cff1+ & & (Zx-BOUNDARY(ng)%zeta_east(j))*adfac ad_Zx=ad_Zx-cff1*adfac ad_ubar(Iend+1,j,kout)=0.0_r8 IF (Cx.gt.Co) THEN !^ tl_Zx=tl_Zx+cff2*tl_cff3+ & !^ & tl_cff2*cff3 !^ ad_cff2=ad_cff2+cff3*ad_Zx ad_cff3=ad_cff3+cff2*ad_Zx !^ tl_cff3=tl_zeta(Iend,j,kout)+ & !^ & Cx*tl_zeta(Iend+1,j,know)+ & !^ & tl_Cx*(zeta(Iend ,j,know)+ & !^ & zeta(Iend+1,j,know))- & !^ & (1.0_r8+Cx)*tl_zeta(Iend,j,know) !^ ad_zeta(Iend ,j,kout)=ad_zeta(Iend ,j,kout)+ & & ad_cff3 ad_zeta(Iend ,j,know)=ad_zeta(Iend ,j,know)- & & (1.0_r8+Cx)*ad_cff3 ad_zeta(Iend+1,j,know)=ad_zeta(Iend+1,j,know)+ & & Cx*ad_cff3 ad_Cx=ad_Cx+ & & (zeta(Iend ,j,know)+ & & zeta(Iend+1,j,know))*ad_cff3 ad_cff3=0.0_r8 !^ tl_cff2=2.0_r8*cff2*Co*tl_Cx/(Cx*Cx) !^ ad_Cx=ad_Cx+ & & 2.0_r8*cff2*Co*ad_cff2/(Cx*Cx) ad_cff2=0.0_r8 END IF !^ tl_Zx=(0.5_r8+Cx)*tl_zeta(Iend ,j,know)+ & !^ & (0.5_r8-Cx)*tl_zeta(Iend+1,j,know)+ & !^ & tl_Cx*(zeta(Iend ,j,know)- & !^ & zeta(Iend+1,j,know)) !^ ad_zeta(Iend ,j,know)=ad_zeta(Iend ,j,know)+ & & (0.5_r8+Cx)*ad_Zx ad_zeta(Iend+1,j,know)=ad_zeta(Iend+1,j,know)+ & & (0.5_r8-Cx)*ad_Zx ad_Cx=ad_Cx+ & & (zeta(Iend ,j,know)- & & zeta(Iend+1,j,know))*ad_Zx ad_Zx=0.0_r8 !^ tl_Cx=dt2d*0.5_r8*(GRID(ng)%pm(Iend ,j)+ & !^ & GRID(ng)%pm(Iend+1,j))* & !^ & (cff1*tl_cff+ & !^ & tl_cff1*cff) !^ adfac=dt2d*0.5_r8*(GRID(ng)%pm(Iend ,j)+ & & GRID(ng)%pm(Iend+1,j))*ad_Cx ad_cff=ad_cff+cff1*adfac ad_cff1=ad_cff1+cff*adfac ad_Cx=0.0_r8 !^ tl_cff1=-0.5_r8*cff1*tl_cff/cff !^ ad_cff=ad_cff- & & 0.5_r8*cff1*ad_cff1/cff ad_cff1=0.0_r8 # ifdef WET_DRY_NOT_YET !^ tl_cff=0.5_r8*(GRID(ng)%tl_h(Iend ,j)+ & !^ & tl_zeta(Iend ,j,know)+ & !^ & GRID(ng)%tl_h(Iend+1,j)+ & !^ & tl_zeta(Iend+1,j,know)) !^ adfac=0.5_r8*ad_cff GRID(ng)%ad_h(Iend ,j)=GRID(ng)%ad_h(Iend ,j)+adfac GRID(ng)%ad_h(Iend+1,j)=GRID(ng)%ad_h(Iend+1,j)+adfac ad_zeta(Iend ,j,know)=ad_zeta(Iend ,j,know)+adfac ad_zeta(Iend+1,j,know)=tl_zeta(Iend+1,j,know)+adfac ad_cff=0.0_r8 # else !^ tl_cff=0.5_r8*(GRID(ng)%tl_h(Iend ,j)+ & !^ & GRID(ng)%tl_h(Iend+1,j)) !^ adfac=0.5_r8*ad_cff GRID(ng)%ad_h(Iend ,j)=GRID(ng)%ad_h(Iend ,j)+adfac GRID(ng)%ad_h(Iend+1,j)=GRID(ng)%ad_h(Iend+1,j)+adfac ad_cff=0.0_r8 # endif # if defined SSH_TIDES_NOT_YET && !defined UV_TIDES_NOT_YET IF (ad_LBC(ieast,isFsur,ng)%acquire) THEN bry_pgr=-g*(BOUNDARY(ng)%zeta_east(j)- & & zeta(Iend,j,know))* & & 0.5_r8*GRID(ng)%pm(Iend,j) ELSE bry_pgr=-g*(zeta(Iend+1,j,know)- & & zeta(Iend ,j,know))* & & 0.5_r8*(GRID(ng)%pm(Iend ,j)+ & & GRID(ng)%pm(Iend+1,j)) END IF # ifdef UV_COR bry_cor=0.125_r8*(vbar(Iend ,j ,know)+ & & vbar(Iend ,j+1,know)+ & & vbar(Iend+1,j ,know)+ & & vbar(Iend+1,j+1,know))* & & (GRID(ng)%f(Iend ,j)+ & & GRID(ng)%f(Iend+1,j)) # else bry_cor=0.0_r8 # endif cff1=1.0_r8/(0.5_r8*(GRID(ng)%h(Iend ,j)+ & & zeta(Iend ,j,know)+ & & GRID(ng)%h(Iend+1,j)+ & & zeta(Iend+1,j,know))) bry_str=cff1*(FORCES(ng)%sustr(Iend+1,j)- & & FORCES(ng)%bustr(Iend+1,j)) Cx=1.0_r8/SQRT(g*0.5_r8*(GRID(ng)%h(Iend+1,j)+ & & zeta(Iend+1,j,know)+ & & GRID(ng)%h(Iend ,j)+ & & zeta(Iend ,j,know))) cff2=GRID(ng)%om_u(Iend+1,j)*Cx !^ tl_bry_val=tl_ubar(Iend,j,know)+ & !^ & tl_cff2*(bry_pgr+ & !^ & bry_cor+ & !^ & bry_str)+ & !^ & cff2*(tl_bry_pgr+ & !^ & tl_bry_cor+ & !^ & tl_bry_str) !^ adfac=cff2*ad_bry_val ad_bry_pgr=ad_bry_pgr+adfac ad_bry_cor=ad_bry_cor+adfac ad_bry_str=ad_bry_str+adfac ad_cff2=ad_cff2+(bry_pgr+ & & bry_cor+ & & bry_str)*ad_bry_val ad_ubar(Iend,j,know)=ad_ubar(Iend,j,know)+ad_bry_val ad_bry_val=0.0_r8 !^ tl_cff2=GRID(ng)%om_u(Iend+1,j)*tl_Cx !^ ad_Cx=ad_Cx+GRID(ng)%om_u(Iend+1,j)*ad_cff2 ad_cff2=0.0_r8 !^ tl_Cx=-Cx*Cx*Cx*0.25_r8*g*(GRID(ng)%tl_h(Iend+1,j)+ & !^ & tl_zeta(Iend+1,j,know)+ & !^ & GRID(ng)%tl_h(Iend ,j)+ & !^ & tl_zeta(Iend ,j,know)) !^ adfac=-Cx*Cx*Cx*0.25_r8*g*ad_Cx ad_zeta(Iend ,j,know)=ad_zeta(Iend ,j,know)+adfac ad_zeta(Iend+1,j,know)=ad_zeta(Iend+1,j,know)+adfac GRID(ng)%ad_h(Iend ,j)=GRID(ng)%ad_h(Iend ,j)+adfac GRID(ng)%ad_h(Iend+1,j)=GRID(ng)%ad_h(Iend+1,j)+adfac ad_Cx=0.0_r8 !^ tl_bry_str=tl_cff1*(FORCES(ng)%sustr(Iend+1,j)- & !^ & FORCES(ng)%bustr(Iend+1,j))+ & !^ & cff1*(FORCES(ng)%tl_sustr(Iend+1,j)- & !^ & FORCES(ng)%tl_bustr(Iend+1,j)) !^ adfac=cff1*ad_bry_str FORCES(ng)%ad_sustr(Iend+1,j)= & & FORCES(ng)%ad_sustr(Iend+1,j)+ & & adfac FORCES(ng)%tl_bustr(Iend+1,j)= & & FORCES(ng)%tl_bustr(Iend+1,j)- & & adfac ad_cff1=ad_cff1+(FORCES(ng)%sustr(Iend+1,j)- & & FORCES(ng)%bustr(Iend+1,j))*ad_bry_str ad_bry_str=0.0_r8 !^ tl_cff1=-cff1*cff1*0.5_r8*(GRID(ng)%tl_h(Iend ,j)+ & !^ & tl_zeta(Iend ,j,know)+ & !^ & GRID(ng)%tl_h(Iend+1,j)+ & !^ & tl_zeta(Iend+1,j,know)) !^ adfac=-cff1*cff1*0.5_r8*ad_cff1 ad_zeta(Iend ,j,know)=ad_zeta(Iend ,j,know)+adfac ad_zeta(Iend+1,j,know)=ad_zeta(Iend+1,j,know)+adfac GRID(ng)%ad_h(Iend ,j)=GRID(ng)%ad_h(Iend ,j)+adfac GRID(ng)%ad_h(Iend+1,j)=GRID(ng)%ad_h(Iend+1,j)+adfac ad_cff1=0.0_r8 # ifdef UV_COR !^ tl_bry_cor=0.125_r8*(tl_vbar(Iend ,j ,know)+ & !^ & tl_vbar(Iend ,j+1,know)+ & !^ & tl_vbar(Iend+1,j ,know)+ & !^ & tl_vbar(Iend+1,j+1,know))* & !^ & (GRID(ng)%f(Iend ,j)+ & !^ & GRID(ng)%f(Iend+1,j)) !^ adfac=0.125_r8*(GRID(ng)%f(Iend ,j)+ & & GRID(ng)%f(Iend+1,j))*ad_bry_cor ad_vbar(Iend ,j ,know)=ad_vbar(Iend ,j ,know)+adfac ad_vbar(Iend+1,j ,know)=ad_vbar(Iend+1,j ,know)+adfac ad_vbar(Iend ,j+1,know)=ad_vbar(Iend ,j+1,know)+adfac ad_vbar(Iend+1,j+1,know)=ad_vbar(Iend+1,j+1,know)+adfac ad_bry_cor=0.0_r8 # else !^ tl_bry_cor=0.0_r8 !^ ad_bry_cor=0.0_r8 # endif IF (ad_LBC(ieast,isFsur,ng)%acquire) THEN # ifdef ADJUST_BOUNDARY IF (Lobc(ieast,isUbar,ng)) THEN !^ tl_bry_pgr=tl_bry_pgr- & !^ & g*BOUNDARY(ng)%tl_zeta_east(j)* & !^ & 0.5_r8*GRID(ng)%pm(Iend,j) !^ BOUNDARY(ng)%ad_zeta_east(j)=BOUNDARY(ng)% & & ad_zeta_east(j)- & & g*0.5_r8* & & GRID(ng)%pm(Iend,j)* & & ad_bry_pgr END IF # endif !^ tl_bry_pgr=g*tl_zeta(Iend,j,know)* & !^ & 0.5_r8*GRID(ng)%pm(Iend,j) !^ ad_zeta(Iend,j,know)=ad_zeta(Iend,j,know)+ & & g*0.5_r8*GRID(ng)%pm(Iend,j)* & & ad_bry_pgr ad_bry_pgr=0.0_r8 ELSE !^ tl_bry_pgr=-g*(tl_zeta(Iend+1,j,know)- & !^ & tl_zeta(Iend ,j,know))* & !^ & 0.5_r8*(GRID(ng)%pm(Iend ,j)+ & !^ & GRID(ng)%pm(Iend+1,j)) !^ adfac=-g*0.5_r8*(GRID(ng)%pm(Iend ,j)+ & & GRID(ng)%pm(Iend+1,j))*ad_bry_pgr ad_zeta(Iend ,j,know)=ad_zeta(Iend ,j,know)-adfac ad_zeta(Iend+1,j,know)=ad_zeta(Iend+1,j,know)+adfac ad_bry_pgr=0.0_r8 END IF # else # ifdef ADJUST_BOUNDARY IF (Lobc(ieast,isUbar,ng)) THEN !^ tl_bry_val=BOUNDARY(ng)%tl_ubar_east(j) !^ BOUNDARY(ng)%ad_ubar_east(j)= & & BOUNDARY(ng)%ad_ubar_east(j)+ & & ad_bry_val ad_bry_val=0.0_r8 ELSE !^ tl_bry_val=0.0_r8 !^ ad_bry_val=0.0_r8 END IF # else !^ tl_bry_val=0.0_r8 !^ ad_bry_val=0.0_r8 # endif # endif END IF END DO ! ! Eastern edge, clamped boundary condition. ! ELSE IF (ad_LBC(ieast,isUbar,ng)%clamped) THEN DO j=Jstr,Jend IF (LBC_apply(ng)%east(j)) THEN # ifdef MASKING !^ tl_ubar(Iend+1,j,kout)=tl_ubar(Iend+1,j,kout)* & !^ & GRID(ng)%umask(Iend+1,j) !^ ad_ubar(Iend+1,j,kout)=ad_ubar(Iend+1,j,kout)* & & GRID(ng)%umask(Iend+1,j) # endif # ifdef ADJUST_BOUNDARY IF (Lobc(ieast,isUbar,ng)) THEN !^ tl_ubar(Iend+1,j,kout)=BOUNDARY(ng)%tl_ubar_east(j) !^ BOUNDARY(ng)%ad_ubar_east(j)= & & BOUNDARY(ng)%ad_ubar_east(j)+ & & ad_ubar(Iend+1,j,kout) ad_ubar(Iend+1,j,kout)=0.0_r8 ELSE !^ tl_ubar(Iend+1,j,kout)=0.0_r8 !^ ad_ubar(Iend+1,j,kout)=0.0_r8 END IF # else !^ tl_ubar(Iend+1,j,kout)=0.0_r8 !^ ad_ubar(Iend+1,j,kout)=0.0_r8 # endif END IF END DO ! ! Eastern edge, gradient boundary condition. ! ELSE IF (ad_LBC(ieast,isUbar,ng)%gradient) THEN DO j=Jstr,Jend IF (LBC_apply(ng)%east(j)) THEN # ifdef MASKING !^ tl_ubar(Iend+1,j,kout)=tl_ubar(Iend+1,j,kout)* & !^ & GRID(ng)%umask(Iend+1,j) !^ ad_ubar(Iend+1,j,kout)=ad_ubar(Iend+1,j,kout)* & & GRID(ng)%umask(Iend+1,j) # endif !^ tl_ubar(Iend+1,j,kout)=tl_ubar(Iend,j,kout) !^ ad_ubar(Iend,j,kout)=ad_ubar(Iend,j,kout)+ & & ad_ubar(Iend+1,j,kout) ad_ubar(Iend+1,j,kout)=0.0_r8 END IF END DO ! ! Eastern edge, reduced-physics boundary condition. ! ELSE IF (ad_LBC(ieast,isUbar,ng)%reduced) THEN DO j=Jstr,Jend IF (LBC_apply(ng)%east(j)) THEN cff=1.0_r8/(0.5_r8*(GRID(ng)%h(Iend ,j)+ & & zeta(Iend ,j,know)+ & & GRID(ng)%h(Iend+1,j)+ & & zeta(Iend+1,j,know))) # ifdef MASKING !^ tl_ubar(Iend+1,j,kout)=tl_ubar(Iend+1,j,kout)* & !^ & GRID(ng)%umask(Iend+1,j) !^ ad_ubar(Iend+1,j,kout)=ad_ubar(Iend+1,j,kout)* & & GRID(ng)%umask(Iend+1,j) # endif !^ tl_ubar(Iend+1,j,kout)=tl_ubar(Iend+1,j,know)+ & !^ & dt2d*(tl_bry_pgr+ & !^ & tl_bry_cor+ & !^ & tl_bry_str) !^ adfac=dt2d*ad_ubar(Iend+1,j,kout) ad_bry_pgr=ad_bry_pgr+adfac ad_bry_cor=ad_bry_cor+adfac ad_bry_str=ad_bry_str+adfac ad_ubar(Iend+1,j,know)=ad_ubar(Iend+1,j,know)+ & & ad_ubar(Iend+1,j,kout) ad_ubar(Iend+1,j,kout)=0.0_r8 !^ tl_bry_str=tl_cff*(FORCES(ng)%sustr(Iend+1,j)- & !^ & FORCES(ng)%bustr(Iend+1,j))+ & !^ & cff*(FORCES(ng)%tl_sustr(Iend+1,j)- & !^ & FORCES(ng)%tl_bustr(Iend+1,j)) !^ adfac=cff*ad_bry_str FORCES(ng)%ad_sustr(Iend+1,j)= & & FORCES(ng)%ad_sustr(Iend+1,j)+ & & adfac FORCES(ng)%ad_bustr(Iend+1,j)= & & FORCES(ng)%ad_bustr(Iend+1,j)- & & adfac ad_cff=ad_cff+(FORCES(ng)%sustr(Iend+1,j)- & & FORCES(ng)%bustr(Iend+1,j))*ad_bry_str ad_bry_str=0.0_r8 # ifdef UV_COR !^ tl_bry_cor=0.125_r8*(tl_vbar(Iend, j ,know)+ & !^ & tl_vbar(Iend ,j+1,know)+ & !^ & tl_vbar(Iend+1,j ,know)+ & !^ & tl_vbar(Iend+1,j+1,know))* & !^ & (GRID(ng)%f(Iend ,j)+ & !^ & GRID(ng)%f(Iend+1,j)) !^ adfac=0.125_r8*(GRID(ng)%f(Iend,j)+ & & GRID(ng)%f(Iend+1,j))*ad_bry_cor ad_vbar(Iend, j ,know)=ad_vbar(Iend ,j ,know)+adfac ad_vbar(Iend+1,j ,know)=ad_vbar(Iend+1,j ,know)+adfac ad_vbar(Iend ,j+1,know)=ad_vbar(Iend ,j+1,know)+adfac ad_vbar(Iend+1,j+1,know)=ad_vbar(Iend+1,j+1,know)+adfac ad_bry_cor=0.0_r8 # else !^ tl_bry_cor=0.0_r8 !^ ad_bry_cor=0.0_r8 # endif IF (ad_LBC(ieast,isFsur,ng)%acquire) THEN # ifdef ADJUST_BOUNDARY IF (Lobc(ieast,isUbar,ng)) THEN !^ tl_bry_pgr=tl_bry_pgr- & !^ & g*BOUNDARY(ng)%tl_zeta_east(j)* & !^ & 0.5_r8*GRID(ng)%pm(Iend,j) !^ BOUNDARY(ng)%ad_zeta_east(j)=BOUNDARY(ng)% & & ad_zeta_east(j)- & & g*0.5_r8* & & GRID(ng)%pm(Iend,j)* & & ad_bry_pgr END IF # endif !^ tl_bry_pgr=g*tl_zeta(Iend,j,know)* & !^ & 0.5_r8*GRID(ng)%pm(Iend,j) !^ ad_zeta(Iend,j,know)=ad_zeta(Iend,j,know)+ & & g*0.5_r8*GRID(ng)%pm(Iend,j)* & & ad_bry_pgr ad_bry_pgr=0.0_r8 ELSE !^ tl_bry_pgr=-g*(tl_zeta(Iend+1,j,know)- & !^ & tl_zeta(Iend ,j,know))* & !^ & 0.5_r8*(GRID(ng)%pm(Iend ,j)+ & !^ & GRID(ng)%pm(Iend+1,j)) !^ adfac=-g*0.5_r8*(GRID(ng)%pm(Iend ,j)+ & & GRID(ng)%pm(Iend+1,j))*ad_bry_pgr ad_zeta(Iend ,j,know)=ad_zeta(Iend ,j,know)-adfac ad_zeta(Iend+1,j,know)=ad_zeta(Iend+1,j,know)+adfac ad_bry_pgr=0.0_r8 END IF END IF END DO ! ! Eastern edge, closed boundary condition. ! ELSE IF (ad_LBC(ieast,isUbar,ng)%closed) THEN DO j=Jstr,Jend IF (LBC_apply(ng)%east(j)) THEN !^ tl_ubar(Iend+1,j,kout)=0.0_r8 !^ ad_ubar(Iend+1,j,kout)=0.0_r8 END IF END DO END IF END IF ! !----------------------------------------------------------------------- ! Lateral boundary conditions at the western edge. !----------------------------------------------------------------------- ! IF (DOMAIN(ng)%Western_Edge(tile)) THEN ! ! Western edge, implicit upstream radiation condition. ! IF (ad_LBC(iwest,isUbar,ng)%radiation) THEN IF (iic(ng).ne.0) THEN DO j=Jstr,Jend IF (LBC_apply(ng)%west(j)) THEN # if defined CELERITY_READ && defined FORWARD_READ IF (ad_LBC(iwest,isUbar,ng)%nudging) THEN IF (LnudgeM2CLM(ng)) THEN obc_out=0.5_r8* & & (CLIMA(ng)%M2nudgcof(Istr-1,j)+ & & CLIMA(ng)%M2nudgcof(Istr ,j)) obc_in =obcfac(ng)*obc_out ELSE obc_out=M2obc_out(ng,iwest) obc_in =M2obc_in (ng,iwest) END IF IF (BOUNDARY(ng)%ubar_west_Cx(j).lt.0.0_r8) THEN tau=obc_in ELSE tau=obc_out END IF tau=tau*dt2d END IF Cx=BOUNDARY(ng)%ubar_west_Cx(j) # ifdef RADIATION_2D Ce=BOUNDARY(ng)%ubar_west_Ce(j) # else Ce=0.0_r8 # endif cff=BOUNDARY(ng)%ubar_west_C2(j) # endif # ifdef MASKING !^ tl_ubar(Istr,j,kout)=tl_ubar(Istr,j,kout)* & !^ & GRID(ng)%umask(Istr,j) !^ ad_ubar(Istr,j,kout)=ad_ubar(Istr,j,kout)* & & GRID(ng)%umask(Istr,j) # endif IF (ad_LBC(iwest,isUbar,ng)%nudging) THEN !^ tl_ubar(Istr,j,kout)=tl_ubar(Istr,j,kout)- & !^ & tau*tl_ubar(Istr,j,know) !^ ad_ubar(Istr,j,know)=ad_ubar(Istr,j,know)- & & tau*ad_ubar(Istr,j,kout) END IF !^ tl_ubar(Istr,j,kout)=(cff*tl_ubar(Istr ,j,know)+ & !^ & Cx *tl_ubar(Istr+1,j,kout)- & !^ & MAX(Ce,0.0_r8)* & !^ & tl_grad(Istr,j )- & !^ & MIN(Ce,0.0_r8)* & !^ & tl_grad(Istr,j+1))/ & !^ & (cff+Cx) !^ adfac=ad_ubar(Istr,j,kout)/(cff+Cx) ad_grad(Istr,j )=ad_grad(Istr,j )-MAX(Ce,0.0_r8)*adfac ad_grad(Istr,j+1)=ad_grad(Istr,j+1)-MIN(Ce,0.0_r8)*adfac ad_ubar(Istr ,j,know)=ad_ubar(Istr ,j,know)+cff*adfac ad_ubar(Istr+1,j,kout)=ad_ubar(Istr+1,j,kout)+Cx *adfac ad_ubar(Istr ,j,kout)=0.0_r8 END IF END DO END IF ! ! Western edge, Flather boundary condition. ! ELSE IF (ad_LBC(iwest,isUbar,ng)%Flather) THEN DO j=Jstr,Jend IF (LBC_apply(ng)%west(j)) THEN cff=1.0_r8/(0.5_r8*(GRID(ng)%h(Istr-1,j)+ & & zeta(Istr-1,j,know)+ & & GRID(ng)%h(Istr ,j)+ & & zeta(Istr ,j,know))) Cx=SQRT(g*cff) # ifdef MASKING !^ tl_ubar(Istr,j,kout)=tl_ubar(Istr,j,kout)* & !^ & GRID(ng)%umask(Istr,j) !^ ad_ubar(Istr,j,kout)=ad_ubar(Istr,j,kout)* & & GRID(ng)%umask(Istr,j) # endif # ifdef ADJUST_BOUNDARY IF (Lobc(iwest,isUbar,ng)) THEN !^ tl_ubar(Istr,j,kout)=tl_ubar(Istr,j,kout)+ & !^ & Cx*BOUNDARY(ng)%tl_zeta_west(j) !^ BOUNDARY(ng)%ad_zeta_west(j)= & & BOUNDARY(ng)%ad_zeta_west(j)+ & & Cx*ad_ubar(Istr,j,kout) END IF # endif # if defined ATM_PRESS && defined PRESS_COMPENSATE !^ tl_ubar(Istr,j,kout)=tl_bry_val- & !^ & tl_Cx* & !^ & (0.5_r8* & !^ & (zeta(Istr-1,j,know)+ & !^ & zeta(Istr ,j,know)+ & !^ & fac*(FORCES(ng)%Pair(Istr-1,j)+ & !^ & FORCES(ng)%Pair(Istr ,j)- & !^ & 2.0_r8*OneAtm))- & !^ & BOUNDARY(ng)%zeta_west(j))- & !^ & Cx* & !^ & (0.5_r8* & !^ & (tl_zeta(Istr-1,j,know)+ & !^ & tl_zeta(Istr ,j,know))) !^ adfac=Cx*0.5_r8*ad_ubar(Istr,j,kout) ad_zeta(Istr-1,j,know)=ad_zeta(Istr-1,j,know)-adfac ad_zeta(Istr ,j,know)=ad_zeta(Istr ,j,know)-adfac ad_Cx=ad_Cx- & & (0.5_r8*(zeta(Istr-1,j,know)+ & & zeta(Istr ,j,know)+ & & fac*(FORCES(ng)%Pair(Istr-1,j)+ & & FORCES(ng)%Pair(Istr ,j)- & & 2.0_r8*OneAtm))- & & BOUNDARY(ng)%zeta_west(j))*ad_ubar(Istr,j,kout) ad_bry_val=ad_bry_val+ad_ubar(Istr,j,kout) ad_ubar(Istr,j,kout)=0.0_r8 # else !^ tl_ubar(Istr,j,kout)=tl_bry_val- & !^ & tl_Cx* & !^ & (0.5_r8*(zeta(Istr-1,j,know)+ & !^ & zeta(Istr ,j,know))- & !^ & BOUNDARY(ng)%zeta_west(j))- & !^ & Cx* & !^ & (0.5_r8*(tl_zeta(Istr-1,j,know)+ & !^ & tl_zeta(Istr ,j,know))) !^ adfac=Cx*0.5_r8*ad_ubar(Istr,j,kout) ad_zeta(Istr-1,j,know)=ad_zeta(Istr-1,j,know)-adfac ad_zeta(Istr ,j,know)=ad_zeta(Istr ,j,know)-adfac ad_Cx=ad_Cx- & & (0.5_r8*(zeta(Istr-1,j,know)+ & & zeta(Istr ,j,know))- & & BOUNDARY(ng)%zeta_west(j))*ad_ubar(Istr,j,kout) ad_bry_val=ad_bry_val+ad_ubar(Istr,j,kout) ad_ubar(Istr,j,kout)=0.0_r8 # endif !^ tl_Cx=0.5_r8*g*tl_cff/Cx !^ ad_cff=ad_cff+0.5_r8*g*ad_Cx/Cx ad_Cx=0.0_r8 !^ tl_cff=-cff*cff*(0.5_r8*(GRID(ng)%tl_h(Istr-1,j)+ & !^ & tl_zeta(Istr-1,j,know)+ & !^ & GRID(ng)%tl_h(Istr ,j)+ & !^ & tl_zeta(Istr ,j,know))) !^ adfac=-cff*cff*0.5_r8*ad_cff GRID(ng)%ad_h(Istr-1,j)=GRID(ng)%ad_h(Istr-1,j)+adfac GRID(ng)%ad_h(Istr ,j)=GRID(ng)%ad_h(Istr ,j)+adfac ad_zeta(Istr-1,j,know)=ad_zeta(Istr-1,j,know)+adfac ad_zeta(Istr ,j,know)=ad_zeta(Istr ,j,know)+adfac ad_cff=0.0_r8 # if defined SSH_TIDES_NOT_YET && !defined UV_TIDES_NOT_YET IF (ad_LBC(iwest,isFsur,ng)%acquire) THEN bry_pgr=-g*(zeta(Istr,j,know)- & & BOUNDARY(ng)%zeta_west(j))* & & 0.5_r8*GRID(ng)%pm(Istr,j) ELSE bry_pgr=-g*(zeta(Istr ,j,know)- & & zeta(Istr-1,j,know))* & & 0.5_r8*(GRID(ng)%pm(Istr-1,j)+ & & GRID(ng)%pm(Istr,j)) END IF # ifdef UV_COR bry_cor=0.125_r8*(vbar(Istr-1,j ,know)+ & & vbar(Istr-1,j+1,know)+ & & vbar(Istr ,j ,know)+ & & vbar(Istr ,j+1,know))* & & (GRID(ng)%f(Istr-1,j)+ & & GRID(ng)%f(Istr,j)) # else bry_cor=0.0_r8 # endif cff1=1.0_r8/(0.5_r8*(GRID(ng)%h(Istr-1,j)+ & & zeta(Istr-1,j,know)+ & & GRID(ng)%h(Istr ,j)+ & & zeta(Istr ,j,know))) bry_str=cff1*(FORCES(ng)%sustr(Istr,j)- & & FORCES(ng)%bustr(Istr,j)) Cx=1.0_r8/SQRT(g*0.5_r8*(GRID(ng)%h(Istr-1,j)+ & & zeta(Istr-1,j,know)+ & & GRID(ng)%h(Istr ,j)+ & & zeta(Istr ,j,know))) cff2=GRID(ng)%om_u(Istr,j)*Cx !^ tl_bry_val=tl_ubar(Istr+1,j,know)+ & !^ & tl_cff2*(bry_pgr+ & !^ & bry_cor+ & !^ & bry_str)+ & !^ & cff2*(tl_bry_pgr+ & !^ & tl_bry_cor+ & !^ & tl_bry_str) !^ adfac=cff2*ad_bry_val ad_bry_pgr=ad_bry_pgr+adfac ad_bry_cor=ad_bry_cor+adfac ad_bry_str=ad_bry_str+adfac ad_cff2=ad_cff2+(bry_pgr+ & & bry_cor+ & & bry_str)*ad_bry_val ad_ubar(Istr+1,j,know)=ad_ubar(Istr+1,j,know)+ad_bry_val ad_bry_val=0.0_r8 !^ tl_cff2=GRID(ng)%om_u(Istr,j)*tl_Cx !^ ad_Cx=ad_Cx+GRID(ng)%om_u(Istr,j)*ad_cff2 ad_cff2=0.0_r8 !^ tl_Cx=-Cx*Cx*Cx*0.25_r8*g*(GRID(ng)%tl_h(Istr-1,j)+ & !^ & tl_zeta(Istr-1,j,know)+ & !^ & GRID(ng)%tl_h(Istr ,j)+ & !^ & tl_zeta(Istr ,j,know)) !^ adfac=-Cx*Cx*Cx*0.25_r8*g*ad_Cx ad_zeta(Istr-1,j,know)=ad_zeta(Istr-1,j,know)+adfac ad_zeta(Istr ,j,know)=ad_zeta(Istr ,j,know)+adfac GRID(ng)%ad_h(Istr-1,j)=GRID(ng)%ad_h(Istr-1,j)+adfac GRID(ng)%ad_h(Istr ,j)=GRID(ng)%ad_h(Istr ,j)+adfac ad_Cx=0.0_r8 !^ tl_bry_str=tl_cff1*(FORCES(ng)%sustr(Istr,j)- & !^ & FORCES(ng)%bustr(Istr,j))+ & !^ & cff1*(FORCES(ng)%tl_sustr(Istr,j)- & !^ & FORCES(ng)%tl_bustr(Istr,j)) !^ adfac=cff1*ad_bry_str FORCES(ng)%ad_sustr(Istr,j)=FORCES(ng)%ad_sustr(Istr,j)+ & & adfac FORCES(ng)%ad_bustr(Istr,j)=FORCES(ng)%ad_bustr(Istr,j)- & & adfac ad_cff1=ad_cff1+(FORCES(ng)%sustr(Istr,j)- & & FORCES(ng)%bustr(Istr,j))*ad_bry_str ad_bry_str=0.0_r8 !^ tl_cff1=-cff1*cff1*0.5_r8*(GRID(ng)%tl_h(Istr-1,j)+ & !^ & tl_zeta(Istr-1,j,know)+ & !^ & GRID(ng)%tl_h(Istr ,j)+ & !^ & tl_zeta(Istr ,j,know)) !^ adfac=-cff1*cff1*0.5_r8*ad_cff1 ad_zeta(Istr-1,j,know)=ad_zeta(Istr-1,j,know)+adfac ad_zeta(Istr ,j,know)=ad_zeta(Istr ,j,know)+adfac GRID(ng)%ad_h(Istr-1,j)=GRID(ng)%ad_h(Istr-1,j)+adfac GRID(ng)%ad_h(Istr ,j)=GRID(ng)%ad_h(Istr ,j)+adfac ad_cff1=0.0_r8 # ifdef UV_COR !^ tl_bry_cor=0.125_r8*(tl_vbar(Istr-1,j ,know)+ & !^ & tl_vbar(Istr-1,j+1,know)+ & !^ & tl_vbar(Istr ,j ,know)+ & !^ & tl_vbar(Istr ,j+1,know))* & !^ & (GRID(ng)%f(Istr-1,j)+ & !^ & GRID(ng)%f(Istr ,j)) !^ adfac=0.125_r8*(GRID(ng)%f(Istr-1,j)+ & & GRID(ng)%f(Istr ,j))*ad_bry_cor ad_vbar(Istr-1,j ,know)=ad_vbar(Istr-1,j ,know)+adfac ad_vbar(Istr ,j ,know)=ad_vbar(Istr ,j ,know)+adfac ad_vbar(Istr-1,j+1,know)=ad_vbar(Istr-1,j+1,know)+adfac ad_vbar(Istr ,j+1,know)=ad_vbar(Istr ,j+1,know)+adfac ad_bry_cor=0.0_r8 # else !^ tl_bry_cor=0.0_r8 !^ ad_bry_cor=0.0_r8 # endif IF (ad_LBC(iwest,isFsur,ng)%acquire) THEN # ifdef ADJUST_BOUNDARY IF (Lobc(iwest,isUbar,ng)) THEN !^ tl_bry_pgr=tl_bry_pgr+ & !^ & g*BOUNDARY(ng)%tl_zeta_west(j)* & !^ & 0.5_r8*GRID(ng)%pm(Istr,j) !^ BOUNDARY(ng)%ad_zeta_west(j)=BOUNDARY(ng)% & & ad_zeta_west(j)+ & & g*0.5_r8* & & GRID(ng)%pm(Istr,j)* & & ad_bry_pgr END IF # endif !^ tl_bry_pgr=-g*tl_zeta(Istr,j,know)* & !^ & 0.5_r8*GRID(ng)%pm(Istr,j) !^ ad_zeta(Istr,j,know)=ad_zeta(Istr,j,know)- & & g*0.5_r8*GRID(ng)%pm(Istr,j)* & & ad_bry_pgr ad_bry_pgr=0.0_r8 ELSE !^ tl_bry_pgr=-g*(tl_zeta(Istr ,j,know)- & !^ & tl_zeta(Istr-1,j,know))* & !^ & 0.5_r8*(GRID(ng)%pm(Istr-1,j)+ & !^ & GRID(ng)%pm(Istr ,j)) !^ adfac=-g*0.5_r8*(GRID(ng)%pm(Istr-1,j)+ & & GRID(ng)%pm(Istr ,j))*ad_bry_pgr ad_zeta(Istr-1,j,know)=ad_zeta(Istr-1,j,know)-adfac ad_zeta(Istr ,j,know)=ad_zeta(Istr ,j,know)+adfac ad_bry_pgr=0.0_r8 END IF # else # ifdef ADJUST_BOUNDARY IF (Lobc(iwest,isUbar,ng)) THEN !^ tl_bry_val=BOUNDARY(ng)%tl_ubar_west(j) !^ BOUNDARY(ng)%ad_ubar_west(j)= & & BOUNDARY(ng)%ad_ubar_west(j)+ & & ad_bry_val ad_bry_val=0.0_r8 ELSE !^ tl_bry_val=0.0_r8 !^ ad_bry_val=0.0_r8 END IF # else !^ tl_bry_val=0.0_r8 !^ ad_bry_val=0.0_r8 # endif # endif END IF END DO ! ! Western edge, Shchepetkin boundary condition (Maison et al., 2010). ! ELSE IF (ad_LBC(iwest,isUbar,ng)%Shchepetkin) THEN DO j=Jstr,Jend IF (LBC_apply(ng)%west(j)) THEN # ifdef WET_DRY_NOT_YET cff=0.5_r8*(GRID(ng)%h(Istr-1,j)+ & & zeta(Istr-1,j,know)+ & & GRID(ng)%h(Istr ,j)+ & & zeta(Istr ,j,know)) # else cff=0.5_r8*(GRID(ng)%h(Istr-1,j)+ & & GRID(ng)%h(Istr ,j)) # endif cff1=SQRT(g/cff) Cx=dt2d*cff1*cff*0.5_r8*(GRID(ng)%pm(Istr-1,j)+ & & GRID(ng)%pm(Istr ,j)) Zx=(0.5_r8+Cx)*zeta(Istr ,j,know)+ & & (0.5_r8-Cx)*zeta(Istr-1,j,know) IF (Cx.gt.Co) THEN cff2=(1.0_r8-Co/Cx)**2 cff3=zeta(Istr,j,kout)+ & & Cx*zeta(Istr-1,j,know)- & & (1.0_r8+Cx)*zeta(Istr,j,know) Zx=Zx+cff2*cff3 END IF # ifdef MASKING !^ tl_ubar(Istr,j,kout)=tl_ubar(Istr,j,kout)* & !^ & GRID(ng)%umask(Istr,j) !^ ad_ubar(Istr,j,kout)=ad_ubar(Istr,j,kout)* & & GRID(ng)%umask(Istr,j) # endif # ifdef ADJUST_BOUNDARY IF (Lobc(iwest,isUbar,ng)) THEN !^ tl_ubar(Istr,j,kout)=tl_ubar(Istr,j,kout)+ & !^ & Cx*BOUNDARY(ng)%tl_zeta_west(j) !^ BOUNDARY(ng)%ad_zeta_west(j)= & & BOUNDARY(ng)%ad_zeta_west(j)+ & & Cx*ad_ubar(Istr,j,kout) END IF # endif !^ tl_ubar(Istr,j,kout)=0.5_r8* & !^ & ((1.0_r8-Cx)* & !^ & tl_ubar(Istr,j,know)- & !^ & tl_Cx*(ubar(Istr ,j,know)- & !^ & ubar(Istr+1,j,know))+ & !^ & Cx*tl_ubar(Istr+1,j,know)+ & !^ & tl_bry_val- & !^ & tl_cff1* & !^ & (Zx-BOUNDARY(ng)%zeta_west(j))- & !^ & cff1*tl_Zx) !^ adfac=0.5_r8*ad_ubar(Istr,j,kout) ad_ubar(Istr, j,know)=ad_ubar(Istr ,j,know)+ & & (1.0_r8-Cx)*adfac ad_ubar(Istr+1,j,know)=ad_ubar(Istr+1,j,know)+ & & Cx*adfac ad_Cx=ad_Cx- & (ubar(Istr ,j,know)- & & ubar(Istr+1,j,know))*adfac ad_bry_val=ad_bry_val+adfac ad_cff1=ad_cff1- & & (Zx-BOUNDARY(ng)%zeta_west(j))*adfac ad_Zx=ad_Zx-cff1*adfac ad_ubar(Istr,j,kout)=0.0_r8 IF (Cx.gt.Co) THEN !^ tl_Zx=tl_Zx+cff2*tl_cff3+ & !^ & tl_cff2*cff3 !^ ad_cff2=ad_cff2+cff3*ad_Zx ad_cff3=ad_cff3+cff2*ad_Zx !^ tl_cff3=tl_zeta(Istr,j,kout)+ & !^ & Cx*tl_zeta(Istr-1,j,know)+ & !^ & tl_Cx*(zeta(Istr-1,j,know)+ & !^ & zeta(Istr ,j,know))- & !^ & (1.0_r8+Cx)*tl_zeta(Istr,j,know) !^ ad_zeta(Istr-1,j,know)=ad_zeta(Istr-1,j,know)+ & & Cx*ad_cff3 ad_zeta(Istr ,j,kout)=ad_zeta(Istr ,j,kout)+ & & ad_cff3 ad_zeta(Istr ,j,know)=ad_zeta(Istr ,j,know)- & & (1.0_r8+Cx)*ad_cff3 ad_Cx=ad_Cx+ & & (zeta(Istr-1,j,know)+ & & zeta(Istr ,j,know))*ad_cff3 ad_cff3=0.0_r8 !^ tl_cff2=2.0_r8*cff2*Co*tl_Cx/(Cx*Cx) !^ ad_Cx=ad_Cx+ & & 2.0_r8*cff2*Co*ad_cff2/(Cx*Cx) ad_cff2=0.0_r8 END IF !^ tl_Zx=(0.5_r8+Cx)*tl_zeta(Istr ,j,know)+ & !^ & (0.5_r8-Cx)*tl_zeta(Istr-1,j,know)+ & !^ & tl_Cx*(zeta(Istr ,j,know)- & !^ & zeta(Istr-1,j,know)) !^ ad_zeta(Istr-1,j,know)=ad_zeta(Istr-1,j,know)+ & & (0.5_r8-Cx)*ad_Zx ad_zeta(Istr ,j,know)=ad_zeta(Istr ,j,know)+ & & (0.5_r8+Cx)*ad_Zx ad_Cx=ad_Cx+ & & (zeta(Istr ,j,know)- & & zeta(Istr-1,j,know))*ad_Zx ad_Zx=0.0_r8 !^ tl_Cx=dt2d*0.5_r8*(GRID(ng)%pm(Istr-1,j)+ & !^ & GRID(ng)%pm(Istr ,j))* & !^ & (cff1*tl_cff+ & !^ & tl_cff1*cff) !^ adfac=dt2d*0.5_r8*(GRID(ng)%pm(Istr-1,j)+ & & GRID(ng)%pm(Istr ,j))*ad_Cx ad_cff=ad_cff+cff1*adfac ad_cff1=ad_cff1+cff*adfac ad_Cx=0.0_r8 !^ tl_cff1=-0.5_r8*cff1*tl_cff/cff !^ ad_cff=ad_cff- & & 0.5_r8*cff1*ad_cff1/cff ad_cff1=0.0_r8 # ifdef WET_DRY_NOT_YET !^ tl_cff=0.5_r8*(GRID(ng)%tl_h(Istr-1,j)+ & !^ & tl_zeta(Istr-1,j,know)+ & !^ & GRID(ng)%tl_h(Istr ,j)+ & !^ & tl_zeta(Istr ,j,know)) !^ adfac=0.5_r8*ad_cff GRID(ng)%ad_h(Istr-1,j)=GRID(ng)%ad_h(Istr-1,j)+adfac GRID(ng)%ad_h(Istr ,j)=GRID(ng)%ad_h(Istr ,j)+adfac ad_zeta(Istr-1,j,know)=ad_zeta(Istr-1,j,know)+adfac ad_zeta(Istr ,j,know)=ad_zeta(Istr ,j,know)+adfac ad_cff=0.0_r8 # else !^ tl_cff=0.5_r8*(GRID(ng)%tl_h(Istr-1,j)+ & !^ & GRID(ng)%tl_h(Istr ,j)) !^ adfac=0.5_r8*ad_cff GRID(ng)%ad_h(Istr-1,j)=GRID(ng)%ad_h(Istr-1,j)+adfac GRID(ng)%ad_h(Istr ,j)=GRID(ng)%ad_h(Istr ,j)+adfac ad_cff=0.0_r8 # endif # if defined SSH_TIDES_NOT_YET && !defined UV_TIDES_NOT_YET IF (ad_LBC(iwest,isFsur,ng)%acquire) THEN bry_pgr=-g*(zeta(Istr,j,know)- & & BOUNDARY(ng)%zeta_west(j))* & & 0.5_r8*GRID(ng)%pm(Istr,j) ELSE bry_pgr=-g*(zeta(Istr ,j,know)- & & zeta(Istr-1,j,know))* & & 0.5_r8*(GRID(ng)%pm(Istr-1,j)+ & & GRID(ng)%pm(Istr ,j)) END IF # ifdef UV_COR bry_cor=0.125_r8*(vbar(Istr-1,j ,know)+ & & vbar(Istr-1,j+1,know)+ & & vbar(Istr ,j ,know)+ & & vbar(Istr ,j+1,know))* & & (GRID(ng)%f(Istr-1,j)+ & & GRID(ng)%f(Istr ,j)) # else bry_cor=0.0_r8 # endif cff1=1.0_r8/(0.5_r8*(GRID(ng)%h(Istr-1,j)+ & & zeta(Istr-1,j,know)+ & & GRID(ng)%h(Istr ,j)+ & & zeta(Istr ,j,know))) bry_str=cff1*(FORCES(ng)%sustr(Istr,j)- & & FORCES(ng)%bustr(Istr,j)) Cx=1.0_r8/SQRT(g*0.5_r8*(GRID(ng)%h(Istr-1,j)+ & & zeta(Istr-1,j,know)+ & & GRID(ng)%h(Istr ,j)+ & & zeta(Istr ,j,know))) cff2=GRID(ng)%om_u(Istr,j)*Cx !^ tl_bry_val=tl_ubar(Istr+1,j,know)+ & !^ & tl_cff2*(bry_pgr+ & !^ & bry_cor+ & !^ & bry_str)+ & !^ & cff2*(tl_bry_pgr+ & !^ & tl_bry_cor+ & !^ & tl_bry_str) !^ adfac=cff2*ad_bry_val ad_bry_pgr=ad_bry_pgr+adfac ad_bry_cor=ad_bry_cor+adfac ad_bry_str=ad_bry_str+adfac ad_cff2=ad_cff2+ & & (bry_pgr+ & & bry_cor+ & & bry_str)*ad_bry_val ad_ubar(Istr+1,j,know)=ad_ubar(Istr+1,j,know)+ & & ad_bry_val ad_bry_val=0.0_r8 !^ tl_cff2=GRID(ng)%om_u(Istr,j)*tl_Cx !^ ad_Cx=ad_Cx+GRID(ng)%om_u(Istr,j)*ad_cff2 ad_cff2=0.0_r8 !^ tl_Cx=-Cx*Cx*Cx*0.25_r8*g*(GRID(ng)%tl_h(Istr-1,j)+ & !^ & tl_zeta(Istr-1,j,know)+ & !^ & GRID(ng)%tl_h(Istr ,j)+ & !^ & tl_zeta(Istr ,j,know)) !^ adfac=-Cx*Cx*Cx*0.25_r8*g*ad_Cx ad_zeta(Istr-1,j,know)=ad_zeta(Istr-1,j,know)+adfac ad_zeta(Istr ,j,know)=ad_zeta(Istr ,j,know)+adfac GRID(ng)%ad_h(Istr-1,j)=GRID(ng)%ad_h(Istr-1,j)+adfac GRID(ng)%ad_h(Istr ,j)=GRID(ng)%ad_h(Istr ,j)+adfac ad_Cx=0.0_r8 !^ tl_bry_str=tl_cff1*(FORCES(ng)%sustr(Istr,j)- & !^ & FORCES(ng)%bustr(Istr,j))+ & !^ & cff1*(FORCES(ng)%tl_sustr(Istr,j)- & !^ & FORCES(ng)%tl_bustr(Istr,j)) !^ adfac=cff1*ad_bry_str FORCES(ng)%ad_sustr(Istr,j)=FORCES(ng)%ad_sustr(Istr,j)+ & & adfac FORCES(ng)%ad_bustr(Istr,j)=FORCES(ng)%ad_bustr(Istr,j)- & & adfac ad_cff1=ad_cff1+(FORCES(ng)%sustr(Istr,j)- & & FORCES(ng)%bustr(Istr,j))*ad_bry_str ad_bry_str=0.0_r8 !^ tl_cff1=-cff1*cff1*0.5_r8*(GRID(ng)%tl_h(Istr-1,j)+ & !^ & tl_zeta(Istr-1,j,know)+ & !^ & GRID(ng)%tl_h(Istr ,j)+ & !^ & tl_zeta(Istr ,j,know)) !^ adfac=-cff1*cff1*0.5_r8*ad_cff1 ad_zeta(Istr-1,j,know)=ad_zeta(Istr-1,j,know)+adfac ad_zeta(Istr ,j,know)=ad_zeta(Istr ,j,know)+adfac GRID(ng)%ad_h(Istr-1,j)=GRID(ng)%ad_h(Istr-1,j)+adfac GRID(ng)%ad_h(Istr ,j)=GRID(ng)%ad_h(Istr ,j)+adfac ad_cff1=0.0_r8 # ifdef UV_COR !^ tl_bry_cor=0.125_r8*(tl_vbar(Istr-1,j ,know)+ & !^ & tl_vbar(Istr-1,j+1,know)+ & !^ & tl_vbar(Istr ,j ,know)+ & !^ & tl_vbar(Istr ,j+1,know))* & !^ & (GRID(ng)%f(Istr-1,j)+ & !^ & GRID(ng)%f(Istr ,j)) !^ adfac=0.125_r8*(GRID(ng)%f(Istr-1,j)+ & & GRID(ng)%f(Istr ,j))*ad_bry_cor ad_vbar(Istr-1,j ,know)=ad_vbar(Istr-1,j ,know)+adfac ad_vbar(Istr ,j ,know)=ad_vbar(Istr ,j ,know)+adfac ad_vbar(Istr-1,j+1,know)=ad_vbar(Istr-1,j+1,know)+adfac ad_vbar(Istr ,j+1,know)=ad_vbar(Istr ,j+1,know)+adfac ad_bry_cor=0.0_r8 # else !^ tl_bry_cor=0.0_r8 !^ ad_bry_cor=0.0_r8 # endif IF (ad_LBC(iwest,isFsur,ng)%acquire) THEN # ifdef ADJUST_BOUNDARY IF (Lobc(iwest,isUbar,ng)) THEN !^ tl_bry_pgr=tl_bry_pgr+ & !^ & g*BOUNDARY(ng)%tl_zeta_west(j)* & !^ & 0.5_r8*GRID(ng)%pm(Istr,j) !^ BOUNDARY(ng)%ad_zeta_west(j)=BOUNDARY(ng)% & & ad_zeta_west(j)+ & & g*0.5_r8* & & GRID(ng)%pm(Istr,j)* & & ad_bry_pgr END IF # endif !^ tl_bry_pgr=-g*tl_zeta(Istr,j,know)* & !^ & 0.5_r8*GRID(ng)%pm(Istr,j) !^ ad_zeta(Istr,j,know)=ad_zeta(Istr,j,know)- & & g*0.5_r8*GRID(ng)%pm(Istr,j)* & & ad_bry_pgr ad_bry_pgr=0.0_r8 ELSE !^ tl_bry_pgr=-g*(tl_zeta(Istr ,j,know)- & !^ & tl_zeta(Istr-1,j,know))* & !^ & 0.5_r8*(GRID(ng)%pm(Istr-1,j)+ & !^ & GRID(ng)%pm(Istr ,j)) !^ adfac=-g*0.5_r8*(GRID(ng)%pm(Istr-1,j)+ & & GRID(ng)%pm(Istr ,j))*ad_bry_pgr ad_zeta(Istr-1,j,know)=ad_zeta(Istr-1,j,know)-adfac ad_zeta(Istr ,j,know)=ad_zeta(Istr ,j,know)+adfac ad_bry_pgr=0.0_r8 END IF # else # ifdef ADJUST_BOUNDARY IF (Lobc(iwest,isUbar,ng)) THEN !^ tl_bry_val=BOUNDARY(ng)%tl_ubar_west(j) !^ BOUNDARY(ng)%ad_ubar_west(j)=BOUNDARY(ng)% & & ad_ubar_west(j)+ & & ad_bry_val ad_bry_val=0.0_r8 ELSE !^ tl_bry_val=0.0_r8 !^ ad_bry_val=0.0_r8 END IF # else !^ tl_bry_val=0.0_r8 !^ ad_bry_val=0.0_r8 # endif # endif END IF END DO ! ! Western edge, clamped boundary condition. ! ELSE IF (ad_LBC(iwest,isUbar,ng)%clamped) THEN DO j=Jstr,Jend IF (LBC_apply(ng)%west(j)) THEN # ifdef MASKING !^ tl_ubar(Istr,j,kout)=tl_ubar(Istr,j,kout)* & !^ & GRID(ng)%umask(Istr,j) !^ ad_ubar(Istr,j,kout)=ad_ubar(Istr,j,kout)* & & GRID(ng)%umask(Istr,j) # endif # ifdef ADJUST_BOUNDARY IF (Lobc(iwest,isUbar,ng)) THEN !^ tl_ubar(Istr,j,kout)=BOUNDARY(ng)%tl_ubar_west(j) !^ BOUNDARY(ng)%ad_ubar_west(j)= & & BOUNDARY(ng)%ad_ubar_west(j)+ & & ad_ubar(Istr,j,kout) ad_ubar(Istr,j,kout)=0.0_r8 ELSE !^ tl_ubar(Istr,j,kout)=0.0_r8 !^ ad_ubar(Istr,j,kout)=0.0_r8 END IF # else !^ tl_ubar(Istr,j,kout)=0.0_r8 !^ ad_ubar(Istr,j,kout)=0.0_r8 # endif END IF END DO ! ! Western edge, gradient boundary condition. ! ELSE IF (ad_LBC(iwest,isUbar,ng)%gradient) THEN DO j=Jstr,Jend IF (LBC_apply(ng)%west(j)) THEN # ifdef MASKING !^ tl_ubar(Istr,j,kout)=tl_ubar(Istr,j,kout)* & !^ & GRID(ng)%umask(Istr,j) !^ ad_ubar(Istr,j,kout)=ad_ubar(Istr,j,kout)* & & GRID(ng)%umask(Istr,j) # endif !^ tl_ubar(Istr ,j,kout)=tl_ubar(Istr+1,j,kout) !^ ad_ubar(Istr+1,j,kout)=ad_ubar(Istr+1,j,kout)+ & & ad_ubar(Istr,j,kout) ad_ubar(Istr ,j,kout)=0.0_r8 END IF END DO ! ! Western edge, reduced-physics boundary condition. ! ELSE IF (ad_LBC(iwest,isUbar,ng)%reduced) THEN DO j=Jstr,Jend IF (LBC_apply(ng)%west(j)) THEN cff=1.0_r8/(0.5_r8*(GRID(ng)%h(Iend ,j)+ & & zeta(Iend ,j,know)+ & & GRID(ng)%h(Iend+1,j)+ & & zeta(Iend+1,j,know))) # ifdef MASKING !^ tl_ubar(Istr,j,kout)=tl_ubar(Istr,j,kout)* & !^ & GRID(ng)%umask(Istr,j) !^ ad_ubar(Istr,j,kout)=ad_ubar(Istr,j,kout)* & & GRID(ng)%umask(Istr,j) # endif !^ tl_ubar(Istr,j,kout)=tl_ubar(Istr,j,know)+ & !^ & dt2d*(tl_bry_pgr+ & !^ & tl_bry_cor+ & !^ & tl_bry_str) !^ adfac=dt2d*ad_ubar(Istr,j,kout) ad_bry_pgr=ad_bry_pgr+adfac ad_bry_cor=ad_bry_cor+adfac ad_bry_str=ad_bry_str+adfac ad_ubar(Istr,j,know)=ad_ubar(Istr,j,know)+ & & ad_ubar(Istr,j,kout) ad_ubar(Istr,j,kout)=0.0_r8 !^ tl_bry_str=tl_cff*(FORCES(ng)%sustr(Istr,j)- & !^ & FORCES(ng)%bustr(Istr,j))+ & !^ & cff*(FORCES(ng)%tl_sustr(Istr,j)- & !^ & FORCES(ng)%tl_bustr(Istr,j)) !^ adfac=cff*ad_bry_str FORCES(ng)%ad_sustr(Istr,j)=FORCES(ng)%ad_sustr(Istr,j)+ & & adfac FORCES(ng)%ad_bustr(Istr,j)=FORCES(ng)%ad_bustr(Istr,j)- & & adfac ad_cff=ad_cff+(FORCES(ng)%sustr(Istr,j)- & & FORCES(ng)%bustr(Istr,j))*ad_bry_str ad_bry_str=0.0_r8 !^ tl_cff=-cff*cff*0.5_r8*(GRID(ng)%tl_h(Istr-1,j)+ & !^ & tl_zeta(Istr-1,j,know)+ & !^ & GRID(ng)%tl_h(Istr ,j)+ & !^ & tl_zeta(Istr ,j,know)) !^ adfac=-cff*cff*0.5_r8*ad_cff ad_zeta(Istr-1,j,know)=ad_zeta(Istr-1,j,know)+adfac ad_zeta(Istr ,j,know)=ad_zeta(Istr ,j,know)+adfac GRID(ng)%ad_h(Istr-1,j)=GRID(ng)%ad_h(Istr-1,j)+adfac GRID(ng)%ad_h(Istr ,j)=GRID(ng)%ad_h(Istr ,j)+adfac ad_cff=0.0_r8 # ifdef UV_COR !^ tl_bry_cor=0.125_r8*(tl_vbar(Istr-1,j ,know)+ & !^ & tl_vbar(Istr-1,j+1,know)+ & !^ & tl_vbar(Istr ,j ,know)+ & !^ & tl_vbar(Istr ,j+1,know))* & !^ & (GRID(ng)%f(Istr-1,j)+ & !^ & GRID(ng)%f(Istr ,j)) !^ adfac=0.125_r8*(GRID(ng)%f(Istr-1,j)+ & & GRID(ng)%f(Istr ,j))*ad_bry_cor ad_vbar(Istr-1,j ,know)=ad_vbar(Istr-1,j ,know)+adfac ad_vbar(Istr ,j ,know)=ad_vbar(Istr ,j ,know)+adfac ad_vbar(Istr-1,j+1,know)=ad_vbar(Istr-1,j+1,know)+adfac ad_vbar(Istr ,j+1,know)=ad_vbar(Istr ,j+1,know)+adfac ad_bry_cor=0.0_r8 # else !^ tl_bry_cor=0.0_r8 !^ ad_bry_cor=0.0_r8 # endif IF (ad_LBC(iwest,isFsur,ng)%acquire) THEN # ifdef ADJUST_BOUNDARY IF (Lobc(iwest,isUbar,ng)) THEN !^ tl_bry_pgr=tl_bry_pgr+ & !^ & g*BOUNDARY(ng)%tl_zeta_west(j)* & !^ & 0.5_r8*GRID(ng)%pm(Istr,j) !^ BOUNDARY(ng)%ad_zeta_west(j)=BOUNDARY(ng)% & & ad_zeta_west(j)+ & & g*0.5_r8* & & GRID(ng)%pm(Istr,j)* & & ad_bry_pgr END IF # endif !^ tl_bry_pgr=-g*(zeta(Istr,j,know)* & !^ & 0.5_r8*GRID(ng)%pm(Istr,j) !^ ad_zeta(Istr,j,know)=ad_zeta(Istr,j,know)- & & g*0.5_r8*GRID(ng)%pm(Istr,j)* & & ad_bry_pgr ad_bry_pgr=0.0_r8 ELSE !^ tl_bry_pgr=-g*(tl_zeta(Istr ,j,know)- & !^ & tl_zeta(Istr-1,j,know))* & !^ & 0.5_r8*(GRID(ng)%pm(Istr-1,j)+ & !^ & GRID(ng)%pm(Istr ,j)) !^ adfac=-g*0.5_r8*(GRID(ng)%pm(Istr-1,j)+ & & GRID(ng)%pm(Istr ,j))*ad_bry_pgr ad_zeta(Istr-1,j,know)=ad_zeta(Istr-1,j,know)-adfac ad_zeta(Istr ,j,know)=ad_zeta(Istr ,j,know)+adfac ad_bry_pgr=0.0_r8 END IF END IF END DO ! ! Western edge, closed boundary condition. ! ELSE IF (ad_LBC(iwest,isUbar,ng)%closed) THEN DO j=Jstr,Jend IF (LBC_apply(ng)%west(j)) THEN !^ tl_ubar(Istr,j,kout)=0.0_r8 !^ ad_ubar(Istr,j,kout)=0.0_r8 END IF END DO END IF END IF RETURN END SUBROUTINE ad_u2dbc_tile #endif END MODULE ad_u2dbc_mod