#if defined key_agrif !!---------------------------------------------------------------------- !! NEMO/NST 3.4 , NEMO Consortium (2012) !! $Id$ !! Software governed by the CeCILL licence (NEMOGCM/NEMO_CeCILL.txt) !!---------------------------------------------------------------------- SUBROUTINE agrif_user END SUBROUTINE agrif_user SUBROUTINE agrif_before_regridding END SUBROUTINE agrif_before_regridding SUBROUTINE Agrif_InitWorkspace !!---------------------------------------------------------------------- !! *** ROUTINE Agrif_InitWorkspace *** !!---------------------------------------------------------------------- USE par_oce USE dom_oce USE nemogcm ! IMPLICIT NONE !!---------------------------------------------------------------------- ! IF( .NOT. Agrif_Root() ) THEN jpni = Agrif_Parent(jpni) jpnj = Agrif_Parent(jpnj) jpnij = Agrif_Parent(jpnij) jpiglo = nbcellsx + 2 + 2*nbghostcells jpjglo = nbcellsy + 2 + 2*nbghostcells jpi = ( jpiglo-2*jpreci + (jpni-1+0) ) / jpni + 2*jpreci jpj = ( jpjglo-2*jprecj + (jpnj-1+0) ) / jpnj + 2*jprecj ! JC: change to allow for different vertical levels ! jpk is already set ! keep it jpk possibly different from jpkdta which ! hold parent grid vertical levels number (set earlier) ! jpk = jpkdta jpim1 = jpi-1 jpjm1 = jpj-1 jpkm1 = jpk-1 jpij = jpi*jpj jpidta = jpiglo jpjdta = jpjglo jpizoom = 1 jpjzoom = 1 nperio = 0 jperio = 0 ENDIF ! END SUBROUTINE Agrif_InitWorkspace SUBROUTINE Agrif_InitValues !!---------------------------------------------------------------------- !! *** ROUTINE Agrif_InitValues *** !! !! ** Purpose :: Declaration of variables to be interpolated !!---------------------------------------------------------------------- USE Agrif_Util USE oce USE dom_oce USE nemogcm USE tradmp USE bdy_par IMPLICIT NONE !!---------------------------------------------------------------------- ! 0. Initializations !------------------- IF( cp_cfg == 'orca' ) THEN IF ( jp_cfg == 2 .OR. jp_cfg == 025 .OR. jp_cfg == 05 & & .OR. jp_cfg == 4 ) THEN jp_cfg = -1 ! set special value for jp_cfg on fine grids cp_cfg = "default" ENDIF ENDIF ! Specific fine grid Initializations ! no tracer damping on fine grids ln_tradmp = .FALSE. ! no open boundary on fine grids lk_bdy = .FALSE. CALL nemo_init ! Initializations of each fine grid CALL agrif_nemo_init CALL Agrif_InitValues_cont_dom # if ! defined key_offline CALL Agrif_InitValues_cont # endif # if defined key_top CALL Agrif_InitValues_cont_top # endif END SUBROUTINE Agrif_initvalues SUBROUTINE Agrif_InitValues_cont_dom !!---------------------------------------------------------------------- !! *** ROUTINE Agrif_InitValues_cont *** !! !! ** Purpose :: Declaration of variables to be interpolated !!---------------------------------------------------------------------- USE Agrif_Util USE oce USE dom_oce USE nemogcm USE sol_oce USE in_out_manager USE agrif_opa_update USE agrif_opa_interp USE agrif_opa_sponge ! IMPLICIT NONE ! !!---------------------------------------------------------------------- ! Declaration of the type of variable which have to be interpolated !--------------------------------------------------------------------- CALL agrif_declare_var_dom ! END SUBROUTINE Agrif_InitValues_cont_dom SUBROUTINE agrif_declare_var_dom !!---------------------------------------------------------------------- !! *** ROUTINE agrif_declare_var *** !! !! ** Purpose :: Declaration of variables to be interpolated !!---------------------------------------------------------------------- USE agrif_util USE par_oce USE oce IMPLICIT NONE !!---------------------------------------------------------------------- ! 1. Declaration of the type of variable which have to be interpolated !--------------------------------------------------------------------- CALL agrif_declare_variable((/1,2/),(/2,3/),(/'x','y'/),(/1,1/),(/nlci,nlcj/),e1u_id) CALL agrif_declare_variable((/2,1/),(/3,2/),(/'x','y'/),(/1,1/),(/nlci,nlcj/),e2v_id) ! 2. Type of interpolation !------------------------- CALL Agrif_Set_bcinterp(e1u_id,interp1=Agrif_linear,interp2=AGRIF_ppm) CALL Agrif_Set_bcinterp(e2v_id,interp1=AGRIF_ppm,interp2=Agrif_linear) ! 3. Location of interpolation !----------------------------- CALL Agrif_Set_bc(e1u_id,(/0,0/)) CALL Agrif_Set_bc(e2v_id,(/0,0/)) ! 5. Update type !--------------- CALL Agrif_Set_Updatetype(e1u_id,update1 = Agrif_Update_Copy, update2=Agrif_Update_Average) CALL Agrif_Set_Updatetype(e2v_id,update1 = Agrif_Update_Average, update2=Agrif_Update_Copy) ! High order updates ! CALL Agrif_Set_Updatetype(e1u_id,update1 = Agrif_Update_Average, update2=Agrif_Update_Full_Weighting) ! CALL Agrif_Set_Updatetype(e2v_id,update1 = Agrif_Update_Full_Weighting, update2=Agrif_Update_Average) ! END SUBROUTINE agrif_declare_var_dom # if ! defined key_offline SUBROUTINE Agrif_InitValues_cont !!---------------------------------------------------------------------- !! *** ROUTINE Agrif_InitValues_cont *** !! !! ** Purpose :: Declaration of variables to be interpolated !!---------------------------------------------------------------------- USE Agrif_Util USE oce USE dom_oce USE nemogcm USE sol_oce USE lib_mpp USE in_out_manager USE agrif_opa_update USE agrif_opa_interp USE agrif_opa_sponge ! IMPLICIT NONE ! LOGICAL :: check_namelist CHARACTER(len=15) :: cl_check1, cl_check2, cl_check3 !!---------------------------------------------------------------------- ! 1. Declaration of the type of variable which have to be interpolated !--------------------------------------------------------------------- CALL agrif_declare_var ! 2. First interpolations of potentially non zero fields !------------------------------------------------------- Agrif_SpecialValue=0. Agrif_UseSpecialValue = .TRUE. CALL Agrif_Bc_variable(tsn_id,calledweight=1.,procname=interptsn) CALL Agrif_Sponge tabspongedone_tsn = .FALSE. CALL Agrif_Bc_variable(tsn_sponge_id,calledweight=1.,procname=interptsn_sponge) ! reset tsa to zero tsa(:,:,:,:) = 0. Agrif_UseSpecialValue = ln_spc_dyn CALL Agrif_Bc_variable(un_interp_id,calledweight=1.,procname=interpun) CALL Agrif_Bc_variable(vn_interp_id,calledweight=1.,procname=interpvn) tabspongedone_u = .FALSE. tabspongedone_v = .FALSE. CALL Agrif_Bc_variable(un_sponge_id,calledweight=1.,procname=interpun_sponge) tabspongedone_u = .FALSE. tabspongedone_v = .FALSE. CALL Agrif_Bc_variable(vn_sponge_id,calledweight=1.,procname=interpvn_sponge) #if defined key_dynspg_ts Agrif_UseSpecialValue = .TRUE. CALL Agrif_Bc_variable(sshn_id,calledweight=1., procname=interpsshn ) Agrif_UseSpecialValue = ln_spc_dyn CALL Agrif_Bc_variable(unb_id,calledweight=1.,procname=interpunb) CALL Agrif_Bc_variable(vnb_id,calledweight=1.,procname=interpvnb) CALL Agrif_Bc_variable(ub2b_interp_id,calledweight=1.,procname=interpub2b) CALL Agrif_Bc_variable(vb2b_interp_id,calledweight=1.,procname=interpvb2b) ubdy_w(:) = 0.e0 ; vbdy_w(:) = 0.e0 ; hbdy_w(:) =0.e0 ubdy_e(:) = 0.e0 ; vbdy_e(:) = 0.e0 ; hbdy_e(:) =0.e0 ubdy_n(:) = 0.e0 ; vbdy_n(:) = 0.e0 ; hbdy_n(:) =0.e0 ubdy_s(:) = 0.e0 ; vbdy_s(:) = 0.e0 ; hbdy_s(:) =0.e0 #endif Agrif_UseSpecialValue = .FALSE. ! reset velocities to zero ua(:,:,:) = 0. va(:,:,:) = 0. ! 3. Some controls !----------------- check_namelist = .TRUE. IF( check_namelist ) THEN ! Check time steps IF( NINT(Agrif_Rhot()) * NINT(rdt) .NE. Agrif_Parent(rdt) ) THEN WRITE(cl_check1,*) NINT(Agrif_Parent(rdt)) WRITE(cl_check2,*) NINT(rdt) WRITE(cl_check3,*) NINT(Agrif_Parent(rdt)/Agrif_Rhot()) CALL ctl_warn( 'incompatible time step between grids', & & 'parent grid value : '//cl_check1 , & & 'child grid value : '//cl_check2 , & & 'value on child grid will be changed to : '//cl_check3 ) rdt=Agrif_Parent(rdt)/Agrif_Rhot() ENDIF ! Check run length IF( Agrif_IRhot() * (Agrif_Parent(nitend)- & Agrif_Parent(nit000)+1) .NE. (nitend-nit000+1) ) THEN WRITE(cl_check1,*) (Agrif_Parent(nit000)-1)*Agrif_IRhot() + 1 WRITE(cl_check2,*) Agrif_Parent(nitend) *Agrif_IRhot() CALL ctl_warn( 'incompatible run length between grids' , & & ' nit000 on fine grid will be change to : '//cl_check1, & & ' nitend on fine grid will be change to : '//cl_check2 ) nit000 = (Agrif_Parent(nit000)-1)*Agrif_IRhot() + 1 nitend = Agrif_Parent(nitend) *Agrif_IRhot() ENDIF ! Check coordinates IF( ln_zps ) THEN ! check parameters for partial steps IF( Agrif_Parent(e3zps_min) .NE. e3zps_min ) THEN WRITE(*,*) 'incompatible e3zps_min between grids' WRITE(*,*) 'parent grid :',Agrif_Parent(e3zps_min) WRITE(*,*) 'child grid :',e3zps_min WRITE(*,*) 'those values should be identical' STOP ENDIF IF( Agrif_Parent(e3zps_rat) /= e3zps_rat ) THEN WRITE(*,*) 'incompatible e3zps_rat between grids' WRITE(*,*) 'parent grid :',Agrif_Parent(e3zps_rat) WRITE(*,*) 'child grid :',e3zps_rat WRITE(*,*) 'those values should be identical' STOP ENDIF ENDIF ! check if masks and bathymetries match IF(ln_chk_bathy) THEN ! IF(lwp) WRITE(numout,*) 'AGRIF: Check Bathymetry and masks near bdys. Level: ', Agrif_Level() ! kindic_agr = 0 ! check if umask agree with parent along western and eastern boundaries: CALL Agrif_Bc_variable(umsk_id,calledweight=1.,procname=interpumsk) ! check if vmask agree with parent along northern and southern boundaries: CALL Agrif_Bc_variable(vmsk_id,calledweight=1.,procname=interpvmsk) ! check if tmask and vertical scale factors agree with parent over first two coarse grid points: CALL Agrif_Bc_variable(e3t_id,calledweight=1.,procname=interpe3t) ! IF (lk_mpp) CALL mpp_sum( kindic_agr ) IF( kindic_agr /= 0 ) THEN CALL ctl_stop('Child Bathymetry is not correct near boundaries.') ELSE IF(lwp) WRITE(numout,*) 'Child Bathymetry is ok near boundaries.' END IF ENDIF ! ENDIF ! ! Do update at initialisation because not done before writing restarts ! This would indeed change boundary conditions values at initial time ! hence produce restartability issues. ! Note that update below is recursive (with lk_agrif_doupd=T): ! ! JC: I am not sure if Agrif_MaxLevel() is the "relative" ! or the absolute maximum nesting level...TBC IF ( Agrif_Level().EQ.Agrif_MaxLevel() ) THEN ! NB: Do tracers first, dynamics after because nbcline incremented in dynamics CALL Agrif_Update_tra() CALL Agrif_Update_dyn() ENDIF ! # if defined key_zdftke ! CALL Agrif_Update_tke(0) # endif ! Agrif_UseSpecialValueInUpdate = .FALSE. nbcline = 0 lk_agrif_doupd = .FALSE. ! END SUBROUTINE Agrif_InitValues_cont SUBROUTINE agrif_declare_var !!---------------------------------------------------------------------- !! *** ROUTINE agrif_declarE_var *** !! !! ** Purpose :: Declaration of variables to be interpolated !!---------------------------------------------------------------------- USE agrif_util USE par_oce ! ONLY : jpts USE oce USE agrif_oce IMPLICIT NONE !!---------------------------------------------------------------------- ! 1. Declaration of the type of variable which have to be interpolated !--------------------------------------------------------------------- CALL agrif_declare_variable((/2,2,0,0/),(/3,3,0,0/),(/'x','y','N','N'/),(/1,1,1,1/),(/nlci,nlcj,jpk,jpts/),tsn_id) CALL agrif_declare_variable((/2,2,0,0/),(/3,3,0,0/),(/'x','y','N','N'/),(/1,1,1,1/),(/nlci,nlcj,jpk,jpts/),tsn_sponge_id) CALL agrif_declare_variable((/1,2,0/),(/2,3,0/),(/'x','y','N'/),(/1,1,1/),(/nlci,nlcj,jpk/),un_interp_id) CALL agrif_declare_variable((/2,1,0/),(/3,2,0/),(/'x','y','N'/),(/1,1,1/),(/nlci,nlcj,jpk/),vn_interp_id) CALL agrif_declare_variable((/1,2,0/),(/2,3,0/),(/'x','y','N'/),(/1,1,1/),(/nlci,nlcj,jpk/),un_update_id) CALL agrif_declare_variable((/2,1,0/),(/3,2,0/),(/'x','y','N'/),(/1,1,1/),(/nlci,nlcj,jpk/),vn_update_id) CALL agrif_declare_variable((/1,2,0/),(/2,3,0/),(/'x','y','N'/),(/1,1,1/),(/nlci,nlcj,jpk/),un_sponge_id) CALL agrif_declare_variable((/2,1,0/),(/3,2,0/),(/'x','y','N'/),(/1,1,1/),(/nlci,nlcj,jpk/),vn_sponge_id) CALL agrif_declare_variable((/2,2,0/),(/3,3,0/),(/'x','y','N'/),(/1,1,1/),(/nlci,nlcj,jpk/),e3t_id) CALL agrif_declare_variable((/1,2,0/),(/2,3,0/),(/'x','y','N'/),(/1,1,1/),(/nlci,nlcj,jpk/),umsk_id) CALL agrif_declare_variable((/2,1,0/),(/3,2,0/),(/'x','y','N'/),(/1,1,1/),(/nlci,nlcj,jpk/),vmsk_id) CALL agrif_declare_variable((/2,2,0,0/),(/3,3,0,0/),(/'x','y','N','N'/),(/1,1,1,1/),(/nlci,nlcj,jpk,3/),scales_t_id) CALL agrif_declare_variable((/1,2/),(/2,3/),(/'x','y'/),(/1,1/),(/nlci,nlcj/),unb_id) CALL agrif_declare_variable((/2,1/),(/3,2/),(/'x','y'/),(/1,1/),(/nlci,nlcj/),vnb_id) CALL agrif_declare_variable((/1,2/),(/2,3/),(/'x','y'/),(/1,1/),(/nlci,nlcj/),ub2b_interp_id) CALL agrif_declare_variable((/2,1/),(/3,2/),(/'x','y'/),(/1,1/),(/nlci,nlcj/),vb2b_interp_id) CALL agrif_declare_variable((/1,2/),(/2,3/),(/'x','y'/),(/1,1/),(/nlci,nlcj/),ub2b_update_id) CALL agrif_declare_variable((/2,1/),(/3,2/),(/'x','y'/),(/1,1/),(/nlci,nlcj/),vb2b_update_id) CALL agrif_declare_variable((/2,2/),(/3,3/),(/'x','y'/),(/1,1/),(/nlci,nlcj/),sshn_id) # if defined key_zdftke CALL agrif_declare_variable((/2,2,0/),(/3,3,0/),(/'x','y','N'/),(/1,1,1/),(/jpi,jpj,jpk/), en_id) CALL agrif_declare_variable((/2,2,0/),(/3,3,0/),(/'x','y','N'/),(/1,1,1/),(/jpi,jpj,jpk/),avt_id) CALL agrif_declare_variable((/2,2,0/),(/3,3,0/),(/'x','y','N'/),(/1,1,1/),(/jpi,jpj,jpk/),avm_id) # endif ! 2. Type of interpolation !------------------------- CALL Agrif_Set_bcinterp(tsn_id,interp=AGRIF_linear) CALL Agrif_Set_bcinterp(un_interp_id,interp1=Agrif_linear,interp2=AGRIF_ppm) CALL Agrif_Set_bcinterp(vn_interp_id,interp1=AGRIF_ppm,interp2=Agrif_linear) CALL Agrif_Set_bcinterp(tsn_sponge_id,interp=AGRIF_linear) CALL Agrif_Set_bcinterp(sshn_id,interp=AGRIF_linear) CALL Agrif_Set_bcinterp(unb_id,interp1=Agrif_linear,interp2=AGRIF_ppm) CALL Agrif_Set_bcinterp(vnb_id,interp1=AGRIF_ppm,interp2=Agrif_linear) CALL Agrif_Set_bcinterp(ub2b_interp_id,interp1=Agrif_linear,interp2=AGRIF_ppm) CALL Agrif_Set_bcinterp(vb2b_interp_id,interp1=AGRIF_ppm,interp2=Agrif_linear) CALL Agrif_Set_bcinterp(un_sponge_id,interp1=Agrif_linear,interp2=AGRIF_ppm) CALL Agrif_Set_bcinterp(vn_sponge_id,interp1=AGRIF_ppm,interp2=Agrif_linear) CALL Agrif_Set_bcinterp(e3t_id,interp=AGRIF_constant) CALL Agrif_Set_bcinterp(umsk_id,interp=AGRIF_constant) CALL Agrif_Set_bcinterp(vmsk_id,interp=AGRIF_constant) # if defined key_zdftke CALL Agrif_Set_bcinterp(avm_id ,interp=AGRIF_linear) # endif ! 3. Location of interpolation !----------------------------- CALL Agrif_Set_bc(tsn_id,(/0,1/)) CALL Agrif_Set_bc(un_interp_id,(/0,1/)) CALL Agrif_Set_bc(vn_interp_id,(/0,1/)) ! CALL Agrif_Set_bc(tsn_sponge_id,(/-3*Agrif_irhox(),0/)) ! CALL Agrif_Set_bc(un_sponge_id,(/-2*Agrif_irhox()-1,0/)) ! CALL Agrif_Set_bc(vn_sponge_id,(/-2*Agrif_irhox()-1,0/)) CALL Agrif_Set_bc(tsn_sponge_id,(/-nn_sponge_len*Agrif_irhox()-1,0/)) CALL Agrif_Set_bc(un_sponge_id ,(/-nn_sponge_len*Agrif_irhox()-1,0/)) CALL Agrif_Set_bc(vn_sponge_id ,(/-nn_sponge_len*Agrif_irhox()-1,0/)) CALL Agrif_Set_bc(sshn_id,(/0,0/)) CALL Agrif_Set_bc(unb_id ,(/0,0/)) CALL Agrif_Set_bc(vnb_id ,(/0,0/)) CALL Agrif_Set_bc(ub2b_interp_id,(/0,0/)) CALL Agrif_Set_bc(vb2b_interp_id,(/0,0/)) CALL Agrif_Set_bc(e3t_id,(/-2*Agrif_irhox()-1,0/)) ! if west and rhox=3: column 2 to 9 CALL Agrif_Set_bc(umsk_id,(/0,0/)) CALL Agrif_Set_bc(vmsk_id,(/0,0/)) # if defined key_zdftke CALL Agrif_Set_bc(avm_id ,(/0,1/)) # endif ! 5. Update type !--------------- CALL Agrif_Set_Updatetype(tsn_id, update = AGRIF_Update_Average) CALL Agrif_Set_Updatetype(scales_t_id, update = AGRIF_Update_Average) CALL Agrif_Set_Updatetype(un_update_id,update1 = Agrif_Update_Copy, update2 = Agrif_Update_Average) CALL Agrif_Set_Updatetype(vn_update_id,update1 = Agrif_Update_Average, update2 = Agrif_Update_Copy) CALL Agrif_Set_Updatetype(sshn_id, update = AGRIF_Update_Average) CALL Agrif_Set_Updatetype(ub2b_update_id,update1 = Agrif_Update_Copy, update2 = Agrif_Update_Average) CALL Agrif_Set_Updatetype(vb2b_update_id,update1 = Agrif_Update_Average, update2 = Agrif_Update_Copy) # if defined key_zdftke CALL Agrif_Set_Updatetype( en_id, update = AGRIF_Update_Average) CALL Agrif_Set_Updatetype(avt_id, update = AGRIF_Update_Average) CALL Agrif_Set_Updatetype(avm_id, update = AGRIF_Update_Average) # endif ! High order updates ! CALL Agrif_Set_Updatetype(tsn_id, update = Agrif_Update_Full_Weighting) ! CALL Agrif_Set_Updatetype(un_update_id,update1 = Agrif_Update_Average, update2 = Agrif_Update_Full_Weighting) ! CALL Agrif_Set_Updatetype(vn_update_id,update1 = Agrif_Update_Full_Weighting, update2 = Agrif_Update_Average) ! ! CALL Agrif_Set_Updatetype(ub2b_update_id,update1 = Agrif_Update_Average, update2 = Agrif_Update_Full_Weighting) ! CALL Agrif_Set_Updatetype(vb2b_update_id,update1 = Agrif_Update_Full_Weighting, update2 = Agrif_Update_Average) ! CALL Agrif_Set_Updatetype(sshn_id, update = Agrif_Update_Full_Weighting) ! END SUBROUTINE agrif_declare_var # endif # if defined key_lim2 SUBROUTINE Agrif_InitValues_cont_lim2 !!---------------------------------------------------------------------- !! *** ROUTINE Agrif_InitValues_cont_lim2 *** !! !! ** Purpose :: Initialisation of variables to be interpolated for LIM2 !!---------------------------------------------------------------------- USE Agrif_Util USE ice_2 USE agrif_ice USE in_out_manager USE agrif_lim2_update USE agrif_lim2_interp USE lib_mpp ! IMPLICIT NONE ! !!---------------------------------------------------------------------- ! 1. Declaration of the type of variable which have to be interpolated !--------------------------------------------------------------------- CALL agrif_declare_var_lim2 ! 2. First interpolations of potentially non zero fields !------------------------------------------------------- Agrif_SpecialValue=-9999. Agrif_UseSpecialValue = .TRUE. ! Call Agrif_Bc_variable(zadv ,adv_ice_id ,calledweight=1.,procname=interp_adv_ice ) ! Call Agrif_Bc_variable(zvel ,u_ice_id ,calledweight=1.,procname=interp_u_ice ) ! Call Agrif_Bc_variable(zvel ,v_ice_id ,calledweight=1.,procname=interp_v_ice ) Agrif_SpecialValue=0. Agrif_UseSpecialValue = .FALSE. ! 3. Some controls !----------------- # if ! defined key_lim2_vp lim_nbstep = 1. CALL agrif_rhg_lim2_load CALL agrif_trp_lim2_load lim_nbstep = 0. # endif !RB mandatory but why ??? ! IF( nbclineupdate /= nn_fsbc .AND. nn_ice == 2 )THEN ! CALL ctl_warn ('With ice model on child grid, nbclineupdate is set to nn_fsbc') ! nbclineupdate = nn_fsbc ! ENDIF CALL Agrif_Update_lim2(0) ! END SUBROUTINE Agrif_InitValues_cont_lim2 SUBROUTINE agrif_declare_var_lim2 !!---------------------------------------------------------------------- !! *** ROUTINE agrif_declare_var_lim2 *** !! !! ** Purpose :: Declaration of variables to be interpolated for LIM2 !!---------------------------------------------------------------------- USE agrif_util USE ice_2 IMPLICIT NONE !!---------------------------------------------------------------------- ! 1. Declaration of the type of variable which have to be interpolated !--------------------------------------------------------------------- CALL agrif_declare_variable((/2,2,0/),(/3,3,0/),(/'x','y','N'/),(/1,1,1/),(/jpi,jpj, 7/),adv_ice_id ) # if defined key_lim2_vp CALL agrif_declare_variable((/1,1/),(/3,3/),(/'x','y'/),(/1,1/),(/jpi,jpj/),u_ice_id) CALL agrif_declare_variable((/1,1/),(/3,3/),(/'x','y'/),(/1,1/),(/jpi,jpj/),v_ice_id) # else CALL agrif_declare_variable((/1,2/),(/2,3/),(/'x','y'/),(/1,1/),(/jpi,jpj/),u_ice_id) CALL agrif_declare_variable((/2,1/),(/3,2/),(/'x','y'/),(/1,1/),(/jpi,jpj/),v_ice_id) # endif ! 2. Type of interpolation !------------------------- CALL Agrif_Set_bcinterp(adv_ice_id ,interp=AGRIF_linear) CALL Agrif_Set_bcinterp(u_ice_id,interp1=Agrif_linear,interp2=AGRIF_ppm) CALL Agrif_Set_bcinterp(v_ice_id,interp1=AGRIF_ppm,interp2=Agrif_linear) ! 3. Location of interpolation !----------------------------- CALL Agrif_Set_bc(adv_ice_id ,(/0,1/)) CALL Agrif_Set_bc(u_ice_id,(/0,1/)) CALL Agrif_Set_bc(v_ice_id,(/0,1/)) ! 5. Update type !--------------- CALL Agrif_Set_Updatetype(adv_ice_id , update = AGRIF_Update_Average) CALL Agrif_Set_Updatetype(u_ice_id,update1 = Agrif_Update_Copy, update2 = Agrif_Update_Average) CALL Agrif_Set_Updatetype(v_ice_id,update1 = Agrif_Update_Average, update2 = Agrif_Update_Copy) ! END SUBROUTINE agrif_declare_var_lim2 # endif # if defined key_top SUBROUTINE Agrif_InitValues_cont_top !!---------------------------------------------------------------------- !! *** ROUTINE Agrif_InitValues_cont_top *** !! !! ** Purpose :: Declaration of variables to be interpolated !!---------------------------------------------------------------------- USE Agrif_Util USE oce USE dom_oce USE nemogcm USE par_trc USE lib_mpp USE trc USE in_out_manager USE agrif_opa_sponge USE agrif_top_update USE agrif_top_interp USE agrif_top_sponge ! IMPLICIT NONE ! CHARACTER(len=10) :: cl_check1, cl_check2, cl_check3 LOGICAL :: check_namelist !!---------------------------------------------------------------------- ! 1. Declaration of the type of variable which have to be interpolated !--------------------------------------------------------------------- CALL agrif_declare_var_top ! 2. First interpolations of potentially non zero fields !------------------------------------------------------- Agrif_SpecialValue=0. Agrif_UseSpecialValue = .TRUE. CALL Agrif_Bc_variable(trn_id,calledweight=1.,procname=interptrn) Agrif_UseSpecialValue = .FALSE. CALL Agrif_Sponge tabspongedone_trn = .FALSE. CALL Agrif_Bc_variable(trn_sponge_id,calledweight=1.,procname=interptrn_sponge) ! reset tsa to zero tra(:,:,:,:) = 0. ! 3. Some controls !----------------- check_namelist = .TRUE. IF( check_namelist ) THEN # if defined key_offline ! Check time steps IF( NINT(Agrif_Rhot()) * NINT(rdt) .NE. Agrif_Parent(rdt) ) THEN WRITE(cl_check1,*) Agrif_Parent(rdt) WRITE(cl_check2,*) rdt WRITE(cl_check3,*) rdt*Agrif_Rhot() CALL ctl_warn( 'incompatible time step between grids', & & 'parent grid value : '//cl_check1 , & & 'child grid value : '//cl_check2 , & & 'value on child grid will be changed to & & :'//cl_check3 ) rdt=rdt*Agrif_Rhot() ENDIF ! Check run length IF( Agrif_IRhot() * (Agrif_Parent(nitend)- & Agrif_Parent(nit000)+1) .NE. (nitend-nit000+1) ) THEN WRITE(cl_check1,*) (Agrif_Parent(nit000)-1)*Agrif_IRhot() + 1 WRITE(cl_check2,*) Agrif_Parent(nitend) *Agrif_IRhot() CALL ctl_warn( 'incompatible run length between grids' , & & ' nit000 on fine grid will be change to : '//cl_check1, & & ' nitend on fine grid will be change to : '//cl_check2 ) nit000 = (Agrif_Parent(nit000)-1)*Agrif_IRhot() + 1 nitend = Agrif_Parent(nitend) *Agrif_IRhot() ENDIF ! Check coordinates IF( ln_zps ) THEN ! check parameters for partial steps IF( Agrif_Parent(e3zps_min) .NE. e3zps_min ) THEN WRITE(*,*) 'incompatible e3zps_min between grids' WRITE(*,*) 'parent grid :',Agrif_Parent(e3zps_min) WRITE(*,*) 'child grid :',e3zps_min WRITE(*,*) 'those values should be identical' STOP ENDIF IF( Agrif_Parent(e3zps_rat) .NE. e3zps_rat ) THEN WRITE(*,*) 'incompatible e3zps_rat between grids' WRITE(*,*) 'parent grid :',Agrif_Parent(e3zps_rat) WRITE(*,*) 'child grid :',e3zps_rat WRITE(*,*) 'those values should be identical' STOP ENDIF ENDIF # endif ! Check passive tracer cell IF( nn_dttrc .NE. 1 ) THEN WRITE(*,*) 'nn_dttrc should be equal to 1' ENDIF ENDIF CALL Agrif_Update_trc(0) ! Agrif_UseSpecialValueInUpdate = .FALSE. nbcline_trc = 0 ! END SUBROUTINE Agrif_InitValues_cont_top SUBROUTINE agrif_declare_var_top !!---------------------------------------------------------------------- !! *** ROUTINE agrif_declare_var_top *** !! !! ** Purpose :: Declaration of TOP variables to be interpolated !!---------------------------------------------------------------------- USE agrif_util USE agrif_oce USE dom_oce USE trc IMPLICIT NONE ! 1. Declaration of the type of variable which have to be interpolated !--------------------------------------------------------------------- CALL agrif_declare_variable((/2,2,0,0/),(/3,3,0,0/),(/'x','y','N','N'/),(/1,1,1,1/),(/nlci,nlcj,jpk,jptra/),trn_id) CALL agrif_declare_variable((/2,2,0,0/),(/3,3,0,0/),(/'x','y','N','N'/),(/1,1,1,1/),(/nlci,nlcj,jpk,jptra/),trn_sponge_id) ! 2. Type of interpolation !------------------------- CALL Agrif_Set_bcinterp(trn_id,interp=AGRIF_linear) CALL Agrif_Set_bcinterp(trn_sponge_id,interp=AGRIF_linear) ! 3. Location of interpolation !----------------------------- CALL Agrif_Set_bc(trn_id,(/0,1/)) ! CALL Agrif_Set_bc(trn_sponge_id,(/-3*Agrif_irhox(),0/)) CALL Agrif_Set_bc(trn_sponge_id,(/-nn_sponge_len*Agrif_irhox()-1,0/)) ! 5. Update type !--------------- CALL Agrif_Set_Updatetype(trn_id, update = AGRIF_Update_Average) ! Higher order update ! CALL Agrif_Set_Updatetype(tsn_id, update = Agrif_Update_Full_Weighting) ! END SUBROUTINE agrif_declare_var_top # endif SUBROUTINE Agrif_detect( kg, ksizex ) !!---------------------------------------------------------------------- !! *** ROUTINE Agrif_detect *** !!---------------------------------------------------------------------- ! INTEGER, DIMENSION(2) :: ksizex INTEGER, DIMENSION(ksizex(1),ksizex(2)) :: kg !!---------------------------------------------------------------------- ! RETURN ! END SUBROUTINE Agrif_detect SUBROUTINE agrif_nemo_init !!---------------------------------------------------------------------- !! *** ROUTINE agrif_init *** !!---------------------------------------------------------------------- USE agrif_oce USE agrif_ice USE in_out_manager USE lib_mpp IMPLICIT NONE ! INTEGER :: ios ! Local integer output status for namelist read INTEGER :: iminspon NAMELIST/namagrif/ nn_cln_update, rn_sponge_tra, rn_sponge_dyn, ln_spc_dyn, ln_chk_bathy !!-------------------------------------------------------------------------------------- ! REWIND( numnam_ref ) ! Namelist namagrif in reference namelist : AGRIF zoom READ ( numnam_ref, namagrif, IOSTAT = ios, ERR = 901) 901 IF( ios /= 0 ) CALL ctl_nam ( ios , 'namagrif in reference namelist', lwp ) REWIND( numnam_cfg ) ! Namelist namagrif in configuration namelist : AGRIF zoom READ ( numnam_cfg, namagrif, IOSTAT = ios, ERR = 902 ) 902 IF( ios /= 0 ) CALL ctl_nam ( ios , 'namagrif in configuration namelist', lwp ) IF(lwm) WRITE ( numond, namagrif ) ! IF(lwp) THEN ! control print WRITE(numout,*) WRITE(numout,*) 'agrif_nemo_init : AGRIF parameters' WRITE(numout,*) '~~~~~~~~~~~~~~~' WRITE(numout,*) ' Namelist namagrif : set AGRIF parameters' WRITE(numout,*) ' baroclinic update frequency nn_cln_update = ', nn_cln_update WRITE(numout,*) ' sponge coefficient for tracers rn_sponge_tra = ', rn_sponge_tra, ' s' WRITE(numout,*) ' sponge coefficient for dynamics rn_sponge_tra = ', rn_sponge_dyn, ' s' WRITE(numout,*) ' use special values for dynamics ln_spc_dyn = ', ln_spc_dyn WRITE(numout,*) ' check bathymetry ln_chk_bathy = ', ln_chk_bathy WRITE(numout,*) ENDIF ! ! convert DOCTOR namelist name into OLD names nbclineupdate = nn_cln_update visc_tra = rn_sponge_tra visc_dyn = rn_sponge_dyn ! ! Check sponge length: iminspon = MIN(FLOOR(REAL(jpiglo-4)/REAL(2*Agrif_irhox())), FLOOR(REAL(jpjglo-4)/REAL(2*Agrif_irhox())) ) IF (lk_mpp) iminspon = MIN(iminspon,FLOOR(REAL(jpi-2)/REAL(Agrif_irhox())), FLOOR(REAL(jpj-2)/REAL(Agrif_irhox())) ) IF (nn_sponge_len > iminspon) CALL ctl_stop('agrif sponge length is too large') ! IF( agrif_oce_alloc() > 0 ) CALL ctl_warn('agrif agrif_oce_alloc: allocation of arrays failed') # if defined key_lim2 IF( agrif_ice_alloc() > 0 ) CALL ctl_stop('agrif agrif_ice_alloc: allocation of arrays failed') # endif ! END SUBROUTINE agrif_nemo_init # if defined key_mpp_mpi SUBROUTINE Agrif_InvLoc( indloc, nprocloc, i, indglob ) !!---------------------------------------------------------------------- !! *** ROUTINE Agrif_detect *** !!---------------------------------------------------------------------- USE dom_oce IMPLICIT NONE ! INTEGER :: indglob, indloc, nprocloc, i !!---------------------------------------------------------------------- ! SELECT CASE( i ) CASE(1) ; indglob = indloc + nimppt(nprocloc+1) - 1 CASE(2) ; indglob = indloc + njmppt(nprocloc+1) - 1 CASE DEFAULT indglob = indloc END SELECT ! END SUBROUTINE Agrif_InvLoc SUBROUTINE Agrif_get_proc_info( imin, imax, jmin, jmax ) !!---------------------------------------------------------------------- !! *** ROUTINE Agrif_get_proc_info *** !!---------------------------------------------------------------------- USE par_oce IMPLICIT NONE ! INTEGER, INTENT(out) :: imin, imax INTEGER, INTENT(out) :: jmin, jmax !!---------------------------------------------------------------------- ! imin = nimppt(Agrif_Procrank+1) ! ????? jmin = njmppt(Agrif_Procrank+1) ! ????? imax = imin + jpi - 1 jmax = jmin + jpj - 1 ! END SUBROUTINE Agrif_get_proc_info SUBROUTINE Agrif_estimate_parallel_cost(imin, imax,jmin, jmax, nbprocs, grid_cost) !!---------------------------------------------------------------------- !! *** ROUTINE Agrif_estimate_parallel_cost *** !!---------------------------------------------------------------------- USE par_oce IMPLICIT NONE ! INTEGER, INTENT(in) :: imin, imax INTEGER, INTENT(in) :: jmin, jmax INTEGER, INTENT(in) :: nbprocs REAL(wp), INTENT(out) :: grid_cost !!---------------------------------------------------------------------- ! grid_cost = REAL(imax-imin+1,wp)*REAL(jmax-jmin+1,wp) / REAL(nbprocs,wp) ! END SUBROUTINE Agrif_estimate_parallel_cost # endif #else SUBROUTINE Subcalledbyagrif !!---------------------------------------------------------------------- !! *** ROUTINE Subcalledbyagrif *** !!---------------------------------------------------------------------- WRITE(*,*) 'Impossible to be here' END SUBROUTINE Subcalledbyagrif #endif