- Timestamp:
- 2016-01-08T10:35:19+01:00 (8 years ago)
- File:
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- 1 edited
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branches/2014/dev_r4704_NOC5_MPP_BDY_UPDATE/NEMOGCM/NEMO/NST_SRC/agrif_user.F90
r4624 r6225 1 1 #if defined key_agrif 2 2 !!---------------------------------------------------------------------- 3 !! NEMO/NST 3. 4 , NEMO Consortium (2012)3 !! NEMO/NST 3.7 , NEMO Consortium (2015) 4 4 !! $Id$ 5 5 !! Software governed by the CeCILL licence (NEMOGCM/NEMO_CeCILL.txt) … … 17 17 USE par_oce 18 18 USE dom_oce 19 USE Agrif_Util20 19 USE nemogcm 21 20 ! … … 31 30 jpi = ( jpiglo-2*jpreci + (jpni-1+0) ) / jpni + 2*jpreci 32 31 jpj = ( jpjglo-2*jprecj + (jpnj-1+0) ) / jpnj + 2*jprecj 33 jpk = jpkdta 32 ! JC: change to allow for different vertical levels 33 ! jpk is already set 34 ! keep it jpk possibly different from jpkdta which 35 ! hold parent grid vertical levels number (set earlier) 36 ! jpk = jpkdta 34 37 jpim1 = jpi-1 35 38 jpjm1 = jpj-1 … … 64 67 ! 0. Initializations 65 68 !------------------- 66 IF( cp_cfg == 'orca' ) then69 IF( cp_cfg == 'orca' ) THEN 67 70 IF ( jp_cfg == 2 .OR. jp_cfg == 025 .OR. jp_cfg == 05 & 68 & .OR. jp_cfg == 4 ) THEN71 & .OR. jp_cfg == 4 ) THEN 69 72 jp_cfg = -1 ! set special value for jp_cfg on fine grids 70 73 cp_cfg = "default" … … 101 104 USE dom_oce 102 105 USE nemogcm 103 USE sol_oce104 106 USE in_out_manager 105 107 USE agrif_opa_update … … 120 122 SUBROUTINE agrif_declare_var_dom 121 123 !!---------------------------------------------------------------------- 122 !! *** ROUTINE agrif_declar E_var ***124 !! *** ROUTINE agrif_declare_var *** 123 125 !! 124 126 !! ** Purpose :: Declaration of variables to be interpolated 125 127 !!---------------------------------------------------------------------- 126 128 USE agrif_util 127 USE par_oce ! ONLY : jpts129 USE par_oce 128 130 USE oce 129 131 IMPLICIT NONE … … 132 134 ! 1. Declaration of the type of variable which have to be interpolated 133 135 !--------------------------------------------------------------------- 134 CALL agrif_declare_variable((/1,2/),(/2,3/),(/'x','y'/),(/1,1/),(/jpi,jpj/),e1u_id) 135 CALL agrif_declare_variable((/2,1/),(/3,2/),(/'x','y'/),(/1,1/),(/jpi,jpj/),e2v_id) 136 136 CALL agrif_declare_variable((/1,2/),(/2,3/),(/'x','y'/),(/1,1/),(/nlci,nlcj/),e1u_id) 137 CALL agrif_declare_variable((/2,1/),(/3,2/),(/'x','y'/),(/1,1/),(/nlci,nlcj/),e2v_id) 137 138 138 139 ! 2. Type of interpolation 139 140 !------------------------- 140 C allAgrif_Set_bcinterp(e1u_id,interp1=Agrif_linear,interp2=AGRIF_ppm)141 C allAgrif_Set_bcinterp(e2v_id,interp1=AGRIF_ppm,interp2=Agrif_linear)141 CALL Agrif_Set_bcinterp(e1u_id,interp1=Agrif_linear,interp2=AGRIF_ppm) 142 CALL Agrif_Set_bcinterp(e2v_id,interp1=AGRIF_ppm,interp2=Agrif_linear) 142 143 143 144 ! 3. Location of interpolation 144 145 !----------------------------- 145 C allAgrif_Set_bc(e1u_id,(/0,0/))146 C allAgrif_Set_bc(e2v_id,(/0,0/))146 CALL Agrif_Set_bc(e1u_id,(/0,0/)) 147 CALL Agrif_Set_bc(e2v_id,(/0,0/)) 147 148 148 149 ! 5. Update type 149 150 !--------------- 150 Call Agrif_Set_Updatetype(e1u_id,update1 = Agrif_Update_Copy, update2=Agrif_Update_Average) 151 Call Agrif_Set_Updatetype(e2v_id,update1 = Agrif_Update_Average, update2=Agrif_Update_Copy) 152 151 CALL Agrif_Set_Updatetype(e1u_id,update1 = Agrif_Update_Copy, update2=Agrif_Update_Average) 152 CALL Agrif_Set_Updatetype(e2v_id,update1 = Agrif_Update_Average, update2=Agrif_Update_Copy) 153 154 ! High order updates 155 ! CALL Agrif_Set_Updatetype(e1u_id,update1 = Agrif_Update_Average, update2=Agrif_Update_Full_Weighting) 156 ! CALL Agrif_Set_Updatetype(e2v_id,update1 = Agrif_Update_Full_Weighting, update2=Agrif_Update_Average) 157 ! 153 158 END SUBROUTINE agrif_declare_var_dom 154 159 … … 166 171 USE dom_oce 167 172 USE nemogcm 168 USE sol_oce173 USE lib_mpp 169 174 USE in_out_manager 170 175 USE agrif_opa_update … … 174 179 IMPLICIT NONE 175 180 ! 176 REAL(wp), DIMENSION(:,:,:,:), ALLOCATABLE :: tabtstemp177 REAL(wp), DIMENSION(:,:,: ), ALLOCATABLE :: tabuvtemp178 REAL(wp), DIMENSION(:,: ), ALLOCATABLE :: tab2d179 181 LOGICAL :: check_namelist 180 !!---------------------------------------------------------------------- 181 182 ALLOCATE( tabtstemp(jpi, jpj, jpk, jpts) ) 183 ALLOCATE( tabuvtemp(jpi, jpj, jpk) ) 184 ALLOCATE( tab2d(jpi, jpj) ) 185 182 CHARACTER(len=15) :: cl_check1, cl_check2, cl_check3 183 !!---------------------------------------------------------------------- 186 184 187 185 ! 1. Declaration of the type of variable which have to be interpolated … … 193 191 Agrif_SpecialValue=0. 194 192 Agrif_UseSpecialValue = .TRUE. 195 Call Agrif_Bc_variable(tabtstemp,tsn_id,calledweight=1.,procname=interptsn) 196 Call Agrif_Bc_variable(tabtstemp,tsa_id,calledweight=1.,procname=interptsn) 197 198 Call Agrif_Bc_variable(tabuvtemp,un_id,calledweight=1.,procname=interpu) 199 Call Agrif_Bc_variable(tabuvtemp,vn_id,calledweight=1.,procname=interpv) 200 Call Agrif_Bc_variable(tabuvtemp,ua_id,calledweight=1.,procname=interpun) 201 Call Agrif_Bc_variable(tabuvtemp,va_id,calledweight=1.,procname=interpvn) 202 203 Call Agrif_Bc_variable(tab2d,unb_id,calledweight=1.,procname=interpunb) 204 Call Agrif_Bc_variable(tab2d,vnb_id,calledweight=1.,procname=interpvnb) 205 Call Agrif_Bc_variable(tab2d,sshn_id,calledweight=1.,procname=interpsshn) 206 Agrif_UseSpecialValue = .FALSE. 193 CALL Agrif_Bc_variable(tsn_id,calledweight=1.,procname=interptsn) 194 CALL Agrif_Sponge 195 tabspongedone_tsn = .FALSE. 196 CALL Agrif_Bc_variable(tsn_sponge_id,calledweight=1.,procname=interptsn_sponge) 197 ! reset tsa to zero 198 tsa(:,:,:,:) = 0. 199 200 Agrif_UseSpecialValue = ln_spc_dyn 201 CALL Agrif_Bc_variable(un_interp_id,calledweight=1.,procname=interpun) 202 CALL Agrif_Bc_variable(vn_interp_id,calledweight=1.,procname=interpvn) 203 tabspongedone_u = .FALSE. 204 tabspongedone_v = .FALSE. 205 CALL Agrif_Bc_variable(un_sponge_id,calledweight=1.,procname=interpun_sponge) 206 tabspongedone_u = .FALSE. 207 tabspongedone_v = .FALSE. 208 CALL Agrif_Bc_variable(vn_sponge_id,calledweight=1.,procname=interpvn_sponge) 209 210 Agrif_UseSpecialValue = .TRUE. 211 CALL Agrif_Bc_variable(sshn_id,calledweight=1., procname=interpsshn ) 212 213 IF ( ln_dynspg_ts ) THEN 214 Agrif_UseSpecialValue = ln_spc_dyn 215 CALL Agrif_Bc_variable(unb_id,calledweight=1.,procname=interpunb) 216 CALL Agrif_Bc_variable(vnb_id,calledweight=1.,procname=interpvnb) 217 CALL Agrif_Bc_variable(ub2b_interp_id,calledweight=1.,procname=interpub2b) 218 CALL Agrif_Bc_variable(vb2b_interp_id,calledweight=1.,procname=interpvb2b) 219 ubdy_w(:) = 0.e0 ; vbdy_w(:) = 0.e0 ; hbdy_w(:) =0.e0 220 ubdy_e(:) = 0.e0 ; vbdy_e(:) = 0.e0 ; hbdy_e(:) =0.e0 221 ubdy_n(:) = 0.e0 ; vbdy_n(:) = 0.e0 ; hbdy_n(:) =0.e0 222 ubdy_s(:) = 0.e0 ; vbdy_s(:) = 0.e0 ; hbdy_s(:) =0.e0 223 ENDIF 224 225 Agrif_UseSpecialValue = .FALSE. 226 ! reset velocities to zero 227 ua(:,:,:) = 0. 228 va(:,:,:) = 0. 207 229 208 230 ! 3. Some controls 209 231 !----------------- 210 check_namelist = . true.211 212 IF( check_namelist ) THEN 232 check_namelist = .TRUE. 233 234 IF( check_namelist ) THEN 213 235 214 236 ! Check time steps 215 IF( NINT(Agrif_Rhot()) * nint(rdt) /= Agrif_Parent(rdt) ) THEN 216 WRITE(*,*) 'incompatible time step between grids' 217 WRITE(*,*) 'parent grid value : ',Agrif_Parent(rdt) 218 WRITE(*,*) 'child grid value : ',nint(rdt) 219 WRITE(*,*) 'value on parent grid should be : ',rdt*Agrif_Rhot() 220 STOP 237 IF( NINT(Agrif_Rhot()) * NINT(rdt) .NE. Agrif_Parent(rdt) ) THEN 238 WRITE(cl_check1,*) NINT(Agrif_Parent(rdt)) 239 WRITE(cl_check2,*) NINT(rdt) 240 WRITE(cl_check3,*) NINT(Agrif_Parent(rdt)/Agrif_Rhot()) 241 CALL ctl_warn( 'incompatible time step between grids', & 242 & 'parent grid value : '//cl_check1 , & 243 & 'child grid value : '//cl_check2 , & 244 & 'value on child grid will be changed to : '//cl_check3 ) 245 rdt=Agrif_Parent(rdt)/Agrif_Rhot() 221 246 ENDIF 222 247 223 248 ! Check run length 224 249 IF( Agrif_IRhot() * (Agrif_Parent(nitend)- & 225 Agrif_Parent(nit000)+1) .ne. (nitend-nit000+1) ) THEN 226 WRITE(*,*) 'incompatible run length between grids' 227 WRITE(*,*) 'parent grid value : ',(Agrif_Parent(nitend)- & 228 Agrif_Parent(nit000)+1),' time step' 229 WRITE(*,*) 'child grid value : ', & 230 (nitend-nit000+1),' time step' 231 WRITE(*,*) 'value on child grid should be : ', & 232 Agrif_IRhot() * (Agrif_Parent(nitend)- & 233 Agrif_Parent(nit000)+1) 234 STOP 250 Agrif_Parent(nit000)+1) .NE. (nitend-nit000+1) ) THEN 251 WRITE(cl_check1,*) (Agrif_Parent(nit000)-1)*Agrif_IRhot() + 1 252 WRITE(cl_check2,*) Agrif_Parent(nitend) *Agrif_IRhot() 253 CALL ctl_warn( 'incompatible run length between grids' , & 254 & ' nit000 on fine grid will be change to : '//cl_check1, & 255 & ' nitend on fine grid will be change to : '//cl_check2 ) 256 nit000 = (Agrif_Parent(nit000)-1)*Agrif_IRhot() + 1 257 nitend = Agrif_Parent(nitend) *Agrif_IRhot() 235 258 ENDIF 236 259 … … 238 261 IF( ln_zps ) THEN 239 262 ! check parameters for partial steps 240 IF( Agrif_Parent(e3zps_min) . ne. e3zps_min ) THEN263 IF( Agrif_Parent(e3zps_min) .NE. e3zps_min ) THEN 241 264 WRITE(*,*) 'incompatible e3zps_min between grids' 242 265 WRITE(*,*) 'parent grid :',Agrif_Parent(e3zps_min) … … 253 276 ENDIF 254 277 ENDIF 278 279 ! Check free surface scheme 280 IF ( ( Agrif_Parent(ln_dynspg_ts ).AND.ln_dynspg_exp ).OR.& 281 & ( Agrif_Parent(ln_dynspg_exp).AND.ln_dynspg_ts ) ) THEN 282 WRITE(*,*) 'incompatible free surface scheme between grids' 283 WRITE(*,*) 'parent grid ln_dynspg_ts :', Agrif_Parent(ln_dynspg_ts ) 284 WRITE(*,*) 'parent grid ln_dynspg_exp :', Agrif_Parent(ln_dynspg_exp) 285 WRITE(*,*) 'child grid ln_dynspg_ts :', ln_dynspg_ts 286 WRITE(*,*) 'child grid ln_dynspg_exp :', ln_dynspg_exp 287 WRITE(*,*) 'those logicals should be identical' 288 STOP 289 ENDIF 290 291 ! check if masks and bathymetries match 292 IF(ln_chk_bathy) THEN 293 ! 294 IF(lwp) WRITE(numout,*) 'AGRIF: Check Bathymetry and masks near bdys. Level: ', Agrif_Level() 295 ! 296 kindic_agr = 0 297 ! check if umask agree with parent along western and eastern boundaries: 298 CALL Agrif_Bc_variable(umsk_id,calledweight=1.,procname=interpumsk) 299 ! check if vmask agree with parent along northern and southern boundaries: 300 CALL Agrif_Bc_variable(vmsk_id,calledweight=1.,procname=interpvmsk) 301 ! check if tmask and vertical scale factors agree with parent over first two coarse grid points: 302 CALL Agrif_Bc_variable(e3t_id,calledweight=1.,procname=interpe3t) 303 ! 304 IF (lk_mpp) CALL mpp_sum( kindic_agr ) 305 IF( kindic_agr /= 0 ) THEN 306 CALL ctl_stop('Child Bathymetry is not correct near boundaries.') 307 ELSE 308 IF(lwp) WRITE(numout,*) 'Child Bathymetry is ok near boundaries.' 309 END IF 310 ENDIF 311 ! 255 312 ENDIF 256 257 CALL Agrif_Update_tra(0) 258 CALL Agrif_Update_dyn(0) 259 313 ! 314 ! Do update at initialisation because not done before writing restarts 315 ! This would indeed change boundary conditions values at initial time 316 ! hence produce restartability issues. 317 ! Note that update below is recursive (with lk_agrif_doupd=T): 318 ! 319 ! JC: I am not sure if Agrif_MaxLevel() is the "relative" 320 ! or the absolute maximum nesting level...TBC 321 IF ( Agrif_Level().EQ.Agrif_MaxLevel() ) THEN 322 ! NB: Do tracers first, dynamics after because nbcline incremented in dynamics 323 CALL Agrif_Update_tra() 324 CALL Agrif_Update_dyn() 325 ENDIF 326 ! 327 # if defined key_zdftke 328 CALL Agrif_Update_tke(0) 329 # endif 330 ! 331 Agrif_UseSpecialValueInUpdate = .FALSE. 260 332 nbcline = 0 261 ! 262 DEALLOCATE(tabtstemp) 263 DEALLOCATE(tabuvtemp) 264 DEALLOCATE(tab2d) 333 lk_agrif_doupd = .FALSE. 265 334 ! 266 335 END SUBROUTINE Agrif_InitValues_cont … … 276 345 USE par_oce ! ONLY : jpts 277 346 USE oce 347 USE agrif_oce 278 348 IMPLICIT NONE 279 349 !!---------------------------------------------------------------------- … … 281 351 ! 1. Declaration of the type of variable which have to be interpolated 282 352 !--------------------------------------------------------------------- 283 CALL agrif_declare_variable((/2,2,0,0/),(/3,3,0,0/),(/'x','y','N','N'/),(/1,1,1,1/),(/jpi,jpj,jpk,jpts/),tsn_id) 284 CALL agrif_declare_variable((/2,2,0,0/),(/3,3,0,0/),(/'x','y','N','N'/),(/1,1,1,1/),(/jpi,jpj,jpk,jpts/),tsa_id) 285 CALL agrif_declare_variable((/2,2,0,0/),(/3,3,0,0/),(/'x','y','N','N'/),(/1,1,1,1/),(/jpi,jpj,jpk,jpts/),tsb_id) 286 287 CALL agrif_declare_variable((/1,2,0/),(/2,3,0/),(/'x','y','N'/),(/1,1,1/),(/jpi,jpj,jpk/),un_id) 288 CALL agrif_declare_variable((/2,1,0/),(/3,2,0/),(/'x','y','N'/),(/1,1,1/),(/jpi,jpj,jpk/),vn_id) 289 CALL agrif_declare_variable((/1,2,0/),(/2,3,0/),(/'x','y','N'/),(/1,1,1/),(/jpi,jpj,jpk/),ua_id) 290 CALL agrif_declare_variable((/2,1,0/),(/3,2,0/),(/'x','y','N'/),(/1,1,1/),(/jpi,jpj,jpk/),va_id) 291 292 CALL agrif_declare_variable((/1,2/),(/2,3/),(/'x','y'/),(/1,1/),(/jpi,jpj/),unb_id) 293 CALL agrif_declare_variable((/2,1/),(/3,2/),(/'x','y'/),(/1,1/),(/jpi,jpj/),vnb_id) 294 CALL agrif_declare_variable((/2,2/),(/3,3/),(/'x','y'/),(/1,1/),(/jpi,jpj/),sshn_id) 295 CALL agrif_declare_variable((/2,2/),(/3,3/),(/'x','y'/),(/1,1/),(/jpi,jpj/),gcb_id) 296 CALL agrif_declare_variable((/1,2/),(/2,3/),(/'x','y'/),(/1,1/),(/jpi,jpj/),ub2b_id) 297 CALL agrif_declare_variable((/2,1/),(/3,2/),(/'x','y'/),(/1,1/),(/jpi,jpj/),vb2b_id) 353 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) 354 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) 355 356 CALL agrif_declare_variable((/1,2,0/),(/2,3,0/),(/'x','y','N'/),(/1,1,1/),(/nlci,nlcj,jpk/),un_interp_id) 357 CALL agrif_declare_variable((/2,1,0/),(/3,2,0/),(/'x','y','N'/),(/1,1,1/),(/nlci,nlcj,jpk/),vn_interp_id) 358 CALL agrif_declare_variable((/1,2,0/),(/2,3,0/),(/'x','y','N'/),(/1,1,1/),(/nlci,nlcj,jpk/),un_update_id) 359 CALL agrif_declare_variable((/2,1,0/),(/3,2,0/),(/'x','y','N'/),(/1,1,1/),(/nlci,nlcj,jpk/),vn_update_id) 360 CALL agrif_declare_variable((/1,2,0/),(/2,3,0/),(/'x','y','N'/),(/1,1,1/),(/nlci,nlcj,jpk/),un_sponge_id) 361 CALL agrif_declare_variable((/2,1,0/),(/3,2,0/),(/'x','y','N'/),(/1,1,1/),(/nlci,nlcj,jpk/),vn_sponge_id) 362 363 CALL agrif_declare_variable((/2,2,0/),(/3,3,0/),(/'x','y','N'/),(/1,1,1/),(/nlci,nlcj,jpk/),e3t_id) 364 CALL agrif_declare_variable((/1,2,0/),(/2,3,0/),(/'x','y','N'/),(/1,1,1/),(/nlci,nlcj,jpk/),umsk_id) 365 CALL agrif_declare_variable((/2,1,0/),(/3,2,0/),(/'x','y','N'/),(/1,1,1/),(/nlci,nlcj,jpk/),vmsk_id) 366 367 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) 368 369 CALL agrif_declare_variable((/1,2/),(/2,3/),(/'x','y'/),(/1,1/),(/nlci,nlcj/),unb_id) 370 CALL agrif_declare_variable((/2,1/),(/3,2/),(/'x','y'/),(/1,1/),(/nlci,nlcj/),vnb_id) 371 CALL agrif_declare_variable((/1,2/),(/2,3/),(/'x','y'/),(/1,1/),(/nlci,nlcj/),ub2b_interp_id) 372 CALL agrif_declare_variable((/2,1/),(/3,2/),(/'x','y'/),(/1,1/),(/nlci,nlcj/),vb2b_interp_id) 373 CALL agrif_declare_variable((/1,2/),(/2,3/),(/'x','y'/),(/1,1/),(/nlci,nlcj/),ub2b_update_id) 374 CALL agrif_declare_variable((/2,1/),(/3,2/),(/'x','y'/),(/1,1/),(/nlci,nlcj/),vb2b_update_id) 375 376 CALL agrif_declare_variable((/2,2/),(/3,3/),(/'x','y'/),(/1,1/),(/nlci,nlcj/),sshn_id) 377 378 # if defined key_zdftke 379 CALL agrif_declare_variable((/2,2,0/),(/3,3,0/),(/'x','y','N'/),(/1,1,1/),(/jpi,jpj,jpk/), en_id) 380 CALL agrif_declare_variable((/2,2,0/),(/3,3,0/),(/'x','y','N'/),(/1,1,1/),(/jpi,jpj,jpk/),avt_id) 381 CALL agrif_declare_variable((/2,2,0/),(/3,3,0/),(/'x','y','N'/),(/1,1,1/),(/jpi,jpj,jpk/),avm_id) 382 # endif 298 383 299 384 ! 2. Type of interpolation 300 385 !------------------------- 301 386 CALL Agrif_Set_bcinterp(tsn_id,interp=AGRIF_linear) 302 CALL Agrif_Set_bcinterp(tsa_id,interp=AGRIF_linear) 303 304 Call Agrif_Set_bcinterp(un_id,interp1=Agrif_linear,interp2=AGRIF_ppm) 305 Call Agrif_Set_bcinterp(vn_id,interp1=AGRIF_ppm,interp2=Agrif_linear) 306 307 Call Agrif_Set_bcinterp(ua_id,interp1=Agrif_linear,interp2=AGRIF_ppm) 308 Call Agrif_Set_bcinterp(va_id,interp1=AGRIF_ppm,interp2=Agrif_linear) 387 388 CALL Agrif_Set_bcinterp(un_interp_id,interp1=Agrif_linear,interp2=AGRIF_ppm) 389 CALL Agrif_Set_bcinterp(vn_interp_id,interp1=AGRIF_ppm,interp2=Agrif_linear) 390 391 CALL Agrif_Set_bcinterp(tsn_sponge_id,interp=AGRIF_linear) 309 392 310 393 CALL Agrif_Set_bcinterp(sshn_id,interp=AGRIF_linear) 311 Call Agrif_Set_bcinterp(unb_id,interp1=Agrif_linear,interp2=AGRIF_ppm) 312 Call Agrif_Set_bcinterp(vnb_id,interp1=AGRIF_ppm,interp2=Agrif_linear) 313 Call Agrif_Set_bcinterp(ub2b_id,interp1=Agrif_linear,interp2=AGRIF_ppm) 314 Call Agrif_Set_bcinterp(vb2b_id,interp1=AGRIF_ppm,interp2=Agrif_linear) 394 CALL Agrif_Set_bcinterp(unb_id,interp1=Agrif_linear,interp2=AGRIF_ppm) 395 CALL Agrif_Set_bcinterp(vnb_id,interp1=AGRIF_ppm,interp2=Agrif_linear) 396 CALL Agrif_Set_bcinterp(ub2b_interp_id,interp1=Agrif_linear,interp2=AGRIF_ppm) 397 CALL Agrif_Set_bcinterp(vb2b_interp_id,interp1=AGRIF_ppm,interp2=Agrif_linear) 398 399 400 CALL Agrif_Set_bcinterp(un_sponge_id,interp1=Agrif_linear,interp2=AGRIF_ppm) 401 CALL Agrif_Set_bcinterp(vn_sponge_id,interp1=AGRIF_ppm,interp2=Agrif_linear) 402 403 CALL Agrif_Set_bcinterp(e3t_id,interp=AGRIF_constant) 404 CALL Agrif_Set_bcinterp(umsk_id,interp=AGRIF_constant) 405 CALL Agrif_Set_bcinterp(vmsk_id,interp=AGRIF_constant) 406 407 # if defined key_zdftke 408 CALL Agrif_Set_bcinterp(avm_id ,interp=AGRIF_linear) 409 # endif 410 315 411 316 412 ! 3. Location of interpolation 317 413 !----------------------------- 318 Call Agrif_Set_bc(un_id,(/0,1/)) 319 Call Agrif_Set_bc(vn_id,(/0,1/)) 320 321 Call Agrif_Set_bc(sshn_id,(/0,1/)) 322 Call Agrif_Set_bc(unb_id,(/0,1/)) 323 Call Agrif_Set_bc(vnb_id,(/0,1/)) 324 Call Agrif_Set_bc(ub2b_id,(/0,1/)) 325 Call Agrif_Set_bc(vb2b_id,(/0,1/)) 326 327 Call Agrif_Set_bc(tsn_id,(/0,1/)) 328 Call Agrif_Set_bc(tsa_id,(/-3*Agrif_irhox(),0/)) 329 330 Call Agrif_Set_bc(ua_id,(/-2*Agrif_irhox(),0/)) 331 Call Agrif_Set_bc(va_id,(/-2*Agrif_irhox(),0/)) 414 CALL Agrif_Set_bc(tsn_id,(/0,1/)) 415 CALL Agrif_Set_bc(un_interp_id,(/0,1/)) 416 CALL Agrif_Set_bc(vn_interp_id,(/0,1/)) 417 418 ! CALL Agrif_Set_bc(tsn_sponge_id,(/-3*Agrif_irhox(),0/)) 419 ! CALL Agrif_Set_bc(un_sponge_id,(/-2*Agrif_irhox()-1,0/)) 420 ! CALL Agrif_Set_bc(vn_sponge_id,(/-2*Agrif_irhox()-1,0/)) 421 CALL Agrif_Set_bc(tsn_sponge_id,(/-nn_sponge_len*Agrif_irhox()-1,0/)) 422 CALL Agrif_Set_bc(un_sponge_id ,(/-nn_sponge_len*Agrif_irhox()-1,0/)) 423 CALL Agrif_Set_bc(vn_sponge_id ,(/-nn_sponge_len*Agrif_irhox()-1,0/)) 424 425 CALL Agrif_Set_bc(sshn_id,(/0,0/)) 426 CALL Agrif_Set_bc(unb_id ,(/0,0/)) 427 CALL Agrif_Set_bc(vnb_id ,(/0,0/)) 428 CALL Agrif_Set_bc(ub2b_interp_id,(/0,0/)) 429 CALL Agrif_Set_bc(vb2b_interp_id,(/0,0/)) 430 431 CALL Agrif_Set_bc(e3t_id,(/-2*Agrif_irhox()-1,0/)) ! if west and rhox=3: column 2 to 9 432 CALL Agrif_Set_bc(umsk_id,(/0,0/)) 433 CALL Agrif_Set_bc(vmsk_id,(/0,0/)) 434 435 # if defined key_zdftke 436 CALL Agrif_Set_bc(avm_id ,(/0,1/)) 437 # endif 332 438 333 439 ! 5. Update type 334 440 !--------------- 335 Call Agrif_Set_Updatetype(tsn_id, update = AGRIF_Update_Average) 336 Call Agrif_Set_Updatetype(tsb_id, update = AGRIF_Update_Average) 337 338 Call Agrif_Set_Updatetype(sshn_id, update = AGRIF_Update_Average) 339 Call Agrif_Set_Updatetype(gcb_id,update = AGRIF_Update_Average) 340 341 Call Agrif_Set_Updatetype(un_id,update1 = Agrif_Update_Copy, update2 = Agrif_Update_Average) 342 Call Agrif_Set_Updatetype(vn_id,update1 = Agrif_Update_Average, update2 = Agrif_Update_Copy) 343 344 Call Agrif_Set_Updatetype(ub2b_id,update1 = Agrif_Update_Copy, update2 = Agrif_Update_Average) 345 Call Agrif_Set_Updatetype(vb2b_id,update1 = Agrif_Update_Average, update2 = Agrif_Update_Copy) 346 441 CALL Agrif_Set_Updatetype(tsn_id, update = AGRIF_Update_Average) 442 443 CALL Agrif_Set_Updatetype(scales_t_id, update = AGRIF_Update_Average) 444 445 CALL Agrif_Set_Updatetype(un_update_id,update1 = Agrif_Update_Copy, update2 = Agrif_Update_Average) 446 CALL Agrif_Set_Updatetype(vn_update_id,update1 = Agrif_Update_Average, update2 = Agrif_Update_Copy) 447 448 CALL Agrif_Set_Updatetype(sshn_id, update = AGRIF_Update_Average) 449 450 CALL Agrif_Set_Updatetype(ub2b_update_id,update1 = Agrif_Update_Copy, update2 = Agrif_Update_Average) 451 CALL Agrif_Set_Updatetype(vb2b_update_id,update1 = Agrif_Update_Average, update2 = Agrif_Update_Copy) 452 453 # if defined key_zdftke 454 CALL Agrif_Set_Updatetype( en_id, update = AGRIF_Update_Average) 455 CALL Agrif_Set_Updatetype(avt_id, update = AGRIF_Update_Average) 456 CALL Agrif_Set_Updatetype(avm_id, update = AGRIF_Update_Average) 457 # endif 458 459 ! High order updates 460 ! CALL Agrif_Set_Updatetype(tsn_id, update = Agrif_Update_Full_Weighting) 461 ! CALL Agrif_Set_Updatetype(un_update_id,update1 = Agrif_Update_Average, update2 = Agrif_Update_Full_Weighting) 462 ! CALL Agrif_Set_Updatetype(vn_update_id,update1 = Agrif_Update_Full_Weighting, update2 = Agrif_Update_Average) 463 ! 464 ! CALL Agrif_Set_Updatetype(ub2b_update_id,update1 = Agrif_Update_Average, update2 = Agrif_Update_Full_Weighting) 465 ! CALL Agrif_Set_Updatetype(vb2b_update_id,update1 = Agrif_Update_Full_Weighting, update2 = Agrif_Update_Average) 466 ! CALL Agrif_Set_Updatetype(sshn_id, update = Agrif_Update_Full_Weighting) 467 468 ! 347 469 END SUBROUTINE agrif_declare_var 348 470 # endif … … 365 487 IMPLICIT NONE 366 488 ! 367 REAL(wp), DIMENSION(:,:) , ALLOCATABLE :: zvel 368 REAL(wp), DIMENSION(:,:,:), ALLOCATABLE :: zadv 369 !!---------------------------------------------------------------------- 370 371 ALLOCATE( zvel(jpi,jpj), zadv(jpi,jpj,7)) 489 !!---------------------------------------------------------------------- 372 490 373 491 ! 1. Declaration of the type of variable which have to be interpolated … … 401 519 CALL Agrif_Update_lim2(0) 402 520 ! 403 DEALLOCATE( zvel, zadv )404 !405 521 END SUBROUTINE Agrif_InitValues_cont_lim2 406 522 … … 431 547 !------------------------- 432 548 CALL Agrif_Set_bcinterp(adv_ice_id ,interp=AGRIF_linear) 433 C allAgrif_Set_bcinterp(u_ice_id,interp1=Agrif_linear,interp2=AGRIF_ppm)434 C allAgrif_Set_bcinterp(v_ice_id,interp1=AGRIF_ppm,interp2=Agrif_linear)549 CALL Agrif_Set_bcinterp(u_ice_id,interp1=Agrif_linear,interp2=AGRIF_ppm) 550 CALL Agrif_Set_bcinterp(v_ice_id,interp1=AGRIF_ppm,interp2=Agrif_linear) 435 551 436 552 ! 3. Location of interpolation 437 553 !----------------------------- 438 C allAgrif_Set_bc(adv_ice_id ,(/0,1/))439 C allAgrif_Set_bc(u_ice_id,(/0,1/))440 C allAgrif_Set_bc(v_ice_id,(/0,1/))554 CALL Agrif_Set_bc(adv_ice_id ,(/0,1/)) 555 CALL Agrif_Set_bc(u_ice_id,(/0,1/)) 556 CALL Agrif_Set_bc(v_ice_id,(/0,1/)) 441 557 442 558 ! 5. Update type 443 559 !--------------- 444 C allAgrif_Set_Updatetype(adv_ice_id , update = AGRIF_Update_Average)445 C allAgrif_Set_Updatetype(u_ice_id,update1 = Agrif_Update_Copy, update2 = Agrif_Update_Average)446 C allAgrif_Set_Updatetype(v_ice_id,update1 = Agrif_Update_Average, update2 = Agrif_Update_Copy)447 560 CALL Agrif_Set_Updatetype(adv_ice_id , update = AGRIF_Update_Average) 561 CALL Agrif_Set_Updatetype(u_ice_id,update1 = Agrif_Update_Copy, update2 = Agrif_Update_Average) 562 CALL Agrif_Set_Updatetype(v_ice_id,update1 = Agrif_Update_Average, update2 = Agrif_Update_Copy) 563 ! 448 564 END SUBROUTINE agrif_declare_var_lim2 449 565 # endif … … 462 578 USE nemogcm 463 579 USE par_trc 580 USE lib_mpp 464 581 USE trc 465 582 USE in_out_manager 583 USE agrif_opa_sponge 466 584 USE agrif_top_update 467 585 USE agrif_top_interp … … 470 588 IMPLICIT NONE 471 589 ! 472 REAL(wp), DIMENSION(:,:,:,:), ALLOCATABLE :: tabtrtemp590 CHARACTER(len=10) :: cl_check1, cl_check2, cl_check3 473 591 LOGICAL :: check_namelist 474 592 !!---------------------------------------------------------------------- 475 476 ALLOCATE( tabtrtemp(jpi,jpj,jpk,jptra) )477 593 478 594 … … 485 601 Agrif_SpecialValue=0. 486 602 Agrif_UseSpecialValue = .TRUE. 487 Call Agrif_Bc_variable(tabtrtemp,trn_id,calledweight=1.,procname=interptrn) 488 Call Agrif_Bc_variable(tabtrtemp,tra_id,calledweight=1.,procname=interptrn) 603 CALL Agrif_Bc_variable(trn_id,calledweight=1.,procname=interptrn) 489 604 Agrif_UseSpecialValue = .FALSE. 605 CALL Agrif_Sponge 606 tabspongedone_trn = .FALSE. 607 CALL Agrif_Bc_variable(trn_sponge_id,calledweight=1.,procname=interptrn_sponge) 608 ! reset tsa to zero 609 tra(:,:,:,:) = 0. 610 490 611 491 612 ! 3. Some controls 492 613 !----------------- 493 check_namelist = . true.614 check_namelist = .TRUE. 494 615 495 616 IF( check_namelist ) THEN 496 # if defined offline617 # if defined key_offline 497 618 ! Check time steps 498 IF( nint(Agrif_Rhot()) * nint(rdt) .ne. Agrif_Parent(rdt) ) THEN 499 WRITE(*,*) 'incompatible time step between grids' 500 WRITE(*,*) 'parent grid value : ',Agrif_Parent(rdt) 501 WRITE(*,*) 'child grid value : ',nint(rdt) 502 WRITE(*,*) 'value on parent grid should be : ',rdt*Agrif_Rhot() 503 STOP 619 IF( NINT(Agrif_Rhot()) * NINT(rdt) .NE. Agrif_Parent(rdt) ) THEN 620 WRITE(cl_check1,*) Agrif_Parent(rdt) 621 WRITE(cl_check2,*) rdt 622 WRITE(cl_check3,*) rdt*Agrif_Rhot() 623 CALL ctl_warn( 'incompatible time step between grids', & 624 & 'parent grid value : '//cl_check1 , & 625 & 'child grid value : '//cl_check2 , & 626 & 'value on child grid will be changed to & 627 & :'//cl_check3 ) 628 rdt=rdt*Agrif_Rhot() 504 629 ENDIF 505 630 506 631 ! Check run length 507 632 IF( Agrif_IRhot() * (Agrif_Parent(nitend)- & 508 Agrif_Parent(nit000)+1) .ne. (nitend-nit000+1) ) THEN 509 WRITE(*,*) 'incompatible run length between grids' 510 WRITE(*,*) 'parent grid value : ',(Agrif_Parent(nitend)- & 511 Agrif_Parent(nit000)+1),' time step' 512 WRITE(*,*) 'child grid value : ', & 513 (nitend-nit000+1),' time step' 514 WRITE(*,*) 'value on child grid should be : ', & 515 Agrif_IRhot() * (Agrif_Parent(nitend)- & 516 Agrif_Parent(nit000)+1) 517 STOP 633 Agrif_Parent(nit000)+1) .NE. (nitend-nit000+1) ) THEN 634 WRITE(cl_check1,*) (Agrif_Parent(nit000)-1)*Agrif_IRhot() + 1 635 WRITE(cl_check2,*) Agrif_Parent(nitend) *Agrif_IRhot() 636 CALL ctl_warn( 'incompatible run length between grids' , & 637 & ' nit000 on fine grid will be change to : '//cl_check1, & 638 & ' nitend on fine grid will be change to : '//cl_check2 ) 639 nit000 = (Agrif_Parent(nit000)-1)*Agrif_IRhot() + 1 640 nitend = Agrif_Parent(nitend) *Agrif_IRhot() 518 641 ENDIF 519 642 … … 521 644 IF( ln_zps ) THEN 522 645 ! check parameters for partial steps 523 IF( Agrif_Parent(e3zps_min) . ne. e3zps_min ) THEN646 IF( Agrif_Parent(e3zps_min) .NE. e3zps_min ) THEN 524 647 WRITE(*,*) 'incompatible e3zps_min between grids' 525 648 WRITE(*,*) 'parent grid :',Agrif_Parent(e3zps_min) … … 528 651 STOP 529 652 ENDIF 530 IF( Agrif_Parent(e3zps_rat) . ne. e3zps_rat ) THEN653 IF( Agrif_Parent(e3zps_rat) .NE. e3zps_rat ) THEN 531 654 WRITE(*,*) 'incompatible e3zps_rat between grids' 532 655 WRITE(*,*) 'parent grid :',Agrif_Parent(e3zps_rat) … … 538 661 # endif 539 662 ! Check passive tracer cell 540 IF( nn_dttrc . ne. 1 ) THEN663 IF( nn_dttrc .NE. 1 ) THEN 541 664 WRITE(*,*) 'nn_dttrc should be equal to 1' 542 665 ENDIF 543 666 ENDIF 544 667 545 !ch CALL Agrif_Update_trc(0) 668 CALL Agrif_Update_trc(0) 669 ! 670 Agrif_UseSpecialValueInUpdate = .FALSE. 546 671 nbcline_trc = 0 547 !548 DEALLOCATE(tabtrtemp)549 672 ! 550 673 END SUBROUTINE Agrif_InitValues_cont_top … … 558 681 !!---------------------------------------------------------------------- 559 682 USE agrif_util 683 USE agrif_oce 560 684 USE dom_oce 561 685 USE trc … … 565 689 ! 1. Declaration of the type of variable which have to be interpolated 566 690 !--------------------------------------------------------------------- 567 CALL agrif_declare_variable((/2,2,0,0/),(/3,3,0,0/),(/'x','y','N','N'/),(/1,1,1,1/),(/jpi,jpj,jpk,jptra/),trn_id) 568 CALL agrif_declare_variable((/2,2,0,0/),(/3,3,0,0/),(/'x','y','N','N'/),(/1,1,1,1/),(/jpi,jpj,jpk,jptra/),trb_id) 569 CALL agrif_declare_variable((/2,2,0,0/),(/3,3,0,0/),(/'x','y','N','N'/),(/1,1,1,1/),(/jpi,jpj,jpk,jptra/),tra_id) 691 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) 692 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) 570 693 571 694 ! 2. Type of interpolation 572 695 !------------------------- 573 696 CALL Agrif_Set_bcinterp(trn_id,interp=AGRIF_linear) 574 CALL Agrif_Set_bcinterp(tr a_id,interp=AGRIF_linear)697 CALL Agrif_Set_bcinterp(trn_sponge_id,interp=AGRIF_linear) 575 698 576 699 ! 3. Location of interpolation 577 700 !----------------------------- 578 Call Agrif_Set_bc(trn_id,(/0,1/)) 579 Call Agrif_Set_bc(tra_id,(/-3*Agrif_irhox(),0/)) 701 CALL Agrif_Set_bc(trn_id,(/0,1/)) 702 ! CALL Agrif_Set_bc(trn_sponge_id,(/-3*Agrif_irhox(),0/)) 703 CALL Agrif_Set_bc(trn_sponge_id,(/-nn_sponge_len*Agrif_irhox()-1,0/)) 580 704 581 705 ! 5. Update type 582 706 !--------------- 583 Call Agrif_Set_Updatetype(trn_id, update = AGRIF_Update_Average) 584 Call Agrif_Set_Updatetype(trb_id, update = AGRIF_Update_Average) 585 586 707 CALL Agrif_Set_Updatetype(trn_id, update = AGRIF_Update_Average) 708 709 ! Higher order update 710 ! CALL Agrif_Set_Updatetype(tsn_id, update = Agrif_Update_Full_Weighting) 711 712 ! 587 713 END SUBROUTINE agrif_declare_var_top 588 714 # endif … … 592 718 !! *** ROUTINE Agrif_detect *** 593 719 !!---------------------------------------------------------------------- 594 USE Agrif_Types595 720 ! 596 721 INTEGER, DIMENSION(2) :: ksizex … … 614 739 ! 615 740 INTEGER :: ios ! Local integer output status for namelist read 616 NAMELIST/namagrif/ nn_cln_update, rn_sponge_tra, rn_sponge_dyn, ln_spc_dyn 617 !!---------------------------------------------------------------------- 618 ! 619 REWIND( numnam_ref ) ! Namelist namagrif in reference namelist : AGRIF zoom 620 READ ( numnam_ref, namagrif, IOSTAT = ios, ERR = 901) 621 901 IF( ios /= 0 ) CALL ctl_nam ( ios , 'namagrif in reference namelist', lwp ) 622 623 REWIND( numnam_cfg ) ! Namelist namagrif in configuration namelist : AGRIF zoom 624 READ ( numnam_cfg, namagrif, IOSTAT = ios, ERR = 902 ) 625 902 IF( ios /= 0 ) CALL ctl_nam ( ios , 'namagrif in configuration namelist', lwp ) 626 IF(lwm) WRITE ( numond, namagrif ) 741 INTEGER :: iminspon 742 NAMELIST/namagrif/ nn_cln_update, rn_sponge_tra, rn_sponge_dyn, ln_spc_dyn, ln_chk_bathy 743 !!-------------------------------------------------------------------------------------- 744 ! 745 REWIND( numnam_ref ) ! Namelist namagrif in reference namelist : AGRIF zoom 746 READ ( numnam_ref, namagrif, IOSTAT = ios, ERR = 901) 747 901 IF( ios /= 0 ) CALL ctl_nam ( ios , 'namagrif in reference namelist', lwp ) 748 749 REWIND( numnam_cfg ) ! Namelist namagrif in configuration namelist : AGRIF zoom 750 READ ( numnam_cfg, namagrif, IOSTAT = ios, ERR = 902 ) 751 902 IF( ios /= 0 ) CALL ctl_nam ( ios , 'namagrif in configuration namelist', lwp ) 752 IF(lwm) WRITE ( numond, namagrif ) 627 753 ! 628 754 IF(lwp) THEN ! control print … … 635 761 WRITE(numout,*) ' sponge coefficient for dynamics rn_sponge_tra = ', rn_sponge_dyn, ' s' 636 762 WRITE(numout,*) ' use special values for dynamics ln_spc_dyn = ', ln_spc_dyn 763 WRITE(numout,*) ' check bathymetry ln_chk_bathy = ', ln_chk_bathy 637 764 WRITE(numout,*) 638 765 ENDIF … … 643 770 visc_dyn = rn_sponge_dyn 644 771 ! 645 IF( agrif_oce_alloc() > 0 ) CALL ctl_warn('agrif sol_oce_alloc: allocation of arrays failed') 772 ! Check sponge length: 773 iminspon = MIN(FLOOR(REAL(jpiglo-4)/REAL(2*Agrif_irhox())), FLOOR(REAL(jpjglo-4)/REAL(2*Agrif_irhox())) ) 774 IF (lk_mpp) iminspon = MIN(iminspon,FLOOR(REAL(jpi-2)/REAL(Agrif_irhox())), FLOOR(REAL(jpj-2)/REAL(Agrif_irhox())) ) 775 IF (nn_sponge_len > iminspon) CALL ctl_stop('agrif sponge length is too large') 776 ! 777 IF( agrif_oce_alloc() > 0 ) CALL ctl_warn('agrif agrif_oce_alloc: allocation of arrays failed') 646 778 # if defined key_lim2 647 779 IF( agrif_ice_alloc() > 0 ) CALL ctl_stop('agrif agrif_ice_alloc: allocation of arrays failed') … … 664 796 SELECT CASE( i ) 665 797 CASE(1) ; indglob = indloc + nimppt(nprocloc+1) - 1 666 CASE(2) ; indglob = indloc + njmppt(nprocloc+1) - 1 667 CASE (3) ; indglob = indloc668 CASE(4) ;indglob = indloc798 CASE(2) ; indglob = indloc + njmppt(nprocloc+1) - 1 799 CASE DEFAULT 800 indglob = indloc 669 801 END SELECT 670 802 ! 671 803 END SUBROUTINE Agrif_InvLoc 804 805 SUBROUTINE Agrif_get_proc_info( imin, imax, jmin, jmax ) 806 !!---------------------------------------------------------------------- 807 !! *** ROUTINE Agrif_get_proc_info *** 808 !!---------------------------------------------------------------------- 809 USE par_oce 810 IMPLICIT NONE 811 ! 812 INTEGER, INTENT(out) :: imin, imax 813 INTEGER, INTENT(out) :: jmin, jmax 814 !!---------------------------------------------------------------------- 815 ! 816 imin = nimppt(Agrif_Procrank+1) ! ????? 817 jmin = njmppt(Agrif_Procrank+1) ! ????? 818 imax = imin + jpi - 1 819 jmax = jmin + jpj - 1 820 ! 821 END SUBROUTINE Agrif_get_proc_info 822 823 SUBROUTINE Agrif_estimate_parallel_cost(imin, imax,jmin, jmax, nbprocs, grid_cost) 824 !!---------------------------------------------------------------------- 825 !! *** ROUTINE Agrif_estimate_parallel_cost *** 826 !!---------------------------------------------------------------------- 827 USE par_oce 828 IMPLICIT NONE 829 ! 830 INTEGER, INTENT(in) :: imin, imax 831 INTEGER, INTENT(in) :: jmin, jmax 832 INTEGER, INTENT(in) :: nbprocs 833 REAL(wp), INTENT(out) :: grid_cost 834 !!---------------------------------------------------------------------- 835 ! 836 grid_cost = REAL(imax-imin+1,wp)*REAL(jmax-jmin+1,wp) / REAL(nbprocs,wp) 837 ! 838 END SUBROUTINE Agrif_estimate_parallel_cost 672 839 673 840 # endif
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