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traatf.F90 in NEMO/branches/2019/dev_r10721_KERNEL-02_Storkey_Coward_IMMERSE_first_steps_rewrite_time_filterswap/src/OCE/TRA – NEMO

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source: NEMO/branches/2019/dev_r10721_KERNEL-02_Storkey_Coward_IMMERSE_first_steps_rewrite_time_filterswap/src/OCE/TRA/traatf.F90 @ 11099

Last change on this file since 11099 was 11099, checked in by davestorkey, 5 years ago
dev_r10721_KERNEL-02_Storkey_Coward_IMMERSE_first_steps_rewrite_time_filterswap : Updates and bug fixes. This version still doesn't pass all SETTE tests.
Property svn:keywords set to `Id`
File size: 19.5 KB

Rev	Line
[11057]	1	MODULE traatf
[3]	2	!!======================================================================
[11057]	3	!! * MODULE traatf *
[3]	4	!! Ocean active tracers: time stepping on temperature and salinity
	5	!!======================================================================
[1110]	6	!! History : OPA ! 1991-11 (G. Madec) Original code
	7	!! 7.0 ! 1993-03 (M. Guyon) symetrical conditions
	8	!! 8.0 ! 1996-02 (G. Madec & M. Imbard) opa release 8.0
	9	!! - ! 1996-04 (A. Weaver) Euler forward step
	10	!! 8.2 ! 1999-02 (G. Madec, N. Grima) semi-implicit pressure grad.
	11	!! NEMO 1.0 ! 2002-08 (G. Madec) F90: Free form and module
	12	!! - ! 2002-11 (C. Talandier, A-M Treguier) Open boundaries
	13	!! - ! 2005-04 (C. Deltel) Add Asselin trend in the ML budget
	14	!! 2.0 ! 2006-02 (L. Debreu, C. Mazauric) Agrif implementation
	15	!! 3.0 ! 2008-06 (G. Madec) time stepping always done in trazdf
[1438]	16	!! 3.1 ! 2009-02 (G. Madec, R. Benshila) re-introduce the vvl option
[2528]	17	!! 3.3 ! 2010-04 (M. Leclair, G. Madec) semi-implicit hpg with asselin filter + modified LF-RA
	18	!! - ! 2010-05 (C. Ethe, G. Madec) merge TRC-TRA
[3]	19	!!----------------------------------------------------------------------
[503]	20
	21	!!----------------------------------------------------------------------
[11057]	22	!! tra_atf : time stepping on tracers
	23	!! tra_atf_fix : time stepping on tracers : fixed volume case
	24	!! tra_atf_vvl : time stepping on tracers : variable volume case
[3]	25	!!----------------------------------------------------------------------
	26	USE oce ! ocean dynamics and tracers variables
	27	USE dom_oce ! ocean space and time domain variables
[2528]	28	USE sbc_oce ! surface boundary condition: ocean
[5467]	29	USE sbcrnf ! river runoffs
[6140]	30	USE sbcisf ! ice shelf melting
[4990]	31	USE zdf_oce ! ocean vertical mixing
[1438]	32	USE domvvl ! variable volume
[4990]	33	USE trd_oce ! trends: ocean variables
	34	USE trdtra ! trends manager: tracers
	35	USE traqsr ! penetrative solar radiation (needed for nksr)
	36	USE phycst ! physical constant
[9019]	37	USE ldftra ! lateral physics : tracers
	38	USE ldfslp ! lateral physics : slopes
	39	USE bdy_oce , ONLY : ln_bdy
[3294]	40	USE bdytra ! open boundary condition (bdy_tra routine)
[4990]	41	!
[3]	42	USE in_out_manager ! I/O manager
	43	USE lbclnk ! ocean lateral boundary conditions (or mpp link)
[258]	44	USE prtctl ! Print control
[4990]	45	USE timing ! Timing
[2528]	46	#if defined key_agrif
[9570]	47	USE agrif_oce_interp
[2528]	48	#endif
[3]	49
	50	IMPLICIT NONE
	51	PRIVATE
	52
[11057]	53	PUBLIC tra_atf ! routine called by step.F90
	54	PUBLIC tra_atf_fix ! to be used in trcnxt
	55	PUBLIC tra_atf_vvl ! to be used in trcnxt
[592]	56
	57	!! * Substitutions
[6140]	58	# include "vectopt_loop_substitute.h90"
[3]	59	!!----------------------------------------------------------------------
[10068]	60	!! NEMO/OCE 4.0 , NEMO Consortium (2018)
[2715]	61	!! $Id$
[10068]	62	!! Software governed by the CeCILL license (see ./LICENSE)
[3]	63	!!----------------------------------------------------------------------
	64	CONTAINS
	65
[11057]	66	SUBROUTINE tra_atf( kt, Kbb, Kmm, Kaa, pts )
[3]	67	!!----------------------------------------------------------------------
[11057]	68	!! * ROUTINE traatf *
[3]	69	!!
[11057]	70	!! !!!!!!!!!!!!!!!!! REWRITE HEADER COMMENTS !!!!!!!!!!!!!!!
	71	!!
[1110]	72	!! ** Purpose : Apply the boundary condition on the after temperature
	73	!! and salinity fields, achieved the time stepping by adding
	74	!! the Asselin filter on now fields and swapping the fields.
[3]	75	!!
[1110]	76	!! ** Method : At this stage of the computation, ta and sa are the
	77	!! after temperature and salinity as the time stepping has
	78	!! been performed in trazdf_imp or trazdf_exp module.
[3]	79	!!
[1110]	80	!! - Apply lateral boundary conditions on (ta,sa)
	81	!! at the local domain boundaries through lbc_lnk call,
[7646]	82	!! at the one-way open boundaries (ln_bdy=T),
[4990]	83	!! at the AGRIF zoom boundaries (lk_agrif=T)
[1110]	84	!!
[1438]	85	!! - Update lateral boundary conditions on AGRIF children
	86	!! domains (lk_agrif=T)
[1110]	87	!!
[10954]	88	!! ** Action : - ts(Kbb) & ts(Kmm) ready for the next time step
[503]	89	!!----------------------------------------------------------------------
[11057]	90	INTEGER , INTENT(in ) :: kt ! ocean time-step index
	91	INTEGER , INTENT(in ) :: Kbb, Kmm, Kaa ! time level indices
	92	REAL(wp), DIMENSION(jpi,jpj,jpk,jpts,jpt), INTENT(inout) :: pts ! active tracers
[503]	93	!!
[6140]	94	INTEGER :: ji, jj, jk, jn ! dummy loop indices
	95	REAL(wp) :: zfact ! local scalars
[9019]	96	REAL(wp), ALLOCATABLE, DIMENSION(:,:,:) :: ztrdt, ztrds
[3]	97	!!----------------------------------------------------------------------
[3294]	98	!
[11057]	99	IF( ln_timing ) CALL timing_start( 'tra_atf')
[3294]	100	!
[1110]	101	IF( kt == nit000 ) THEN
	102	IF(lwp) WRITE(numout,*)
[11057]	103	IF(lwp) WRITE(numout,*) 'tra_atf : achieve the time stepping by Asselin filter and array swap'
[1110]	104	IF(lwp) WRITE(numout,*) '~~~~~~~'
[592]	105	ENDIF
	106
[1110]	107	! Update after tracer on domain lateral boundaries
	108	!
[5656]	109	#if defined key_agrif
	110	CALL Agrif_tra ! AGRIF zoom boundaries
	111	#endif
[9094]	112	! ! local domain boundaries (T-point, unchanged sign)
[11057]	113	CALL lbc_lnk_multi( 'traatf', pts(:,:,:,jp_tem,Kaa), 'T', 1., pts(:,:,:,jp_sal,Kaa), 'T', 1. )
[5656]	114	!
[11057]	115	IF( ln_bdy ) CALL bdy_tra( kt, Kbb, pts, Kaa ) ! BDY open boundaries
[1438]	116
	117	! set time step size (Euler/Leapfrog)
[9019]	118	IF( neuler == 0 .AND. kt == nit000 ) THEN ; r2dt = rdt ! at nit000 (Euler)
[6140]	119	ELSEIF( kt <= nit000 + 1 ) THEN ; r2dt = 2._wp* rdt ! at nit000 or nit000+1 (Leapfrog)
[1438]	120	ENDIF
[3]	121
[1110]	122	! trends computation initialisation
[7646]	123	IF( l_trdtra ) THEN
[9019]	124	ALLOCATE( ztrdt(jpi,jpj,jpk) , ztrds(jpi,jpj,jpk) )
[8698]	125	ztrdt(:,:,jpk) = 0._wp
	126	ztrds(:,:,jpk) = 0._wp
[4990]	127	IF( ln_traldf_iso ) THEN ! diagnose the "pure" Kz diffusive trend
[11057]	128	CALL trd_tra( kt, Kmm, Kaa, 'TRA', jp_tem, jptra_zdfp, ztrdt )
	129	CALL trd_tra( kt, Kmm, Kaa, 'TRA', jp_sal, jptra_zdfp, ztrds )
[4990]	130	ENDIF
[7646]	131	! total trend for the non-time-filtered variables.
[8698]	132	zfact = 1.0 / rdt
[11057]	133	! G Nurser 23 Mar 2017. Recalculate trend as Delta(e3t*T)/e3tn; e3tn cancel from pts(Kmm) terms
[7646]	134	DO jk = 1, jpkm1
[11057]	135	ztrdt(:,:,jk) = ( pts(:,:,jk,jp_tem,Kaa)e3t(:,:,jk,Kaa) / e3t(:,:,jk,Kmm) - pts(:,:,jk,jp_tem,Kmm)) zfact
	136	ztrds(:,:,jk) = ( pts(:,:,jk,jp_sal,Kaa)e3t(:,:,jk,Kaa) / e3t(:,:,jk,Kmm) - pts(:,:,jk,jp_sal,Kmm)) zfact
[7646]	137	END DO
[11057]	138	CALL trd_tra( kt, Kmm, Kaa, 'TRA', jp_tem, jptra_tot, ztrdt )
	139	CALL trd_tra( kt, Kmm, Kaa, 'TRA', jp_sal, jptra_tot, ztrds )
[9019]	140	IF( ln_linssh ) THEN ! linear sea surface height only
[8698]	141	! Store now fields before applying the Asselin filter
	142	! in order to calculate Asselin filter trend later.
[11057]	143	ztrdt(:,:,:) = pts(:,:,:,jp_tem,Kmm)
	144	ztrds(:,:,:) = pts(:,:,:,jp_sal,Kmm)
[8698]	145	ENDIF
[1110]	146	ENDIF
	147
[11099]	148	IF( neuler == 0 .AND. kt == nit000 ) THEN ! Euler time-stepping
	149	!
[9019]	150	IF (l_trdtra .AND. .NOT. ln_linssh ) THEN ! Zero Asselin filter contribution must be explicitly written out since for vvl
[11057]	151	! ! Asselin filter is output by tra_atf_vvl that is not called on this time step
[8698]	152	ztrdt(:,:,:) = 0._wp
	153	ztrds(:,:,:) = 0._wp
[11057]	154	CALL trd_tra( kt, Kmm, Kaa, 'TRA', jp_tem, jptra_atf, ztrdt )
	155	CALL trd_tra( kt, Kmm, Kaa, 'TRA', jp_sal, jptra_atf, ztrds )
[8698]	156	END IF
[6140]	157	!
[2528]	158	ELSE ! Leap-Frog + Asselin filter time stepping
	159	!
[11057]	160	IF( ln_linssh ) THEN ; CALL tra_atf_fix( kt, Kbb, Kmm, Kaa, nit000, 'TRA', pts, jpts ) ! linear free surface
	161	ELSE ; CALL tra_atf_vvl( kt, Kbb, Kmm, Kaa, nit000, rdt, 'TRA', pts, sbc_tsc, sbc_tsc_b, jpts ) ! non-linear free surface
[2528]	162	ENDIF
[6140]	163	!
[11057]	164	CALL lbc_lnk_multi( 'traatf', pts(:,:,:,jp_tem,Kbb) , 'T', 1., pts(:,:,:,jp_sal,Kbb) , 'T', 1., &
	165	& pts(:,:,:,jp_tem,Kmm) , 'T', 1., pts(:,:,:,jp_sal,Kmm) , 'T', 1., &
	166	& pts(:,:,:,jp_tem,Kaa), 'T', 1., pts(:,:,:,jp_sal,Kaa), 'T', 1. )
[9094]	167	!
[5656]	168	ENDIF
[2715]	169	!
[8698]	170	IF( l_trdtra .AND. ln_linssh ) THEN ! trend of the Asselin filter (tb filtered - tb)/dt
	171	zfact = 1._wp / r2dt
[1110]	172	DO jk = 1, jpkm1
[11099]	173	ztrdt(:,:,jk) = ( pts(:,:,jk,jp_tem,Kmm) - ztrdt(:,:,jk) ) * zfact
	174	ztrds(:,:,jk) = ( pts(:,:,jk,jp_sal,Kmm) - ztrds(:,:,jk) ) * zfact
[1110]	175	END DO
[11057]	176	CALL trd_tra( kt, Kmm, Kaa, 'TRA', jp_tem, jptra_atf, ztrdt )
	177	CALL trd_tra( kt, Kmm, Kaa, 'TRA', jp_sal, jptra_atf, ztrds )
[1438]	178	END IF
[9019]	179	IF( l_trdtra ) DEALLOCATE( ztrdt , ztrds )
[2715]	180	!
[1438]	181	! ! control print
[11057]	182	IF(ln_ctl) CALL prt_ctl( tab3d_1=pts(:,:,:,jp_tem,Kmm), clinfo1=' nxt - Tn: ', mask1=tmask, &
	183	& tab3d_2=pts(:,:,:,jp_sal,Kmm), clinfo2= ' Sn: ', mask2=tmask )
[1438]	184	!
[11057]	185	IF( ln_timing ) CALL timing_stop('tra_atf')
[3294]	186	!
[11057]	187	END SUBROUTINE tra_atf
[1438]	188
	189
[11099]	190	SUBROUTINE tra_atf_fix( kt, Kbb, Kmm, Kaa, kit000, cdtype, pt, kjpt )
[1438]	191	!!----------------------------------------------------------------------
[11057]	192	!! * ROUTINE tra_atf_fix *
[1438]	193	!!
	194	!! ** Purpose : fixed volume: apply the Asselin time filter and
	195	!! swap the tracer fields.
	196	!!
	197	!! ** Method : - Apply a Asselin time filter on now fields.
	198	!! - swap tracer fields to prepare the next time_step.
	199	!!
[10954]	200	!! ** Action : - ptb & ptn ready for the next time step
[1438]	201	!!----------------------------------------------------------------------
[11057]	202	INTEGER , INTENT(in ) :: kt ! ocean time-step index
	203	INTEGER , INTENT(in ) :: Kbb, Kmm, Kaa ! time level indices
	204	INTEGER , INTENT(in ) :: kit000 ! first time step index
	205	CHARACTER(len=3) , INTENT(in ) :: cdtype ! =TRA or TRC (tracer indicator)
	206	INTEGER , INTENT(in ) :: kjpt ! number of tracers
	207	REAL(wp), DIMENSION(jpi,jpj,jpk,kjpt,jpt), INTENT(inout) :: pt ! tracer fields
[2715]	208	!
[2528]	209	INTEGER :: ji, jj, jk, jn ! dummy loop indices
	210	REAL(wp) :: ztn, ztd ! local scalars
[1438]	211	!!----------------------------------------------------------------------
[6140]	212	!
[3294]	213	IF( kt == kit000 ) THEN
[1438]	214	IF(lwp) WRITE(numout,*)
[11057]	215	IF(lwp) WRITE(numout,*) 'tra_atf_fix : time stepping', cdtype
[1438]	216	IF(lwp) WRITE(numout,*) '~~~~~~~~~~~'
	217	ENDIF
	218	!
[2528]	219	DO jn = 1, kjpt
[1438]	220	!
[2528]	221	DO jk = 1, jpkm1
[6140]	222	DO jj = 2, jpjm1
	223	DO ji = fs_2, fs_jpim1
[11057]	224	ztn = pt(ji,jj,jk,jn,Kmm)
	225	ztd = pt(ji,jj,jk,jn,Kaa) - 2._wp * ztn + pt(ji,jj,jk,jn,Kbb) ! time laplacian on tracers
[2528]	226	!
[11057]	227	pt(ji,jj,jk,jn,Kmm) = ztn + atfp * ztd ! ptb <-- filtered ptn
[3]	228	END DO
[2528]	229	END DO
	230	END DO
[1110]	231	!
[2528]	232	END DO
[1438]	233	!
[11057]	234	END SUBROUTINE tra_atf_fix
[3]	235
[1110]	236
[11057]	237	SUBROUTINE tra_atf_vvl( kt, Kbb, Kmm, Kaa, kit000, p2dt, cdtype, pt, psbc_tc, psbc_tc_b, kjpt )
[1438]	238	!!----------------------------------------------------------------------
[11057]	239	!! * ROUTINE tra_atf_vvl *
[1438]	240	!!
	241	!! ** Purpose : Time varying volume: apply the Asselin time filter
	242	!! and swap the tracer fields.
	243	!!
	244	!! ** Method : - Apply a thickness weighted Asselin time filter on now fields.
	245	!! - swap tracer fields to prepare the next time_step.
[10954]	246	!! tb = ( e3t(Kmm)tn + atfp[ e3t(Kbb)tb - 2 e3t(Kmm)tn + e3t_a*ta ] )
[11057]	247	!! /( e3t(Kmm) + atfp*[ e3t(Kbb) - 2 e3t(Kmm) + e3t(Kaa) ] )
[6140]	248	!! tn = ta
[1438]	249	!!
[10954]	250	!! ** Action : - ptb & ptn ready for the next time step
[1438]	251	!!----------------------------------------------------------------------
[11057]	252	INTEGER , INTENT(in ) :: kt ! ocean time-step index
	253	INTEGER , INTENT(in ) :: Kbb, Kmm, Kaa ! time level indices
	254	INTEGER , INTENT(in ) :: kit000 ! first time step index
	255	REAL(wp) , INTENT(in ) :: p2dt ! time-step
	256	CHARACTER(len=3) , INTENT(in ) :: cdtype ! =TRA or TRC (tracer indicator)
	257	INTEGER , INTENT(in ) :: kjpt ! number of tracers
	258	REAL(wp), DIMENSION(jpi,jpj,jpk,kjpt,jpt), INTENT(inout) :: pt ! tracer fields
	259	REAL(wp), DIMENSION(jpi,jpj ,kjpt) , INTENT(in ) :: psbc_tc ! surface tracer content
	260	REAL(wp), DIMENSION(jpi,jpj ,kjpt) , INTENT(in ) :: psbc_tc_b ! before surface tracer content
[6140]	261	!
[5930]	262	LOGICAL :: ll_traqsr, ll_rnf, ll_isf ! local logical
[2528]	263	INTEGER :: ji, jj, jk, jn ! dummy loop indices
[8698]	264	REAL(wp) :: zfact, zfact1, ztc_a , ztc_n , ztc_b , ztc_f , ztc_d ! local scalar
[2715]	265	REAL(wp) :: zfact2, ze3t_b, ze3t_n, ze3t_a, ze3t_f, ze3t_d ! - -
[9019]	266	REAL(wp), ALLOCATABLE, DIMENSION(:,:,:,:) :: ztrd_atf
[1438]	267	!!----------------------------------------------------------------------
[3294]	268	!
	269	IF( kt == kit000 ) THEN
[1438]	270	IF(lwp) WRITE(numout,*)
[11057]	271	IF(lwp) WRITE(numout,*) 'tra_atf_vvl : time stepping', cdtype
[1438]	272	IF(lwp) WRITE(numout,*) '~~~~~~~~~~~'
	273	ENDIF
[2528]	274	!
	275	IF( cdtype == 'TRA' ) THEN
	276	ll_traqsr = ln_traqsr ! active tracers case and solar penetration
[5467]	277	ll_rnf = ln_rnf ! active tracers case and river runoffs
[6140]	278	ll_isf = ln_isf ! active tracers case and ice shelf melting
	279	ELSE ! passive tracers case
	280	ll_traqsr = .FALSE. ! NO solar penetration
	281	ll_rnf = .FALSE. ! NO river runoffs ???? !!gm BUG ?
	282	ll_isf = .FALSE. ! NO ice shelf melting/freezing !!gm BUG ??
[2528]	283	ENDIF
	284	!
[9019]	285	IF( ( l_trdtra .AND. cdtype == 'TRA' ) .OR. ( l_trdtrc .AND. cdtype == 'TRC' ) ) THEN
	286	ALLOCATE( ztrd_atf(jpi,jpj,jpk,kjpt) )
[8698]	287	ztrd_atf(:,:,:,:) = 0.0_wp
	288	ENDIF
[10095]	289	zfact = 1._wp / p2dt
[9019]	290	zfact1 = atfp * p2dt
	291	zfact2 = zfact1 * r1_rau0
[2528]	292	DO jn = 1, kjpt
	293	DO jk = 1, jpkm1
[6140]	294	DO jj = 2, jpjm1
	295	DO ji = fs_2, fs_jpim1
[10954]	296	ze3t_b = e3t(ji,jj,jk,Kbb)
	297	ze3t_n = e3t(ji,jj,jk,Kmm)
[11057]	298	ze3t_a = e3t(ji,jj,jk,Kaa)
[2528]	299	! ! tracer content at Before, now and after
[11057]	300	ztc_b = pt(ji,jj,jk,jn,Kbb) * ze3t_b
	301	ztc_n = pt(ji,jj,jk,jn,Kmm) * ze3t_n
	302	ztc_a = pt(ji,jj,jk,jn,Kaa) * ze3t_a
[2528]	303	!
	304	ze3t_d = ze3t_a - 2. * ze3t_n + ze3t_b
	305	ztc_d = ztc_a - 2. * ztc_n + ztc_b
	306	!
	307	ze3t_f = ze3t_n + atfp * ze3t_d
	308	ztc_f = ztc_n + atfp * ztc_d
	309	!
[5643]	310	IF( jk == mikt(ji,jj) ) THEN ! first level
	311	ze3t_f = ze3t_f - zfact2 * ( (emp_b(ji,jj) - emp(ji,jj) ) &
	312	& + (fwfisf_b(ji,jj) - fwfisf(ji,jj)) )
[5385]	313	ztc_f = ztc_f - zfact1 * ( psbc_tc(ji,jj,jn) - psbc_tc_b(ji,jj,jn) )
[2528]	314	ENDIF
[9023]	315	IF( ln_rnf_depth ) THEN
	316	! Rivers are not just at the surface must go down to nk_rnf(ji,jj)
	317	IF( mikt(ji,jj) <=jk .and. jk <= nk_rnf(ji,jj) ) THEN
	318	ze3t_f = ze3t_f - zfact2 * ( - (rnf_b(ji,jj) - rnf(ji,jj) ) ) &
[10954]	319	& * ( e3t(ji,jj,jk,Kmm) / h_rnf(ji,jj) )
[9023]	320	ENDIF
	321	ELSE
	322	IF( jk == mikt(ji,jj) ) THEN ! first level
	323	ze3t_f = ze3t_f - zfact2 * ( - (rnf_b(ji,jj) - rnf(ji,jj) ) )
	324	ENDIF
	325	ENDIF
	326
[6140]	327	!
[5643]	328	! solar penetration (temperature only)
	329	IF( ll_traqsr .AND. jn == jp_tem .AND. jk <= nksr ) &
[2528]	330	& ztc_f = ztc_f - zfact1 * ( qsr_hc(ji,jj,jk) - qsr_hc_b(ji,jj,jk) )
[6140]	331	!
[5643]	332	! river runoff
	333	IF( ll_rnf .AND. jk <= nk_rnf(ji,jj) ) &
[5467]	334	& ztc_f = ztc_f - zfact1 * ( rnf_tsc(ji,jj,jn) - rnf_tsc_b(ji,jj,jn) ) &
[10954]	335	& * e3t(ji,jj,jk,Kmm) / h_rnf(ji,jj)
[6140]	336	!
[5643]	337	! ice shelf
	338	IF( ll_isf ) THEN
	339	! level fully include in the Losch_2008 ice shelf boundary layer
	340	IF ( jk >= misfkt(ji,jj) .AND. jk < misfkb(ji,jj) ) &
	341	ztc_f = ztc_f - zfact1 * ( risf_tsc(ji,jj,jn) - risf_tsc_b(ji,jj,jn) ) &
[10954]	342	& * e3t(ji,jj,jk,Kmm) * r1_hisf_tbl (ji,jj)
[5643]	343	! level partially include in Losch_2008 ice shelf boundary layer
	344	IF ( jk == misfkb(ji,jj) ) &
	345	ztc_f = ztc_f - zfact1 * ( risf_tsc(ji,jj,jn) - risf_tsc_b(ji,jj,jn) ) &
[10954]	346	& * e3t(ji,jj,jk,Kmm) * r1_hisf_tbl (ji,jj) * ralpha(ji,jj)
[5643]	347	END IF
[6140]	348	!
[5467]	349	ze3t_f = 1.e0 / ze3t_f
[11057]	350	pt(ji,jj,jk,jn,Kmm) = ztc_f * ze3t_f ! time filtered "now" field
[5467]	351	!
[8698]	352	IF( ( l_trdtra .and. cdtype == 'TRA' ) .OR. ( l_trdtrc .and. cdtype == 'TRC' ) ) THEN
	353	ztrd_atf(ji,jj,jk,jn) = (ztc_f - ztc_n) * zfact/ze3t_n
	354	ENDIF
	355	!
[1438]	356	END DO
	357	END DO
[2528]	358	END DO
	359	!
	360	END DO
[503]	361	!
[9019]	362	IF( ( l_trdtra .AND. cdtype == 'TRA' ) .OR. ( l_trdtrc .AND. cdtype == 'TRC' ) ) THEN
	363	IF( l_trdtra .AND. cdtype == 'TRA' ) THEN
[11057]	364	CALL trd_tra( kt, Kmm, Kaa, cdtype, jp_tem, jptra_atf, ztrd_atf(:,:,:,jp_tem) )
	365	CALL trd_tra( kt, Kmm, Kaa, cdtype, jp_sal, jptra_atf, ztrd_atf(:,:,:,jp_sal) )
[9019]	366	ENDIF
	367	IF( l_trdtrc .AND. cdtype == 'TRC' ) THEN
	368	DO jn = 1, kjpt
[11057]	369	CALL trd_tra( kt, Kmm, Kaa, cdtype, jn, jptra_atf, ztrd_atf(:,:,:,jn) )
[9019]	370	END DO
	371	ENDIF
	372	DEALLOCATE( ztrd_atf )
[8698]	373	ENDIF
	374	!
[11057]	375	END SUBROUTINE tra_atf_vvl
[3]	376
	377	!!======================================================================
[11057]	378	END MODULE traatf

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