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trcbc.F90 @ 9596

Last change on this file since 9596 was 9169, checked in by gm, 6 years ago
dev_merge_2017: all SRC: finalize the removal of useless warning when reading namelist_cfg + remove all nn_closea + nn_msh replaced by a logical
Property svn:keywords set to `Id`
File size: 22.9 KB

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1	MODULE trcbc
2	!!======================================================================
3	!! * MODULE trcbc *
4	!! TOP : module for passive tracer boundary conditions
5	!!=====================================================================
6	!! History : 3.5 ! 2014 (M. Vichi, T. Lovato) Original
7	!! 3.6 ! 2015 (T . Lovato) Revision and BDY support
8	!! 4.0 ! 2016 (T . Lovato) Include application of sbc and cbc
9	!!----------------------------------------------------------------------
10	#if defined key_top
11	!!----------------------------------------------------------------------
12	!! 'key_top' TOP model
13	!!----------------------------------------------------------------------
14	!! trc_bc : Apply tracer Boundary Conditions
15	!!----------------------------------------------------------------------
16	USE par_trc ! passive tracers parameters
17	USE oce_trc ! shared variables between ocean and passive tracers
18	USE trc ! passive tracers common variables
19	USE iom ! I/O manager
20	USE lib_mpp ! MPP library
21	USE fldread ! read input fields
22	USE bdy_oce, ONLY: ln_bdy, nb_bdy , idx_bdy, ln_coords_file, rn_time_dmp, rn_time_dmp_out
23
24	IMPLICIT NONE
25	PRIVATE
26
27	PUBLIC trc_bc ! called in trcstp.F90 or within TOP modules
28	PUBLIC trc_bc_ini ! called in trcini.F90
29
30	INTEGER , SAVE, PUBLIC :: nb_trcobc ! number of tracers with open BC
31	INTEGER , SAVE, PUBLIC :: nb_trcsbc ! number of tracers with surface BC
32	INTEGER , SAVE, PUBLIC :: nb_trccbc ! number of tracers with coastal BC
33	INTEGER , SAVE, PUBLIC, ALLOCATABLE, DIMENSION(:) :: n_trc_indobc ! index of tracer with OBC data
34	INTEGER , SAVE, PUBLIC, ALLOCATABLE, DIMENSION(:) :: n_trc_indsbc ! index of tracer with SBC data
35	INTEGER , SAVE, PUBLIC, ALLOCATABLE, DIMENSION(:) :: n_trc_indcbc ! index of tracer with CBC data
36	REAL(wp) , SAVE, PUBLIC, ALLOCATABLE, DIMENSION(:) :: rf_trsfac ! multiplicative factor for SBC tracer values
37	TYPE(FLD), SAVE, PUBLIC, ALLOCATABLE, DIMENSION(:) :: sf_trcsbc ! structure of data input SBC (file informations, fields read)
38	REAL(wp) , SAVE, PUBLIC, ALLOCATABLE, DIMENSION(:) :: rf_trcfac ! multiplicative factor for CBC tracer values
39	TYPE(FLD), SAVE, PUBLIC, ALLOCATABLE, DIMENSION(:) :: sf_trccbc ! structure of data input CBC (file informations, fields read)
40	REAL(wp) , SAVE, PUBLIC, ALLOCATABLE, DIMENSION(:) :: rf_trofac ! multiplicative factor for OBCtracer values
41	TYPE(FLD), SAVE, PUBLIC, ALLOCATABLE, DIMENSION(:), TARGET :: sf_trcobc ! structure of data input OBC (file informations, fields read)
42	TYPE(MAP_POINTER), ALLOCATABLE, DIMENSION(:) :: nbmap_ptr ! array of pointers to nbmap
43
44	!! * Substitutions
45	# include "vectopt_loop_substitute.h90"
46	!!----------------------------------------------------------------------
47	!! NEMO/TOP 4.0 , NEMO Consortium (2016)
48	!! $Id$
49	!! Software governed by the CeCILL licence (NEMOGCM/NEMO_CeCILL.txt)
50	!!----------------------------------------------------------------------
51	CONTAINS
52
53	SUBROUTINE trc_bc_ini( ntrc )
54	!!----------------------------------------------------------------------
55	!! * ROUTINE trc_bc_ini *
56	!!
57	!! ** Purpose : initialisation of passive tracer BC data
58	!!
59	!! ** Method : - Read namtsd namelist
60	!! - allocates passive tracer BC data structure
61	!!----------------------------------------------------------------------
62	INTEGER,INTENT(in) :: ntrc ! number of tracers
63	!
64	INTEGER :: jl, jn , ib, ibd, ii, ij, ik ! dummy loop indices
65	INTEGER :: ierr0, ierr1, ierr2, ierr3 ! temporary integers
66	INTEGER :: ios ! Local integer output status for namelist read
67	INTEGER :: nblen, igrd ! support arrays for BDY
68	CHARACTER(len=100) :: clndta, clntrc
69	!
70	CHARACTER(len=100) :: cn_dir_sbc, cn_dir_cbc, cn_dir_obc
71	TYPE(FLD_N), ALLOCATABLE, DIMENSION(:) :: slf_i ! local array of namelist informations on the fields to read
72	TYPE(FLD_N), DIMENSION(jpmaxtrc) :: sn_trcobc ! open
73	TYPE(FLD_N), DIMENSION(jpmaxtrc) :: sn_trcsbc ! surface
74	TYPE(FLD_N), DIMENSION(jpmaxtrc) :: sn_trccbc ! coastal
75	REAL(wp) , DIMENSION(jpmaxtrc) :: rn_trofac ! multiplicative factor for tracer values
76	REAL(wp) , DIMENSION(jpmaxtrc) :: rn_trsfac ! multiplicative factor for tracer values
77	REAL(wp) , DIMENSION(jpmaxtrc) :: rn_trcfac ! multiplicative factor for tracer values
78	!!
79	NAMELIST/namtrc_bc/ cn_dir_obc, sn_trcobc, rn_trofac, cn_dir_sbc, sn_trcsbc, rn_trsfac, &
80	& cn_dir_cbc, sn_trccbc, rn_trcfac, ln_rnf_ctl, rn_bc_time
81	NAMELIST/namtrc_bdy/ cn_trc_dflt, cn_trc, nn_trcdmp_bdy
82	!!----------------------------------------------------------------------
83	!
84	IF( lwp ) THEN
85	WRITE(numout,*)
86	WRITE(numout,*) 'trc_bc_ini : Tracers Boundary Conditions (BC)'
87	WRITE(numout,*) '~~~~~~~~~~~ '
88	ENDIF
89	! Initialisation and local array allocation
90	ierr0 = 0 ; ierr1 = 0 ; ierr2 = 0 ; ierr3 = 0
91	ALLOCATE( slf_i(ntrc), STAT=ierr0 )
92	IF( ierr0 > 0 ) THEN
93	CALL ctl_stop( 'trc_bc_ini: unable to allocate local slf_i' ) ; RETURN
94	ENDIF
95
96	! Compute the number of tracers to be initialised with open, surface and boundary data
97	ALLOCATE( n_trc_indobc(ntrc), STAT=ierr0 )
98	IF( ierr0 > 0 ) THEN
99	CALL ctl_stop( 'trc_bc_ini: unable to allocate n_trc_indobc' ) ; RETURN
100	ENDIF
101	nb_trcobc = 0
102	n_trc_indobc(:) = 0
103	!
104	ALLOCATE( n_trc_indsbc(ntrc), STAT=ierr0 )
105	IF( ierr0 > 0 ) THEN
106	CALL ctl_stop( 'trc_bc_ini: unable to allocate n_trc_indsbc' ) ; RETURN
107	ENDIF
108	nb_trcsbc = 0
109	n_trc_indsbc(:) = 0
110	!
111	ALLOCATE( n_trc_indcbc(ntrc), STAT=ierr0 )
112	IF( ierr0 > 0 ) THEN
113	CALL ctl_stop( 'trc_bc_ini: unable to allocate n_trc_indcbc' ) ; RETURN
114	ENDIF
115	nb_trccbc = 0
116	n_trc_indcbc(:) = 0
117	!
118	! Read Boundary Conditions Namelists
119	REWIND( numnat_ref ) ! Namelist namtrc_bc in reference namelist : Passive tracer data structure
120	READ ( numnat_ref, namtrc_bc, IOSTAT = ios, ERR = 901)
121	901 IF( ios /= 0 ) CALL ctl_nam ( ios , 'namtrc_bc in reference namelist', lwp )
122	REWIND( numnat_cfg ) ! Namelist namtrc_bc in configuration namelist : Passive tracer data structure
123	READ ( numnat_cfg, namtrc_bc, IOSTAT = ios, ERR = 902 )
124	902 IF( ios > 0 ) CALL ctl_nam ( ios , 'namtrc_bc in configuration namelist', lwp )
125	IF(lwm) WRITE ( numont, namtrc_bc )
126
127	IF ( ln_bdy ) THEN
128	REWIND( numnat_ref ) ! Namelist namtrc_bdy in reference namelist : Passive tracer data structure
129	READ ( numnat_ref, namtrc_bdy, IOSTAT = ios, ERR = 903)
130	903 IF( ios /= 0 ) CALL ctl_nam ( ios , 'namtrc_bdy in reference namelist', lwp )
131
132	REWIND( numnat_cfg ) ! Namelist namtrc_bdy in configuration namelist : Passive tracer data structure
133	READ ( numnat_cfg, namtrc_bdy, IOSTAT = ios, ERR = 904 )
134	904 IF( ios > 0 ) CALL ctl_nam ( ios , 'namtrc_bdy in configuration namelist', lwp )
135	IF(lwm) WRITE ( numont, namtrc_bdy )
136
137	! setup up preliminary informations for BDY structure
138	DO jn = 1, ntrc
139	DO ib = 1, nb_bdy
140	! Set type of obc in BDY data structure (around here we may plug user override of obc type from nml)
141	IF ( ln_trc_obc(jn) ) THEN ; trcdta_bdy(jn,ib)%cn_obc = TRIM( cn_trc (ib) )
142	ELSE ; trcdta_bdy(jn,ib)%cn_obc = TRIM( cn_trc_dflt(ib) )
143	ENDIF
144	! set damping use in BDY data structure
145	trcdta_bdy(jn,ib)%dmp = .false.
146	IF(nn_trcdmp_bdy(ib) == 1 .AND. ln_trc_obc(jn) ) trcdta_bdy(jn,ib)%dmp = .true.
147	IF(nn_trcdmp_bdy(ib) == 2 ) trcdta_bdy(jn,ib)%dmp = .true.
148	IF(trcdta_bdy(jn,ib)%cn_obc == 'frs' .AND. nn_trcdmp_bdy(ib) /= 0 ) &
149	& CALL ctl_stop( 'trc_bc_ini: Use FRS OR relaxation' )
150	IF( .NOT.( 0 < nn_trcdmp_bdy(ib) .AND. nn_trcdmp_bdy(ib) <= 2 ) ) &
151	& CALL ctl_stop( 'trc_bc_ini: Not a valid option for nn_trcdmp_bdy. Allowed: 0,1,2.' )
152	END DO
153	END DO
154	ELSE
155	! Force all tracers OBC to false if bdy not used
156	ln_trc_obc = .false.
157	ENDIF
158
159	! compose BC data indexes
160	DO jn = 1, ntrc
161	IF( ln_trc_obc(jn) ) THEN
162	nb_trcobc = nb_trcobc + 1 ; n_trc_indobc(jn) = nb_trcobc
163	ENDIF
164	IF( ln_trc_sbc(jn) ) THEN
165	nb_trcsbc = nb_trcsbc + 1 ; n_trc_indsbc(jn) = nb_trcsbc
166	ENDIF
167	IF( ln_trc_cbc(jn) ) THEN
168	nb_trccbc = nb_trccbc + 1 ; n_trc_indcbc(jn) = nb_trccbc
169	ENDIF
170	END DO
171
172	! Print summmary of Boundary Conditions
173	IF( lwp ) THEN
174	WRITE(numout,*)
175	WRITE(numout,'(a,i3)') ' Total tracers to be initialized with SURFACE BCs data:', nb_trcsbc
176	IF ( nb_trcsbc > 0 ) THEN
177	WRITE(numout,*) ' #trc NAME Boundary Mult.Fact. '
178	DO jn = 1, ntrc
179	IF ( ln_trc_sbc(jn) ) WRITE(numout,9001) jn, TRIM( sn_trcsbc(jn)%clvar ), 'SBC', rn_trsfac(jn)
180	END DO
181	ENDIF
182	WRITE(numout,'(2a)') ' SURFACE BC data repository : ', TRIM(cn_dir_sbc)
183	!
184	WRITE(numout,*)
185	WRITE(numout,'(a,i3)') ' Total tracers to be initialized with COASTAL BCs data:', nb_trccbc
186	IF( nb_trccbc > 0 ) THEN
187	WRITE(numout,*) ' #trc NAME Boundary Mult.Fact. '
188	DO jn = 1, ntrc
189	IF ( ln_trc_cbc(jn) ) WRITE(numout, 9001) jn, TRIM( sn_trccbc(jn)%clvar ), 'CBC', rn_trcfac(jn)
190	END DO
191	ENDIF
192	WRITE(numout,'(2a)') ' COASTAL BC data repository : ', TRIM(cn_dir_cbc)
193	IF( .NOT.ln_rnf .OR. .NOT.ln_linssh ) ln_rnf_ctl = .FALSE.
194	IF( ln_rnf_ctl ) WRITE(numout,'(a)') &
195	& ' -> Remove runoff dilution effect on tracers with absent river load (ln_rnf_ctl = .TRUE.)'
196	WRITE(numout,*)
197	WRITE(numout,'(a,i3)') ' Total tracers to be initialized with OPEN BCs data:', nb_trcobc
198
199	IF( ln_bdy .AND. nb_trcobc > 0 ) THEN
200	WRITE(numout,*) ' #trc NAME Boundary Mult.Fact. OBC Settings'
201	DO jn = 1, ntrc
202	IF ( ln_trc_obc(jn) ) WRITE(numout, 9001) jn, TRIM( sn_trcobc(jn)%clvar ), 'OBC', rn_trofac(jn), &
203	& (trcdta_bdy(jn,ib)%cn_obc,ib=1,nb_bdy)
204	IF ( .NOT. ln_trc_obc(jn) ) WRITE(numout, 9002) jn, 'Set data to IC and use default condition' , &
205	& (trcdta_bdy(jn,ib)%cn_obc,ib=1,nb_bdy)
206	END DO
207	WRITE(numout,*) ' '
208	DO ib = 1, nb_bdy
209	IF(nn_trcdmp_bdy(ib) == 0) WRITE(numout,9003) ' Boundary ', ib, &
210	& ' -> NO damping of tracers'
211	IF(nn_trcdmp_bdy(ib) == 1) WRITE(numout,9003) ' Boundary ', ib, &
212	& ' -> damping ONLY for tracers with external data provided'
213	IF(nn_trcdmp_bdy(ib) == 2) WRITE(numout,9003) ' Boundary ', ib, &
214	& ' -> damping of ALL tracers'
215	IF(nn_trcdmp_bdy(ib) > 0) THEN
216	WRITE(numout,9003) ' USE damping parameters from nambdy for boundary ', ib,' : '
217	WRITE(numout,'(a,f10.2,a)') ' - Inflow damping time scale : ',rn_time_dmp (ib),' days'
218	WRITE(numout,'(a,f10.2,a)') ' - Outflow damping time scale : ',rn_time_dmp_out(ib),' days'
219	ENDIF
220	END DO
221	ENDIF
222	!
223	WRITE(numout,'(2a)') ' OPEN BC data repository : ', TRIM(cn_dir_obc)
224	ENDIF
225	9001 FORMAT(2x,i5, 3x, a15, 3x, a5, 6x, e11.3, 4x, 10a13)
226	9002 FORMAT(2x,i5, 3x, a41, 3x, 10a13)
227	9003 FORMAT(a, i5, a)
228	!
229	!
230	! OPEN Lateral boundary conditions
231	IF( ln_bdy .AND. nb_trcobc > 0 ) THEN
232	ALLOCATE ( sf_trcobc(nb_trcobc), rf_trofac(nb_trcobc), nbmap_ptr(nb_trcobc), STAT=ierr1 )
233	IF( ierr1 > 0 ) THEN
234	CALL ctl_stop( 'trc_bc_ini: unable to allocate sf_trcobc structure' ) ; RETURN
235	ENDIF
236	!
237	igrd = 1 ! Everything is at T-points here
238	!
239	DO jn = 1, ntrc
240	DO ib = 1, nb_bdy
241	!
242	nblen = idx_bdy(ib)%nblen(igrd)
243	!
244	IF( ln_trc_obc(jn) ) THEN !* Initialise from external data *!
245	jl = n_trc_indobc(jn)
246	slf_i(jl) = sn_trcobc(jn)
247	rf_trofac(jl) = rn_trofac(jn)
248	ALLOCATE( sf_trcobc(jl)%fnow(nblen,1,jpk) , STAT=ierr2 )
249	IF( sn_trcobc(jn)%ln_tint ) ALLOCATE( sf_trcobc(jl)%fdta(nblen,1,jpk,2) , STAT=ierr3 )
250	IF( ierr2 + ierr3 > 0 ) THEN
251	CALL ctl_stop( 'trc_bc_ini : unable to allocate passive tracer OBC data arrays' ) ; RETURN
252	ENDIF
253	trcdta_bdy(jn,ib)%trc => sf_trcobc(jl)%fnow(:,1,:)
254	trcdta_bdy(jn,ib)%rn_fac = rf_trofac(jl)
255	! create OBC mapping array
256	nbmap_ptr(jl)%ptr => idx_bdy(ib)%nbmap(:,igrd)
257	nbmap_ptr(jl)%ll_unstruc = ln_coords_file(igrd)
258	!
259	ELSE !* Initialise obc arrays from initial conditions *!
260	ALLOCATE ( trcdta_bdy(jn,ib)%trc(nblen,jpk) )
261	DO ibd = 1, nblen
262	DO ik = 1, jpkm1
263	ii = idx_bdy(ib)%nbi(ibd,igrd)
264	ij = idx_bdy(ib)%nbj(ibd,igrd)
265	trcdta_bdy(jn,ib)%trc(ibd,ik) = trn(ii,ij,ik,jn) * tmask(ii,ij,ik)
266	END DO
267	END DO
268	trcdta_bdy(jn,ib)%rn_fac = 1._wp
269	ENDIF
270	END DO
271	END DO
272	!
273	CALL fld_fill( sf_trcobc, slf_i, cn_dir_obc, 'trc_bc_ini', 'Passive tracer OBC data', 'namtrc_bc' )
274	ENDIF
275
276	! SURFACE Boundary conditions
277	IF( nb_trcsbc > 0 ) THEN ! allocate only if the number of tracer to initialise is greater than zero
278	ALLOCATE( sf_trcsbc(nb_trcsbc), rf_trsfac(nb_trcsbc), STAT=ierr1 )
279	IF( ierr1 > 0 ) THEN
280	CALL ctl_stop( 'trc_bc_ini: unable to allocate sf_trcsbc structure' ) ; RETURN
281	ENDIF
282	!
283	DO jn = 1, ntrc
284	IF( ln_trc_sbc(jn) ) THEN ! update passive tracers arrays with input data read from file
285	jl = n_trc_indsbc(jn)
286	slf_i(jl) = sn_trcsbc(jn)
287	rf_trsfac(jl) = rn_trsfac(jn)
288	ALLOCATE( sf_trcsbc(jl)%fnow(jpi,jpj,1) , STAT=ierr2 )
289	IF( sn_trcsbc(jn)%ln_tint ) ALLOCATE( sf_trcsbc(jl)%fdta(jpi,jpj,1,2) , STAT=ierr3 )
290	IF( ierr2 + ierr3 > 0 ) THEN
291	CALL ctl_stop( 'trc_bc_ini : unable to allocate passive tracer SBC data arrays' ) ; RETURN
292	ENDIF
293	ENDIF
294	!
295	END DO
296	! ! fill sf_trcsbc with slf_i and control print
297	CALL fld_fill( sf_trcsbc, slf_i, cn_dir_sbc, 'trc_bc_ini', 'Passive tracer SBC data', 'namtrc_bc' )
298	!
299	ENDIF
300	!
301	! COSTAL Boundary conditions
302	IF( nb_trccbc > 0 ) THEN ! allocate only if the number of tracer to initialise is greater than zero
303	ALLOCATE( sf_trccbc(nb_trccbc), rf_trcfac(nb_trccbc), STAT=ierr1 )
304	IF( ierr1 > 0 ) THEN
305	CALL ctl_stop( 'trc_bc_ini: unable to allocate sf_trccbc structure' ) ; RETURN
306	ENDIF
307	!
308	DO jn = 1, ntrc
309	IF( ln_trc_cbc(jn) ) THEN ! update passive tracers arrays with input data read from file
310	jl = n_trc_indcbc(jn)
311	slf_i(jl) = sn_trccbc(jn)
312	rf_trcfac(jl) = rn_trcfac(jn)
313	ALLOCATE( sf_trccbc(jl)%fnow(jpi,jpj,1) , STAT=ierr2 )
314	IF( sn_trccbc(jn)%ln_tint ) ALLOCATE( sf_trccbc(jl)%fdta(jpi,jpj,1,2) , STAT=ierr3 )
315	IF( ierr2 + ierr3 > 0 ) THEN
316	CALL ctl_stop( 'trc_bc_ini : unable to allocate passive tracer CBC data arrays' ) ; RETURN
317	ENDIF
318	ENDIF
319	!
320	END DO
321	! ! fill sf_trccbc with slf_i and control print
322	CALL fld_fill( sf_trccbc, slf_i, cn_dir_cbc, 'trc_bc_ini', 'Passive tracer CBC data', 'namtrc_bc' )
323	!
324	ENDIF
325	!
326	DEALLOCATE( slf_i ) ! deallocate local field structure
327	!
328	END SUBROUTINE trc_bc_ini
329
330
331	SUBROUTINE trc_bc(kt, jit)
332	!!----------------------------------------------------------------------
333	!! * ROUTINE trc_bc *
334	!!
335	!! ** Purpose : Apply Boundary Conditions data to tracers
336	!!
337	!! ** Method : 1) Read BC inputs and update data structures using fldread
338	!! 2) Apply Boundary Conditions to tracers
339	!!----------------------------------------------------------------------
340	USE fldread
341	!!
342	INTEGER, INTENT(in) :: kt ! ocean time-step index
343	INTEGER, INTENT(in), OPTIONAL :: jit ! subcycle time-step index (for timesplitting option)
344	!!
345	INTEGER :: ji, jj, jk, jn, jl ! Loop index
346	REAL(wp) :: zfact, zrnf
347	!!---------------------------------------------------------------------
348	!
349	IF( ln_timing ) CALL timing_start('trc_bc')
350
351	IF( kt == nit000 .AND. lwp) THEN
352	WRITE(numout,*)
353	WRITE(numout,*) 'trc_bc : Surface boundary conditions for passive tracers.'
354	WRITE(numout,*) '~~~~~~~ '
355	ENDIF
356
357	! 1. Update Boundary conditions data
358	IF( PRESENT(jit) ) THEN
359	!
360	! OPEN boundary conditions (use time_offset=+1 as they are applied at the end of the step)
361	IF( nb_trcobc > 0 ) THEN
362	if (lwp) write(numout,'(a,i5,a,i10)') ' reading OBC data for ', nb_trcobc ,' variable(s) at step ', kt
363	CALL fld_read( kt=kt, kn_fsbc=1, sd=sf_trcobc, map=nbmap_ptr, kit=jit, kt_offset=+1)
364	ENDIF
365	!
366	! SURFACE boundary conditions
367	IF( nb_trcsbc > 0 ) THEN
368	if (lwp) write(numout,'(a,i5,a,i10)') ' reading SBC data for ', nb_trcsbc ,' variable(s) at step ', kt
369	CALL fld_read( kt=kt, kn_fsbc=1, sd=sf_trcsbc, kit=jit)
370	ENDIF
371	!
372	! COASTAL boundary conditions
373	IF( nb_trccbc > 0 ) THEN
374	if (lwp) write(numout,'(a,i5,a,i10)') ' reading CBC data for ', nb_trccbc ,' variable(s) at step ', kt
375	CALL fld_read( kt=kt, kn_fsbc=1, sd=sf_trccbc, kit=jit)
376	ENDIF
377	!
378	ELSE
379	!
380	! OPEN boundary conditions (use time_offset=+1 as they are applied at the end of the step)
381	IF( nb_trcobc > 0 ) THEN
382	if (lwp) write(numout,'(a,i5,a,i10)') ' reading OBC data for ', nb_trcobc ,' variable(s) at step ', kt
383	CALL fld_read( kt=kt, kn_fsbc=1, sd=sf_trcobc, map=nbmap_ptr, kt_offset=+1)
384	ENDIF
385	!
386	! SURFACE boundary conditions
387	IF( nb_trcsbc > 0 ) THEN
388	if (lwp) write(numout,'(a,i5,a,i10)') ' reading SBC data for ', nb_trcsbc ,' variable(s) at step ', kt
389	CALL fld_read( kt=kt, kn_fsbc=1, sd=sf_trcsbc )
390	ENDIF
391	!
392	! COASTAL boundary conditions
393	IF( nb_trccbc > 0 ) THEN
394	if (lwp) write(numout,'(a,i5,a,i10)') ' reading CBC data for ', nb_trccbc ,' variable(s) at step ', kt
395	CALL fld_read( kt=kt, kn_fsbc=1, sd=sf_trccbc )
396	ENDIF
397	!
398	ENDIF
399
400	! 2. Apply Boundary conditions data
401	!
402	DO jn = 1 , jptra
403	!
404	! Remove river dilution for tracers with absent river load
405	IF( ln_rnf_ctl .AND. .NOT.ln_trc_cbc(jn) ) THEN
406	DO jj = 2, jpj
407	DO ji = fs_2, fs_jpim1
408	DO jk = 1, nk_rnf(ji,jj)
409	zrnf = (rnf(ji,jj) + rnf_b(ji,jj)) * 0.5_wp * r1_rau0 / h_rnf(ji,jj)
410	tra(ji,jj,jk,jn) = tra(ji,jj,jk,jn) + (trn(ji,jj,jk,jn) * zrnf)
411	END DO
412	END DO
413	END DO
414	ENDIF
415	!
416	! OPEN boundary conditions: trcbdy is called in trcnxt !
417	!
418	! SURFACE boundary conditions
419	IF( ln_trc_sbc(jn) ) THEN
420	jl = n_trc_indsbc(jn)
421	DO jj = 2, jpj
422	DO ji = fs_2, fs_jpim1 ! vector opt.
423	zfact = 1. / ( e3t_n(ji,jj,1) * rn_bc_time )
424	tra(ji,jj,1,jn) = tra(ji,jj,1,jn) + rf_trsfac(jl) * sf_trcsbc(jl)%fnow(ji,jj,1) * zfact
425	END DO
426	END DO
427	ENDIF
428	!
429	! COASTAL boundary conditions
430	IF( ln_rnf .AND. ln_trc_cbc(jn) ) THEN
431	jl = n_trc_indcbc(jn)
432	DO jj = 2, jpj
433	DO ji = fs_2, fs_jpim1 ! vector opt.
434	DO jk = 1, nk_rnf(ji,jj)
435	zfact = rn_rfact / ( e1e2t(ji,jj) * h_rnf(ji,jj) * rn_bc_time )
436	tra(ji,jj,jk,jn) = tra(ji,jj,jk,jn) + rf_trcfac(jl) * sf_trccbc(jl)%fnow(ji,jj,1) * zfact
437	END DO
438	END DO
439	END DO
440	ENDIF
441	! ! ===========
442	END DO ! tracer loop
443	! ! ===========
444	IF( ln_timing ) CALL timing_stop('trc_bc')
445	!
446	END SUBROUTINE trc_bc
447
448	#else
449	!!----------------------------------------------------------------------
450	!! Dummy module NO 3D passive tracer data
451	!!----------------------------------------------------------------------
452	CONTAINS
453	SUBROUTINE trc_bc_ini( ntrc ) ! Empty routine
454	INTEGER,INTENT(IN) :: ntrc ! number of tracers
455	WRITE(,) 'trc_bc_ini: You should not have seen this print! error?', kt
456	END SUBROUTINE trc_bc_ini
457	SUBROUTINE trc_bc( kt ) ! Empty routine
458	WRITE(,) 'trc_bc: You should not have seen this print! error?', kt
459	END SUBROUTINE trc_bc
460	#endif
461
462	!!======================================================================
463	END MODULE trcbc

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source: NEMO/trunk/src/TOP/trcbc.F90 @ 9596

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