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iscplrst.F90 in branches/2016/dev_r6325_SIMPLIF_1/NEMOGCM/NEMO/OPA_SRC/DOM – NEMO

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source: branches/2016/dev_r6325_SIMPLIF_1/NEMOGCM/NEMO/OPA_SRC/DOM/iscplrst.F90 @ 6347

Last change on this file since 6347 was 6347, checked in by gm, 8 years ago
#1683: SIMPLIF-1 : Phase with the v3.6_Stable (DOC+ZDF+traqsr+lbedo)
File size: 20.8 KB

Line
1	MODULE iscplrst
2	!!======================================================================
3	!! * MODULE iscplrst*
4	!! Ocean forcing: update the restart file in case of ice sheet/ocean coupling
5	!!=====================================================================
6	!! History : NEMO ! 2015-01 P. Mathiot: original
7	!!----------------------------------------------------------------------
8
9	!!----------------------------------------------------------------------
10	!! iscpl_stp : step management
11	!! iscpl_rst_interpol : restart interpolation in case of coupling with ice sheet
12	!!----------------------------------------------------------------------
13	USE dom_oce ! ocean space and time domain
14	USE domwri ! ocean space and time domain
15	USE domvvl, ONLY : dom_vvl_interpol
16	USE phycst ! physical constants
17	USE sbc_oce ! surface boundary condition variables
18	USE oce ! global tra/dyn variable
19	USE in_out_manager ! I/O manager
20	USE iom ! I/O module
21	USE lib_mpp ! MPP library
22	USE lib_fortran ! MPP library
23	USE wrk_nemo ! Memory allocation
24	USE lbclnk ! communication
25	USE iscplini ! ice sheet coupling: initialisation
26	USE iscplhsb ! ice sheet coupling: conservation
27
28	IMPLICIT NONE
29	PRIVATE
30
31	PUBLIC iscpl_stp ! step management
32	!!
33	!! * Substitutions
34	# include "vectopt_loop_substitute.h90"
35	!!----------------------------------------------------------------------
36	!! NEMO/OPA 3.3 , NEMO Consortium (2010)
37	!! $Id: sbcrnf.F90 4666 2014-06-11 12:52:23Z mathiot $
38	!! Software governed by the CeCILL licence (NEMOGCM/NEMO_CeCILL.txt)
39	!!----------------------------------------------------------------------
40	CONTAINS
41
42	SUBROUTINE iscpl_stp
43	!!----------------------------------------------------------------------
44	!! * ROUTINE iscpl_stp *
45	!!
46	!! ** Purpose : compute initialisation
47	!! compute extrapolation of restart variable un, vn, tsn, sshn (wetting/drying)
48	!! compute correction term if needed
49	!!
50	!!----------------------------------------------------------------------
51	INTEGER :: inum0
52	REAL(wp), DIMENSION(:,: ), POINTER :: zsmask_b
53	REAL(wp), DIMENSION(:,:,:), POINTER :: ztmask_b, zumask_b, zvmask_b
54	REAL(wp), DIMENSION(:,:,:), POINTER :: ze3t_b , ze3u_b , ze3v_b
55	REAL(wp), DIMENSION(:,:,:), POINTER :: zdepw_b
56	CHARACTER(20) :: cfile
57	!!----------------------------------------------------------------------
58
59	CALL wrk_alloc(jpi,jpj,jpk, ztmask_b, zumask_b, zvmask_b) ! mask before
60	CALL wrk_alloc(jpi,jpj,jpk, ze3t_b , ze3u_b , ze3v_b ) ! e3 before
61	CALL wrk_alloc(jpi,jpj,jpk, zdepw_b )
62	CALL wrk_alloc(jpi,jpj, zsmask_b )
63
64
65	!! get restart variable
66	CALL iom_get( numror, jpdom_autoglo, 'tmask' , ztmask_b ) ! need to extrapolate T/S
67	CALL iom_get( numror, jpdom_autoglo, 'umask' , zumask_b ) ! need to correct barotropic velocity
68	CALL iom_get( numror, jpdom_autoglo, 'vmask' , zvmask_b ) ! need to correct barotropic velocity
69	CALL iom_get( numror, jpdom_autoglo, 'smask' , zsmask_b ) ! need to correct barotropic velocity
70	CALL iom_get( numror, jpdom_autoglo, 'e3t_n' , ze3t_b(:,:,:) ) ! need to compute temperature correction
71	CALL iom_get( numror, jpdom_autoglo, 'e3u_n' , ze3u_b(:,:,:) ) ! need to correct barotropic velocity
72	CALL iom_get( numror, jpdom_autoglo, 'e3v_n' , ze3v_b(:,:,:) ) ! need to correct barotropic velocity
73	CALL iom_get( numror, jpdom_autoglo, 'gdepw_n', zdepw_b(:,:,:) ) ! need to interpol vertical profile (vvl)
74
75	!! read namelist
76	CALL iscpl_init()
77
78	!! ! Extrapolation/interpolation of modify cell and new cells ... (maybe do it later after domvvl)
79	CALL iscpl_rst_interpol( ztmask_b, zumask_b, zvmask_b, zsmask_b, ze3t_b, ze3u_b, ze3v_b, zdepw_b )
80
81	!! compute correction if conservation needed
82	IF ( ln_hsb ) THEN
83	IF( iscpl_alloc() /= 0 ) CALL ctl_stop( 'STOP', 'rst_iscpl : unable to allocate rst_iscpl arrays' )
84	CALL iscpl_cons(ztmask_b, zsmask_b, ze3t_b, htsc_iscpl, hdiv_iscpl, rdt_iscpl)
85	END IF
86
87	!! print mesh/mask
88	IF( nmsh /= 0 .AND. ln_iscpl ) CALL dom_wri ! Create a domain file
89
90	IF ( ln_hsb ) THEN
91	cfile='correction'
92	cfile = TRIM( cfile )
93	CALL iom_open ( cfile, inum0, ldwrt = .TRUE., kiolib = jprstlib )
94	CALL iom_rstput( 0, 0, inum0, 'vol_cor', hdiv_iscpl(:,:,:) )
95	CALL iom_rstput( 0, 0, inum0, 'tem_cor', htsc_iscpl(:,:,:,jp_tem) )
96	CALL iom_rstput( 0, 0, inum0, 'sal_cor', htsc_iscpl(:,:,:,jp_sal) )
97	CALL iom_close ( inum0 )
98	END IF
99
100	CALL wrk_dealloc(jpi,jpj,jpk, ztmask_b,zumask_b,zvmask_b )
101	CALL wrk_dealloc(jpi,jpj,jpk, ze3t_b ,ze3u_b ,ze3v_b )
102	CALL wrk_dealloc(jpi,jpj,jpk, zdepw_b )
103	CALL wrk_dealloc(jpi,jpj, zsmask_b )
104
105	!! next step is an euler time step
106	neuler = 0
107
108	!! set _b and _n variables equal
109	tsb (:,:,:,:) = tsn (:,:,:,:)
110	ub (:,:,: ) = un (:,:,: )
111	vb (:,:,: ) = vn (:,:,: )
112	sshb(:,: ) = sshn(:,:)
113
114	!! set _b and _n vertical scale factor equal
115	e3t_b (:,:,:) = e3t_n (:,:,:)
116	e3u_b (:,:,:) = e3u_n (:,:,:)
117	e3v_b (:,:,:) = e3v_n (:,:,:)
118
119	e3uw_b(:,:,:) = e3uw_n(:,:,:)
120	e3vw_b(:,:,:) = e3vw_n(:,:,:)
121	gdept_b(:,:,:) = gdept_n(:,:,:)
122	gdepw_b(:,:,:) = gdepw_n(:,:,:)
123	hu_b (:,:) = hu_n(:,:)
124	hv_b (:,:) = hv_n(:,:)
125	r1_hu_b(:,:) = r1_hu_n(:,:)
126	r1_hv_b(:,:) = r1_hv_n(:,:)
127	!
128	END SUBROUTINE iscpl_stp
129
130	SUBROUTINE iscpl_rst_interpol (ptmask_b, pumask_b, pvmask_b, psmask_b, pe3t_b, pe3u_b, pe3v_b, pdepw_b)
131	!!----------------------------------------------------------------------
132	!! * ROUTINE iscpl_rst_interpol *
133	!!
134	!! ** Purpose : compute new tn, sn, un, vn and sshn in case of evolving geometry of ice shelves
135	!! compute 2d fields of heat, salt and volume correction
136	!!
137	!! ** Method : tn, sn : extrapolation from neigbourg cells
138	!! un, vn : fill with 0 velocity and keep barotropic transport by modifing surface velocity or adjacent velocity
139	!!----------------------------------------------------------------------
140	REAL(wp), DIMENSION(:,:,: ), INTENT(in ) :: ptmask_b, pumask_b, pvmask_b !! mask before
141	REAL(wp), DIMENSION(:,:,: ), INTENT(in ) :: pe3t_b , pe3u_b , pe3v_b !! scale factor before
142	REAL(wp), DIMENSION(:,:,: ), INTENT(in ) :: pdepw_b !! depth w before
143	REAL(wp), DIMENSION(:,: ), INTENT(in ) :: psmask_b !! mask before
144	!!
145	INTEGER :: ji, jj, jk, iz !! loop index
146	INTEGER :: jip1, jim1, jjp1, jjm1, jkp1, jkm1
147	!!
148	REAL(wp):: summsk, zsum, zsum1, zarea, zsumn, zsumb
149	REAL(wp):: zdz, zdzm1, zdzp1
150	!!
151	REAL(wp), DIMENSION(:,: ), POINTER :: zdmask , zdsmask, zvcorr, zucorr, zde3t
152	REAL(wp), DIMENSION(:,: ), POINTER :: zbub , zbvb , zbun , zbvn
153	REAL(wp), DIMENSION(:,: ), POINTER :: zssh0 , zssh1, zhu1, zhv1
154	REAL(wp), DIMENSION(:,: ), POINTER :: zsmask0, zsmask1
155	REAL(wp), DIMENSION(:,:,: ), POINTER :: ztmask0, ztmask1, ztrp
156	REAL(wp), DIMENSION(:,:,: ), POINTER :: zwmaskn, zwmaskb, ztmp3d
157	REAL(wp), DIMENSION(:,:,:,:), POINTER :: zts0
158	!!----------------------------------------------------------------------
159
160	!! allocate variables
161	CALL wrk_alloc(jpi,jpj,jpk,2, zts0 )
162	CALL wrk_alloc(jpi,jpj,jpk, ztmask0, ztmask1 , ztrp, ztmp3d )
163	CALL wrk_alloc(jpi,jpj,jpk, zwmaskn, zwmaskb )
164	CALL wrk_alloc(jpi,jpj, zsmask0, zsmask1 )
165	CALL wrk_alloc(jpi,jpj, zdmask , zdsmask, zvcorr, zucorr, zde3t)
166	CALL wrk_alloc(jpi,jpj, zbub , zbvb , zbun , zbvn )
167	CALL wrk_alloc(jpi,jpj, zssh0 , zssh1, zhu1, zhv1 )
168
169	!! mask value to be sure
170	tsn(:,:,:,jp_tem) = tsn(:,:,:,jp_tem) * ptmask_b(:,:,:)
171	tsn(:,:,:,jp_sal) = tsn(:,:,:,jp_sal) * ptmask_b(:,:,:)
172
173	! compute wmask
174	zwmaskn(:,:,1) = tmask (:,:,1)
175	zwmaskb(:,:,1) = ptmask_b(:,:,1)
176	DO jk = 2,jpk
177	zwmaskn(:,:,jk) = tmask (:,:,jk) * tmask (:,:,jk-1)
178	zwmaskb(:,:,jk) = ptmask_b(:,:,jk) * ptmask_b(:,:,jk-1)
179	END DO
180
181	! compute new ssh if we open a full water column (average of the closest neigbourgs)
182	sshb (:,:)=sshn(:,:)
183	zssh0(:,:)=sshn(:,:)
184	zsmask0(:,:) = psmask_b(:,:)
185	zsmask1(:,:) = psmask_b(:,:)
186	DO iz = 1,10 ! need to be tuned (configuration dependent) (OK for ISOMIP+)
187	zdsmask(:,:) = ssmask(:,:)-zsmask0(:,:)
188	DO jj = 2,jpj-1
189	DO ji = fs_2, fs_jpim1 ! vector opt.
190	jip1=ji+1; jim1=ji-1;
191	jjp1=jj+1; jjm1=jj-1;
192	summsk=(zsmask0(jip1,jj)+zsmask0(jim1,jj)+zsmask0(ji,jjp1)+zsmask0(ji,jjm1))
193	IF (zdsmask(ji,jj) == 1._wp .AND. summsk /= 0._wp) THEN
194	sshn(ji,jj)=( zssh0(jip1,jj)*zsmask0(jip1,jj) &
195	& + zssh0(jim1,jj)*zsmask0(jim1,jj) &
196	& + zssh0(ji,jjp1)*zsmask0(ji,jjp1) &
197	& + zssh0(ji,jjm1)*zsmask0(ji,jjm1))/summsk
198	zsmask1(ji,jj)=1._wp
199	END IF
200	END DO
201	END DO
202	CALL lbc_lnk(sshn,'T',1._wp)
203	CALL lbc_lnk(zsmask1,'T',1._wp)
204	zssh0 = sshn
205	zsmask0 = zsmask1
206	END DO
207	sshn(:,:) = sshn(:,:) * ssmask(:,:)
208
209	!=============================================================================
210	!PM: Is this needed since introduction of VVL by default?
211	IF (.NOT.ln_linssh) THEN
212	! Reconstruction of all vertical scale factors at now time steps
213	! =============================================================================
214	! Horizontal scale factor interpolations
215	! --------------------------------------
216	DO jk = 1,jpk
217	DO jj = 1, jpj
218	DO ji = 1, jpi
219	IF( tmask(ji,jj,1) == 0._wp .OR. ptmask_b(ji,jj,1) == 0._wp) THEN
220	e3t_n(ji,jj,jk) = e3t_0(ji,jj,jk) &
221	& * ( 1._wp + sshn(ji,jj) / ( ht_0(ji,jj) + 1._wp - ssmask(ji,jj) ) * tmask(ji,jj,jk) )
222	ENDIF
223	END DO
224	END DO
225	END DO
226
227	CALL dom_vvl_interpol( e3t_n(:,:,:), e3u_n(:,:,:), 'U' )
228	CALL dom_vvl_interpol( e3t_n(:,:,:), e3v_n(:,:,:), 'V' )
229	CALL dom_vvl_interpol( e3u_n(:,:,:), e3f_n(:,:,:), 'F' )
230
231	! Vertical scale factor interpolations
232	! ------------------------------------
233	CALL dom_vvl_interpol( e3t_n(:,:,:), e3w_n (:,:,:), 'W' )
234	CALL dom_vvl_interpol( e3u_n(:,:,:), e3uw_n(:,:,:), 'UW' )
235	CALL dom_vvl_interpol( e3v_n(:,:,:), e3vw_n(:,:,:), 'VW' )
236
237	! t- and w- points depth
238	! ----------------------
239	gdept_n(:,:,1) = 0.5_wp * e3w_n(:,:,1)
240	gdepw_n(:,:,1) = 0.0_wp
241	gde3w_n(:,:,1) = gdept_n(:,:,1) - sshn(:,:)
242	DO jj = 1,jpj
243	DO ji = 1,jpi
244	DO jk = 2,mikt(ji,jj)-1
245	gdept_n(ji,jj,jk) = gdept_0(ji,jj,jk)
246	gdepw_n(ji,jj,jk) = gdepw_0(ji,jj,jk)
247	gde3w_n(ji,jj,jk) = gdept_0(ji,jj,jk) - sshn(ji,jj)
248	END DO
249	IF (mikt(ji,jj) > 1) THEN
250	jk = mikt(ji,jj)
251	gdept_n(ji,jj,jk) = gdepw_0(ji,jj,jk) + 0.5_wp * e3w_n(ji,jj,jk)
252	gdepw_n(ji,jj,jk) = gdepw_0(ji,jj,jk)
253	gde3w_n(ji,jj,jk) = gdept_n(ji,jj,jk ) - sshn (ji,jj)
254	END IF
255	DO jk = mikt(ji,jj)+1, jpk
256	gdept_n(ji,jj,jk) = gdept_n(ji,jj,jk-1) + e3w_n(ji,jj,jk)
257	gdepw_n(ji,jj,jk) = gdepw_n(ji,jj,jk-1) + e3t_n(ji,jj,jk-1)
258	gde3w_n(ji,jj,jk) = gdept_n(ji,jj,jk ) - sshn (ji,jj)
259	END DO
260	END DO
261	END DO
262
263	! t-, u- and v- water column thickness
264	! ------------------------------------
265	ht_n(:,:) = 0._wp ; hu_n(:,:) = 0._wp ; hv_n(:,:) = 0._wp
266	DO jk = 1, jpkm1
267	hu_n(:,:) = hu_n(:,:) + e3u_n(:,:,jk) * umask(:,:,jk)
268	hv_n(:,:) = hv_n(:,:) + e3v_n(:,:,jk) * vmask(:,:,jk)
269	ht_n(:,:) = ht_n(:,:) + e3t_n(:,:,jk) * tmask(:,:,jk)
270	END DO
271	! ! Inverse of the local depth
272	r1_hu_n(:,:) = 1._wp / ( hu_n(:,:) + 1._wp - ssumask(:,:) ) * ssumask(:,:)
273	r1_hv_n(:,:) = 1._wp / ( hv_n(:,:) + 1._wp - ssvmask(:,:) ) * ssvmask(:,:)
274
275	END IF
276
277	!=============================================================================
278	! compute velocity
279	! compute velocity in order to conserve barotropic velocity (modification by poderation of the scale factor).
280	ub(:,:,:)=un(:,:,:)
281	vb(:,:,:)=vn(:,:,:)
282	DO jk = 1,jpk
283	DO jj = 1,jpj
284	DO ji = 1,jpi
285	un(ji,jj,jk) = ub(ji,jj,jk)pe3u_b(ji,jj,jk)pumask_b(ji,jj,jk)/e3u_n(ji,jj,jk)*umask(ji,jj,jk);
286	vn(ji,jj,jk) = vb(ji,jj,jk)pe3v_b(ji,jj,jk)pvmask_b(ji,jj,jk)/e3v_n(ji,jj,jk)*vmask(ji,jj,jk);
287	END DO
288	END DO
289	END DO
290
291	! compute new velocity if we close a cell (check barotropic velocity and change velocity over the water column)
292	! compute barotropic velocity now and after
293	ztrp(:,:,:) = ub(:,:,:)*pe3u_b(:,:,:);
294	zbub(:,:) = SUM(ztrp,DIM=3)
295	ztrp(:,:,:) = vb(:,:,:)*pe3v_b(:,:,:);
296	zbvb(:,:) = SUM(ztrp,DIM=3)
297	ztrp(:,:,:) = un(:,:,:)*e3u_n(:,:,:);
298	zbun(:,:) = SUM(ztrp,DIM=3)
299	ztrp(:,:,:) = vn(:,:,:)*e3v_n(:,:,:);
300	zbvn(:,:) = SUM(ztrp,DIM=3)
301
302	! new water column
303	zhu1=0.0_wp ;
304	zhv1=0.0_wp ;
305	DO jk = 1,jpk
306	zhu1(:,:) = zhu1(:,:) + e3u_n(:,:,jk) * umask(:,:,jk)
307	zhv1(:,:) = zhv1(:,:) + e3v_n(:,:,jk) * vmask(:,:,jk)
308	END DO
309
310	! compute correction
311	zucorr = 0._wp
312	zvcorr = 0._wp
313	DO jj = 1,jpj
314	DO ji = 1,jpi
315	IF (zbun(ji,jj) /= zbub(ji,jj) .AND. zhu1(ji,jj) /= 0._wp ) THEN
316	zucorr(ji,jj) = (zbun(ji,jj) - zbub(ji,jj))/zhu1(ji,jj)
317	END IF
318	IF (zbvn(ji,jj) /= zbvb(ji,jj) .AND. zhv1(ji,jj) /= 0._wp ) THEN
319	zvcorr(ji,jj) = (zbvn(ji,jj) - zbvb(ji,jj))/zhv1(ji,jj)
320	END IF
321	END DO
322	END DO
323
324	! update velocity
325	DO jk = 1,jpk
326	un(:,:,jk)=(un(:,:,jk) - zucorr(:,:))*umask(:,:,jk)
327	vn(:,:,jk)=(vn(:,:,jk) - zvcorr(:,:))*vmask(:,:,jk)
328	END DO
329
330	!=============================================================================
331	! compute temp and salt
332	! compute new tn and sn if we open a new cell
333	tsb (:,:,:,:) = tsn(:,:,:,:)
334	zts0(:,:,:,:) = tsn(:,:,:,:)
335	ztmask1(:,:,:) = ptmask_b(:,:,:)
336	ztmask0(:,:,:) = ptmask_b(:,:,:)
337	DO iz = 1,nn_drown ! resolution dependent (OK for ISOMIP+ case)
338	DO jk = 1,jpk-1
339	zdmask=tmask(:,:,jk)-ztmask0(:,:,jk);
340	DO jj = 2,jpj-1
341	DO ji = fs_2,fs_jpim1
342	jip1=ji+1; jim1=ji-1;
343	jjp1=jj+1; jjm1=jj-1;
344	summsk= (ztmask0(jip1,jj ,jk)+ztmask0(jim1,jj ,jk)+ztmask0(ji ,jjp1,jk)+ztmask0(ji ,jjm1,jk))
345	IF (zdmask(ji,jj) == 1._wp .AND. summsk /= 0._wp) THEN
346	!! horizontal basic extrapolation
347	tsn(ji,jj,jk,1)=( zts0(jip1,jj ,jk,1)*ztmask0(jip1,jj ,jk) &
348	& +zts0(jim1,jj ,jk,1)*ztmask0(jim1,jj ,jk) &
349	& +zts0(ji ,jjp1,jk,1)*ztmask0(ji ,jjp1,jk) &
350	& +zts0(ji ,jjm1,jk,1)*ztmask0(ji ,jjm1,jk) ) / summsk
351	tsn(ji,jj,jk,2)=( zts0(jip1,jj ,jk,2)*ztmask0(jip1,jj ,jk) &
352	& +zts0(jim1,jj ,jk,2)*ztmask0(jim1,jj ,jk) &
353	& +zts0(ji ,jjp1,jk,2)*ztmask0(ji ,jjp1,jk) &
354	& +zts0(ji ,jjm1,jk,2)*ztmask0(ji ,jjm1,jk) ) / summsk
355	ztmask1(ji,jj,jk)=1
356	ELSEIF (zdmask(ji,jj) == 1._wp .AND. summsk == 0._wp) THEN
357	!! vertical extrapolation if horizontal extrapolation failed
358	jkm1=max(1,jk-1) ; jkp1=min(jpk,jk+1)
359	summsk=(ztmask0(ji,jj,jkm1)+ztmask0(ji,jj,jkp1))
360	IF (zdmask(ji,jj) == 1._wp .AND. summsk /= 0._wp ) THEN
361	tsn(ji,jj,jk,1)=( zts0(ji,jj,jkp1,1)*ztmask0(ji,jj,jkp1) &
362	& +zts0(ji,jj,jkm1,1)*ztmask0(ji,jj,jkm1))/summsk
363	tsn(ji,jj,jk,2)=( zts0(ji,jj,jkp1,2)*ztmask0(ji,jj,jkp1) &
364	& +zts0(ji,jj,jkm1,2)*ztmask0(ji,jj,jkm1))/summsk
365	ztmask1(ji,jj,jk)=1._wp
366	END IF
367	END IF
368	END DO
369	END DO
370	END DO
371
372	CALL lbc_lnk(tsn(:,:,:,1),'T',1._wp)
373	CALL lbc_lnk(tsn(:,:,:,2),'T',1._wp)
374	CALL lbc_lnk(ztmask1, 'T',1._wp)
375
376	! update
377	zts0(:,:,:,:) = tsn(:,:,:,:)
378	ztmask0 = ztmask1
379
380	END DO
381
382	! mask new tsn field
383	tsn(:,:,:,jp_tem) = tsn(:,:,:,jp_tem) * tmask(:,:,:)
384	tsn(:,:,:,jp_sal) = tsn(:,:,:,jp_sal) * tmask(:,:,:)
385
386	! compute new T/S (interpolation) if vvl only for common wet cell in before and after wmask
387	!PM: Is this IF needed since change to VVL by default
388	IF (.NOT.ln_linssh) THEN
389	DO jk = 2, jpkm1
390	DO jj = 1, jpj
391	DO ji = 1, jpi
392	IF( zwmaskn(ji,jj,jk) * zwmaskb(ji,jj,jk) == 1._wp .AND. &
393	& ( tmask(ji,jj,1) == 0._wp .OR. ptmask_b(ji,jj,1) == 0._wp ) ) THEN
394	!compute weight
395	zdzp1 = MAX(0._wp,gdepw_n(ji,jj,jk+1) - pdepw_b(ji,jj,jk+1))
396	zdz = gdepw_n(ji,jj,jk+1) - pdepw_b(ji,jj,jk )
397	zdzm1 = MAX(0._wp,pdepw_b(ji,jj,jk ) - gdepw_n(ji,jj,jk ))
398	IF (zdz .LT. 0._wp) THEN
399	CALL ctl_stop( 'STOP', 'rst_iscpl : unable to compute the interpolation' )
400	END IF
401	tsn(ji,jj,jk,jp_tem) = ( zdzp1*tsb(ji,jj,jk+1,jp_tem) &
402	& + zdz *tsb(ji,jj,jk ,jp_tem) &
403	& + zdzm1*tsb(ji,jj,jk-1,jp_tem) )/e3t_n(ji,jj,jk)
404	tsn(ji,jj,jk,jp_sal) = ( zdzp1*tsb(ji,jj,jk+1,jp_sal) &
405	& + zdz *tsb(ji,jj,jk ,jp_sal) &
406	& + zdzm1*tsb(ji,jj,jk-1,jp_sal) )/e3t_n(ji,jj,jk)
407	END IF
408	END DO
409	END DO
410	END DO
411	END IF
412
413	! closed pool
414	! -----------------------------------------------------------------------------------------
415	! case we open a cell but no neigbour cells available to get an estimate of T and S
416	WHERE (tmask(:,:,:) == 1._wp .AND. tsn(:,:,:,2) == 0._wp)
417	tsn(:,:,:,2) = -99._wp ! Special value for closed pool (checking purpose in output.init)
418	tmask(:,:,:) = 0._wp ! set mask to 0 to run
419	umask(:,:,:) = 0._wp
420	vmask(:,:,:) = 0._wp
421	END WHERE
422
423	! set mbkt and mikt to 1 in thiese location
424	WHERE (SUM(tmask,dim=3) == 0)
425	mbkt(:,:)=1 ; mbku(:,:)=1 ; mbkv(:,:)=1
426	mikt(:,:)=1 ; miku(:,:)=1 ; mikv(:,:)=1
427	END WHERE
428	! -------------------------------------------------------------------------------------------
429	! compute new tn and sn if we close cell
430	! nothing to do
431	!
432	! deallocation tmp arrays
433	CALL wrk_dealloc(jpi,jpj,jpk,2, zts0 )
434	CALL wrk_dealloc(jpi,jpj,jpk, ztmask0, ztmask1 , ztrp )
435	CALL wrk_dealloc(jpi,jpj,jpk, zwmaskn, zwmaskb , ztmp3d )
436	CALL wrk_dealloc(jpi,jpj, zsmask0, zsmask1 )
437	CALL wrk_dealloc(jpi,jpj, zdmask , zdsmask, zvcorr, zucorr, zde3t)
438	CALL wrk_dealloc(jpi,jpj, zbub , zbvb , zbun , zbvn )
439	CALL wrk_dealloc(jpi,jpj, zssh0 , zssh1 , zhu1 , zhv1 )
440	!
441	END SUBROUTINE iscpl_rst_interpol
442
443	!!======================================================================
444	END MODULE iscplrst

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