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oasis.true @ 3722

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1	!
2	! $Header$
3	!
4	C $Id: oasis.true 524 2004-05-19 12:53:04Z idelkadi $
5	C****
6	C
7	C**** INICMA - Initialize coupled mode communication for atmosphere
8	C and exchange some initial information with Oasis
9	C
10	C Input:
11	C -----
12	C KASTP : total number of timesteps in atmospheric model
13	C KEXCH : frequency of exchange (in time steps)
14	C KSTEP : length of timestep (in seconds)
15	C
16	C -----------------------------------------------------------
17	C
18	SUBROUTINE inicma(kastp,kexch,kstep,imjm)
19	c
20	c INCLUDE "param.h"
21	c
22	INTEGER kastp, kexch, kstep,imjm
23	INTEGER iparal(3)
24	INTEGER ifcpl, idt, info, imxtag, istep, jf
25	c
26	#include "param_cou.h"
27	#include "inc_cpl.h"
28	CHARACTER*3 cljobnam ! experiment name
29	CHARACTER*6 clmodnam ! model name
30	c EM: not used by Oasis2.4
31	CEM CHARACTER*6 clbid(2) ! for CLIM_Init call (not used)
32	CEM ! must be dimensioned by the number of models
33	CEM INTEGER nbid(2) ! for CLIM_Init call (not used)
34	CEM ! must be dimensioned by the number of models
35	CHARACTER*5 cloasis ! coupler name (Oasis)
36	INTEGER imess(4)
37	INTEGER getpid ! system functions
38	INTEGER nuout
39	CEM LOGICAL llmodel
40	PARAMETER (nuout = 6)
41	c
42	#include "clim.h"
43	#include "mpiclim.h"
44	c
45	#include "oasis.h" ! contains the name of communication technique. Here
46	! cchan=CLIM only is possible.
47	c ! ctype=MPI2
48	c
49	C -----------------------------------------------------------
50	C
51	C* 1. Initializations
52	C ---------------
53	C
54	WRITE(nuout,*) ' '
55	WRITE(nuout,*) ' '
56	WRITE(nuout,*) ' ROUTINE INICMA'
57	WRITE(nuout,) ' *************'
58	WRITE(nuout,*) ' '
59	WRITE(nuout,*) ' '
60	c
61	c Define the model name
62	c
63	clmodnam = 'lmdz.x' ! as in $NBMODEL in Cpl/Nam/namcouple.tmp
64	c
65	c Define the coupler name
66	c
67	cloasis = 'Oasis' ! always 'Oasis' as in the coupler
68	c
69	c
70	c Define symbolic name for fields exchanged from atmos to coupler,
71	c must be the same as (1) of the field definition in namcouple:
72	c
73	cl_writ(1)='COSHFICE'
74	cl_writ(2)='COSHFOCE'
75	cl_writ(3)='CONSFICE'
76	cl_writ(4)='CONSFOCE'
77	cl_writ(5)='CODFLXDT'
78	c cl_writ(6)='COICTEMP'
79	cl_writ(6)='COTFSICE'
80	cl_writ(7)='COTFSOCE'
81	cl_writ(8)='COTOLPSU'
82	cl_writ(9)='COTOSPSU'
83	cl_writ(10)='CORUNCOA'
84	cl_writ(11)='CORIVFLU'
85	cl_writ(12)='COCALVIN'
86	c$$$ cl_writ(13)='COZOTAUX'
87	c$$$ cl_writ(14)='COZOTAUV'
88	c$$$ cl_writ(15)='COMETAUY'
89	c$$$ cl_writ(16)='COMETAUU'
90	cl_writ(13)='COTAUXXU'
91	cl_writ(14)='COTAUYYU'
92	cl_writ(15)='COTAUZZU'
93	cl_writ(16)='COTAUXXV'
94	cl_writ(17)='COTAUYYV'
95	cl_writ(18)='COTAUZZV'
96	c
97	c Define files name for fields exchanged from atmos to coupler,
98	c must be the same as (6) of the field definition in namcouple:
99	c
100	cl_f_writ(1)='flxatmos'
101	cl_f_writ(2)='flxatmos'
102	cl_f_writ(3)='flxatmos'
103	cl_f_writ(4)='flxatmos'
104	cl_f_writ(5)='flxatmos'
105	cl_f_writ(6)='flxatmos'
106	cl_f_writ(7)='flxatmos'
107	cl_f_writ(8)='flxatmos'
108	cl_f_writ(9)='flxatmos'
109	cl_f_writ(10)='flxatmos'
110	cl_f_writ(11)='flxatmos'
111	cl_f_writ(12)='flxatmos'
112	cl_f_writ(13)='flxatmos'
113	cl_f_writ(14)='flxatmos'
114	cl_f_writ(15)='flxatmos'
115	cl_f_writ(16)='flxatmos'
116	cl_f_writ(17)='flxatmos'
117	cl_f_writ(18)='flxatmos'
118
119	c
120	c
121	c Define symbolic name for fields exchanged from coupler to atmosphere,
122	c must be the same as (2) of the field definition in namcouple:
123	c
124	cl_read(1)='SISUTESW'
125	cl_read(2)='SIICECOV'
126	cl_read(3)='SIICEALW'
127	cl_read(4)='SIICTEMW'
128	c
129	c Define files names for fields exchanged from coupler to atmosphere,
130	c must be the same as (7) of the field definition in namcouple:
131	c
132	cl_f_read(1)='sstatmos'
133	cl_f_read(2)='sstatmos'
134	cl_f_read(3)='sstatmos'
135	cl_f_read(4)='sstatmos'
136	c
137	c
138	c Define the number of processors involved in the coupling for
139	c Oasis (=1) and each model (as last two INTEGER on $CHATYPE line
140	c in the namcouple); they will be stored in a COMMON in mpiclim.h
141	c (used for CLIM/MPI2 only)
142	mpi_nproc(0)=1
143	mpi_nproc(1)=1
144	mpi_nproc(2)=1
145	c
146	c Define infos to be sent initially to oasis
147	c
148	imess(1) = kastp ! total number of timesteps in atmospheric model
149	imess(2) = kexch ! period of exchange (in time steps)
150	imess(3) = kstep ! length of atmospheric timestep (in seconds)
151	imess(4) = getpid() ! PID of atmospheric model
152	c
153	c Initialization and exchange of initial info in the CLIM technique
154	c
155	IF (cchan.eq.'CLIM') THEN
156	c
157	c Define the experiment name :
158	c
159	cljobnam = 'CLI' ! as $JOBNAM in namcouple
160	c
161	c Start the coupling
162	c (see lib/clim/src/CLIM_Init for the definition of input parameters)
163	c
164	cEM clbid(1)=' '
165	cEM clbid(2)=' '
166	cEM nbid(1)=0
167	cEM nbid(2)=0
168	CEM llmodel=.true.
169	c
170	c Define the number of processors used by each model as in
171	c $CHATYPE line of namcouple (used for CLIM/MPI2 only)
172	mpi_totproc(1)=1
173	mpi_totproc(2)=1
174	c
175	c Define names of each model as in $NBMODEL line of namcouple
176	c (used for CLIM/MPI2 only)
177	cmpi_modnam(1)='lmdz.x'
178	cmpi_modnam(2)='opa.xx'
179	c Start the coupling
180	c
181	CALL CLIM_Init ( cljobnam, clmodnam, 3, 7,
182	* kastp, kexch, kstep,
183	* 5, 3600, 3600, info )
184	c
185	IF (info.ne.CLIM_Ok) THEN
186	WRITE ( nuout, *) ' inicma : pb init clim '
187	WRITE ( nuout, *) ' error code is = ', info
188	CALL halte('STOP in inicma')
189	ELSE
190	WRITE(nuout,*) 'inicma : init clim ok '
191	ENDIF
192	c
193	c For each coupling field, association of a port to its symbolic name
194	c
195	c -Define the parallel decomposition associated to the port of each
196	c field; here no decomposition for all ports.
197	iparal ( clim_strategy ) = clim_serial
198	iparal ( clim_length ) = imjm
199	iparal ( clim_offset ) = 0
200	c
201	c -Loop on total number of coupler-to-atmosphere fields
202	c (see lib/clim/src/CLIM_Define for the definition of input parameters)
203	DO jf=1, jpfldo2a
204	CALL CLIM_Define (cl_read(jf), clim_in , clim_double, iparal
205	$ , info )
206	WRITE(nuout,*) 'inicma : clim define done for ',jf
207	$ ,cl_read(jf)
208	END DO
209	c
210	c -Loop on total number of atmosphere-to-coupler fields
211	c (see lib/clim/src/CLIM_Define for the definition of input parameters)
212	DO jf=1, jpflda2o1+jpflda2o2
213	CALL CLIM_Define (cl_writ(jf), clim_out , clim_double,
214	$ iparal, info )
215	WRITE(nuout,*) 'inicma : clim define done for ',jf
216	$ ,cl_writ(jf)
217	END DO
218	c
219	WRITE(nuout,*) 'inicma : clim_define ok '
220	c
221	c -Join a pvm group, wait for other programs and broadcast usefull
222	c informations to Oasis and to the ocean (see lib/clim/src/CLIM_Start)
223	CALL CLIM_Start ( imxtag, info )
224	IF (info.ne.clim_ok) THEN
225	WRITE ( nuout, *) 'inicma : pb start clim '
226	WRITE ( nuout, *) ' error code is = ', info
227	CALL halte('stop in inicma')
228	ELSE
229	WRITE ( nuout, *) 'inicma : start clim ok '
230	ENDIF
231	c
232	c -Get initial information from Oasis
233	c (see lib/clim/src/CLIM_Stepi)
234	CALL CLIM_Stepi (cloasis, istep, ifcpl, idt, info)
235	IF (info .NE. clim_ok) THEN
236	WRITE ( UNIT = nuout, FMT = *)
237	$ ' warning : problem in getting step info ',
238	$ 'from oasis '
239	WRITE (UNIT = nuout, FMT = *)
240	$ ' ======= error code number = ', info
241	ELSE
242	WRITE (UNIT = nuout, FMT = *)
243	$ ' got step information from oasis '
244	ENDIF
245	WRITE ( nuout, *) ' number of tstep in oasis ', istep
246	WRITE ( nuout, *) ' exchange frequency in oasis ', ifcpl
247	WRITE ( nuout, *) ' length of tstep in oasis ', idt
248	ENDIF
249
250	RETURN
251	END
252
253	c $Id: oasis.true 524 2004-05-19 12:53:04Z idelkadi $
254	SUBROUTINE fromcpl(kt, imjm, sst, gla, tice, albedo)
255	c ======================================================================
256	c S. Valcke (02/99) adapted From L.Z.X Li: this subroutine reads the SST
257	c and Sea-Ice provided by the coupler with the CLIM (PVM exchange messages)
258	c technique.
259	c======================================================================
260	IMPLICIT none
261	INTEGER imjm, kt
262	REAL sst(imjm) ! sea-surface-temperature
263	REAL gla(imjm) ! sea-ice
264	REAL tice(imjm) ! temp glace
265	REAL albedo(imjm) ! albedo glace
266	c
267	INTEGER nuout ! listing output unit
268	PARAMETER (nuout=6)
269	c
270	INTEGER nuread, ios, iflag, icpliter
271	INTEGER info, jf
272	c
273	#include "clim.h"
274	c
275	#include "oasis.h"
276	#include "param_cou.h"
277	c
278	#include "inc_cpl.h"
279	c
280	c
281	WRITE (nuout,*) ' '
282	WRITE (nuout,*) 'Fromcpl: Reading fields from CPL, kt=',kt
283	WRITE (nuout,*) ' '
284	CALL flush (nuout)
285
286
287	IF (cchan.eq.'CLIM') THEN
288
289	c
290	c -Get interpolated oceanic fields from Oasis
291	c
292	DO jf=1,jpfldo2a
293	IF (jf.eq.1) CALL CLIM_Import (cl_read(jf) , kt, sst, info)
294	IF (jf.eq.2) CALL CLIM_Import (cl_read(jf) , kt, gla, info)
295	IF (jf.eq.3) CALL CLIM_Import (cl_read(jf), kt,albedo, info)
296	IF (jf.eq.4) CALL CLIM_Import (cl_read(jf) , kt, tice, info)
297	IF ( info .NE. CLIM_Ok) THEN
298	WRITE(nuout,*)'Pb in reading ', cl_read(jf), jf
299	WRITE(nuout,*)'Couplage kt is = ',kt
300	WRITE(nuout,*)'CLIM error code is = ', info
301	CALL halte('STOP in fromcpl.F')
302	ENDIF
303	END DO
304
305	ENDIF
306	c
307	RETURN
308	END
309
310	c $Id: oasis.true 524 2004-05-19 12:53:04Z idelkadi $
311	SUBROUTINE intocpl(kt, imjm, fsolice, fsolwat, fnsolice, fnsolwat,
312	$ fnsicedt, evice, evwat, lpre, spre, dirunoff, rivrunoff,
313	$ calving, tauxx_u, tauyy_u, tauzz_u, tauxx_v, tauyy_v, tauzz_v
314	$ , last)
315	c ======================================================================
316	c S. Valcke (02/99) adapted From L.Z.X Li: this subroutine provides the
317	c atmospheric coupling fields to the coupler with the CLIM (PVM exchange
318	c messages) technique.
319	c IF last time step, writes output fields to binary files.
320	c ======================================================================
321	IMPLICIT NONE
322	INTEGER kt, imjm
323	c
324	REAL fsolice(imjm)
325	REAL fsolwat(imjm)
326	REAL fnsolwat(imjm)
327	REAL fnsolice(imjm)
328	REAL fnsicedt(imjm)
329	REAL evice(imjm)
330	REAL evwat(imjm)
331	REAL lpre(imjm)
332	REAL spre(imjm)
333	REAL dirunoff(imjm)
334	REAL rivrunoff(imjm)
335	REAL calving(imjm)
336	c$$$ REAL tauxu(imjm)
337	c$$$ REAL tauxv(imjm)
338	c$$$ REAL tauyu(imjm)
339	c$$$ REAL tauyv(imjm)
340	REAL tauxx_u(imjm)
341	REAL tauxx_v(imjm)
342	REAL tauyy_u(imjm)
343	REAL tauyy_v(imjm)
344	REAL tauzz_u(imjm)
345	REAL tauzz_v(imjm)
346	LOGICAL last
347	c
348	INTEGER nuout
349	PARAMETER (nuout = 6)
350	c
351	#include "clim.h"
352	#include "param_cou.h"
353	#include "inc_cpl.h"
354	c
355	CHARACTER*8 file_name(jpmaxfld)
356	INTEGER max_file
357	INTEGER file_unit_max, file_unit(jpmaxfld),
358	$ file_unit_field(jpmaxfld)
359
360	INTEGER icstep, info, jn, jf, ierror
361	LOGICAL trouve
362	c
363	#include "oasis.h"
364	c
365	icstep=kt
366	c
367	WRITE(nuout,*) ' '
368	WRITE(nuout,*) 'Intocpl: sending fields to CPL, kt= ', kt
369	WRITE(nuout,*) 'last ', last
370	WRITE(nuout,*)
371
372	IF (last) THEN
373	c
374	c -WRITE fields to binary files for coupler restart at last time step
375	c
376	c -initialisation and files opening
377	c
378	max_file=1
379	file_unit_max=99
380	c -keeps first file name
381	file_name(max_file)=cl_f_writ(max_file)
382	c -keeps first file unit
383	file_unit(max_file)=file_unit_max
384	c -decrements file unit maximum
385	file_unit_max=file_unit_max-1
386	c -keeps file unit for field
387	file_unit_field(1)=file_unit(max_file)
388	c
389	c -different files names counter
390	c
391	DO jf= 2, jpflda2o1 + jpflda2o2
392	trouve=.false.
393	DO jn= 1, max_file
394	IF (.not.trouve) THEN
395	IF (cl_f_writ(jf).EQ.file_name(jn)) THEN
396	c -keep file unit for field
397	file_unit_field(jf)=file_unit(jn)
398	trouve=.true.
399	END IF
400	END IF
401	END DO
402	IF (.not.trouve) then
403	c -increment the number of different files
404	max_file=max_file+1
405	c -keep file name
406	file_name(max_file)=cl_f_writ(jf)
407	c -keep file unit for file
408	file_unit(max_file)=file_unit_max
409	c -keep file unit for field
410	file_unit_field(jf)=file_unit(max_file)
411	c -decrement unit maximum number from 99 to 98, ...
412	file_unit_max=file_unit_max-1
413	END IF
414	END DO
415	c
416	DO jn=1, max_file
417	OPEN (file_unit(jn), FILE=file_name(jn), FORM='UNFORMATTED')
418	WRITE(,) 'Opening FILE ', file_unit(jn), ' '
419	$ , file_name(jn)
420	REWIND(file_unit(jn))
421	END DO
422	c
423	c WRITE fields to files
424	DO jf=1, jpflda2o1 + jpflda2o2
425	IF (jf.eq.1)
426	$ CALL locwrite(cl_writ(jf),fsolice, imjm,
427	$ file_unit_field(jf), ierror)
428	IF (jf.eq.2)
429	$ CALL locwrite(cl_writ(jf),fsolwat, imjm,
430	$ file_unit_field(jf), ierror)
431	IF (jf.eq.3)
432	$ CALL locwrite(cl_writ(jf),fnsolice, imjm,
433	$ file_unit_field(jf), ierror)
434	IF (jf.eq.4)
435	$ CALL locwrite(cl_writ(jf),fnsolwat, imjm,
436	$ file_unit_field(jf), ierror)
437	IF (jf.eq.5)
438	$ CALL locwrite(cl_writ(jf),fnsicedt, imjm,
439	$ file_unit_field(jf), ierror)
440	c IF (jf.eq.6)
441	c $ CALL locwrite(cl_writ(jf),ictemp, imjm,
442	c $ file_unit_field(jf), ierror)
443	IF (jf.eq.6)
444	$ CALL locwrite(cl_writ(jf),evice, imjm,
445	$ file_unit_field(jf), ierror)
446	IF (jf.eq.7)
447	$ CALL locwrite(cl_writ(jf),evwat, imjm,
448	$ file_unit_field(jf), ierror)
449	IF (jf.eq.8)
450	$ CALL locwrite(cl_writ(jf),lpre, imjm,
451	$ file_unit_field(jf), ierror)
452	IF (jf.eq.9)
453	$ CALL locwrite(cl_writ(jf),spre, imjm,
454	$ file_unit_field(jf), ierror)
455	IF (jf.eq.10)
456	$ CALL locwrite(cl_writ(jf),dirunoff, imjm,
457	$ file_unit_field(jf), ierror)
458	IF (jf.eq.11)
459	$ CALL locwrite(cl_writ(jf),rivrunoff, imjm,
460	$ file_unit_field(jf), ierror)
461	IF (jf.eq.12)
462	$ CALL locwrite(cl_writ(jf),calving, imjm,
463	$ file_unit_field(jf), ierror)
464	c$$$ IF (jf.eq.13)
465	c$$$ $ CALL locwrite(cl_writ(jf),tauxu, imjm,
466	c$$$ $ file_unit_field(jf),ierror)
467	c$$$ IF (jf.eq.1')
468	c$$$ $ CALL locwrite(cl_writ(jf),tauxv, imjm,
469	c$$$ $ file_unit_field(jf),ierror)
470	c$$$ IF (jf.eq.15)
471	c$$$ $ CALL locwrite(cl_writ(jf),tauyv, imjm,
472	c$$$ $ file_unit_field(jf),ierror)
473	c$$$ IF (jf.eq.16)
474	c$$$ $ CALL locwrite(cl_writ(jf),tauyu, imjm,
475	c$$$ $ file_unit_field(jf), ierror)
476	IF (jf.eq.13)
477	$ CALL locwrite(cl_writ(jf),tauxx_u, imjm,
478	$ file_unit_field(jf),ierror)
479	IF (jf.eq.14)
480	$ CALL locwrite(cl_writ(jf),tauyy_u, imjm,
481	$ file_unit_field(jf),ierror)
482	IF (jf.eq.15)
483	$ CALL locwrite(cl_writ(jf),tauzz_u, imjm,
484	$ file_unit_field(jf),ierror)
485	IF (jf.eq.16)
486	$ CALL locwrite(cl_writ(jf),tauxx_v, imjm,
487	$ file_unit_field(jf),ierror)
488	IF (jf.eq.17)
489	$ CALL locwrite(cl_writ(jf),tauyy_v, imjm,
490	$ file_unit_field(jf),ierror)
491	IF (jf.eq.18)
492	$ CALL locwrite(cl_writ(jf),tauzz_v, imjm,
493	$ file_unit_field(jf),ierror)
494	END DO
495	C
496	C -simulate a FLUSH
497	C
498	DO jn=1, max_file
499	CLOSE (file_unit(jn))
500	END DO
501	C
502	C
503	IF(cchan.eq.'CLIM') THEN
504	C
505	C -inform PVM daemon that message exchange is finished
506	C
507	CALL CLIM_Quit (CLIM_ContPvm, info)
508	IF (info .NE. CLIM_Ok) THEN
509	WRITE (6, *)
510	$ 'An error occured while leaving CLIM. Error = ',
511	$ info
512	ENDIF
513	END IF
514	RETURN
515	END IF
516	C
517	IF(cchan.eq.'CLIM') THEN
518	C
519	C -Give atmospheric fields to Oasis
520	C
521	DO jn=1, jpflda2o1 + jpflda2o2
522	C
523	IF (jn.eq.1) CALL CLIM_Export(cl_writ(jn), kt, fsolice, info)
524	IF (jn.eq.2) CALL CLIM_Export(cl_writ(jn), kt, fsolwat, info)
525	IF (jn.eq.3) CALL CLIM_Export(cl_writ(jn), kt, fnsolice, info)
526	IF (jn.eq.4) CALL CLIM_Export(cl_writ(jn), kt, fnsolwat, info)
527	IF (jn.eq.5) CALL CLIM_Export(cl_writ(jn), kt, fnsicedt, info)
528	c IF (jn.eq.6) CALL CLIM_Export(cl_writ(jn), kt, ictemp, info)
529	IF (jn.eq.6) CALL CLIM_Export(cl_writ(jn), kt, evice, info)
530	IF (jn.eq.7) CALL CLIM_Export(cl_writ(jn), kt, evwat, info)
531	IF (jn.eq.8) CALL CLIM_Export(cl_writ(jn), kt, lpre, info)
532	IF (jn.eq.9) CALL CLIM_Export(cl_writ(jn), kt, spre, info)
533	IF (jn.eq.10) CALL CLIM_Export(cl_writ(jn),kt,dirunoff, info)
534	IF (jn.eq.11) CALL CLIM_Export(cl_writ(jn),kt,rivrunoff,info)
535	IF (jn.eq.12) CALL CLIM_Export(cl_writ(jn),kt,calving,info)
536	c$$$ IF (jn.eq.13) CALL CLIM_Export(cl_writ(jn), kt, tauxu, info)
537	c$$$ IF (jn.eq.14) CALL CLIM_Export(cl_writ(jn), kt, tauxv, info)
538	c$$$ IF (jn.eq.15) CALL CLIM_Export(cl_writ(jn), kt, tauyv, info)
539	c$$$ IF (jn.eq.16) CALL CLIM_Export(cl_writ(jn), kt, tauyu, info)
540	IF (jn.eq.13) CALL CLIM_Export(cl_writ(jn), kt, tauxx_u, info)
541	IF (jn.eq.14) CALL CLIM_Export(cl_writ(jn), kt, tauyy_u, info)
542	IF (jn.eq.15) CALL CLIM_Export(cl_writ(jn), kt, tauzz_u, info)
543	IF (jn.eq.16) CALL CLIM_Export(cl_writ(jn), kt, tauxx_v, info)
544	IF (jn.eq.17) CALL CLIM_Export(cl_writ(jn), kt, tauyy_v, info)
545	IF (jn.eq.18) CALL CLIM_Export(cl_writ(jn), kt, tauzz_v, info)
546
547	IF (info .NE. CLIM_Ok) THEN
548	WRITE (nuout,*) 'STEP : Pb giving ',cl_writ(jn), ':',jn
549	WRITE (nuout,*) ' at timestep = ', icstep,'kt = ',kt
550	WRITE (nuout,*) 'Clim error code is = ',info
551	CALL halte('STOP in intocpl ')
552	ENDIF
553	END DO
554	ENDIF
555	C
556	RETURN
557	END
558
559	SUBROUTINE pipe_model_define
560	print*,'Attention dans oasis.F, pipe_model_define est non defini'
561	RETURN
562	END
563
564	SUBROUTINE pipe_model_stepi
565	print*,'Attention dans oasis.F, pipe_model_stepi est non defini'
566	RETURN
567	END
568
569	SUBROUTINE pipe_model_recv
570	print *, 'Attention dans oasis.F, pipe_model_recv est non defini'
571	RETURN
572	END
573
574	SUBROUTINE pipe_model_send
575	print *, 'Attention dans oasis.F, pipe_model_send est non defini'
576	RETURN
577	END
578
579	SUBROUTINE quitcpl
580	print *, 'Attention dans oasis.F, quitcpl est non defini'
581	RETURN
582	END
583
584	SUBROUTINE sipc_write_model
585	print *, 'Attention dans oasis.F, sipc_write_model est non defini'
586	RETURN
587	END
588
589	SUBROUTINE sipc_attach
590	print *, 'Attention dans oasis.F, sipc_attach est non defini'
591	RETURN
592	END
593
594	SUBROUTINE sipc_init_model
595	print *, 'Attention dans oasis.F, sipc_init_model est non defini'
596	RETURN
597	END
598
599	SUBROUTINE sipc_read_model
600	print *, 'Attention dans oasis.F, sipc_read_model est non defini'
601	RETURN
602	END

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