Context Navigation

← Previous Revision
Latest Revision
Next Revision →
Blame
Revision Log

domrea_dimg.h90 @ 2240

Last change on this file since 2240 was 2240, checked in by cetlod, 14 years ago
Suppression of key_zco everywhere in the code
File size: 16.3 KB

Line
1	SUBROUTINE dom_rea
2	!!----------------------------------------------------------------------
3	!! * ROUTINE dom_rea * 'key_mpp'
4	!!
5	!! ** Purpose : READ the direct access files which contains all the
6	!! ocean domain informations (mesh and mask arrays). These
7	!! files are used for visualisation (SAXO software) and
8	!! diagnostic computation.
9	!!
10	!! ** Method : READ in a file all the arrays generated in routines
11	!! domhgr, domzgr, and dommsk. Note: the file contain depends on
12	!! the vertical coord. used (z-coord, partial steps, s-coord)
13	!! For mpp output direct access files are used and each processor
14	!! uses a record range. Off line program (build_nc_meshmask) can be used
15	!! to reconstruct the Netcdf files
16	!! nmsh = 1 : 'mesh_mask.nc' file
17	!! = 2 : 'mesh.nc' and mask.nc' files
18	!! = 3 : 'mesh_hgr.nc', 'mesh_zgr.nc' and
19	!! 'mask.nc' files
20	!! For huge size domain, use option 2 or 3 depending on your
21	!! vertical coordinate.
22	!!
23	!! ** output file :
24	!! meshmask.nc : domain size, horizontal grid-point position,
25	!! masks, depth and vertical scale factors
26	!!
27	!! History :
28	!! ! 97-02 (G. Madec) Original code
29	!! ! 99-11 (M. Imbard) NetCDF FORMAT with IOIPSL
30	!! 9.0 ! 02-08 (G. Madec) F90 and several file
31	!! ! 04-01 (J.M. Molines) MPP i/o
32	!!----------------------------------------------------------------------
33	!! OPA 9.0 , LOCEAN-IPSL (2005)
34	!! $Id: domrea_dimg.h90 1715 2009-11-05 15:18:26Z smasson $
35	!! This software is governed by the CeCILL licence see modipsl/doc/NEMO_CeCILL.txt
36	!!----------------------------------------------------------------------
37	!! * Modules used
38	USE lib_mpp
39	USE dom_oce ! ocean space and time domain
40
41	!! * Local declarations
42	!! * Local declarations
43	INTEGER :: & !!! * temprary units for :
44	inum0 , & ! 'mesh_mask.nc' file
45	inum1 , & ! 'mesh.nc' file
46	inum2 , & ! 'mask.nc' file
47	inum3 , & ! 'mesh_hgr.nc' file
48	inum4 ! 'mesh_zgr.nc' file
49	INTEGER :: itime ! output from restini ???
50	INTEGER :: irecl8, irec ! Record length (bytes) for output file
51	INTEGER :: jk ! loop index
52	INTEGER :: ios1, ios2
53	INTEGER, DIMENSION(11:15) :: irecv ! index of this array will be inumxxx
54	REAL(wp) :: zdate0
55	REAL(wp), DIMENSION(jpi,jpj) :: &
56	zprt ! temporary array for bathymetry
57
58	CHARACTER (len=21) :: &
59	clnam0 = 'mesh_mask', & ! filename (mesh and mask informations)
60	clnam1 = 'mesh' , & ! filename (mesh informations)
61	clnam2 = 'mask' , & ! filename (mask informations)
62	clnam3 = 'mesh_hgr' , & ! filename (horizontal mesh informations)
63	clnam4 = 'mesh_zgr' ! filename (vertical mesh informations)
64	!!----------------------------------------------------------------------
65
66	IF(lwp) WRITE(numout,*)
67	IF(lwp) WRITE(numout,*) 'dom_rea : read direct access mesh and mask information files'
68	IF(lwp) WRITE(numout,*) '~~~~~~~'
69
70	inum0 = 11
71	irecl8 = jpijpjwp
72	ios1 = 0 ; ios2 = 0
73	IF (ln_zps ) ios1= 1
74	IF (ln_sco ) ios2= 1
75
76	SELECT CASE (nmsh )
77	! !==============================
78	CASE ( 1 ) ! read 'mesh_mask' file
79	! !==============================
80	IF (lwp) WRITE(numout,*) ' one file in "mesh_mask.dimgproc '
81	OPEN(inum0,FILE=trim(clnam0)//'.mpp', &
82	& FORM='UNFORMATTED', ACCESS='DIRECT', RECL = irecl8 )
83	IF (lwp )READ(inum0,REC=1 ) irecl8, nmsh, ios1,ios2 , &
84	& ndastp, adatrj, jpi,jpj,jpk, &
85	& jpni,jpnj,jpnij,jpiglo,jpjglo, &
86	& nlcit,nlcjt, nldit, nldjt, nleit, nlejt, nimppt, njmppt
87
88	inum2 = inum0
89	inum3 = inum0
90	inum4 = inum0
91
92	! ! ============================
93	CASE ( 2 ) ! read 'mesh' and
94	! ! 'mask' files
95	! ! ============================
96
97	IF(lwp) WRITE(numout,*) ' two files in "mesh" and "mask" '
98	inum1 = 12
99	inum2 = 13
100	OPEN(inum1,FILE=trim(clnam1)//'.mpp', &
101	& FORM='UNFORMATTED', ACCESS='DIRECT', RECL = irecl8 )
102	IF (lwp) READ(inum1,REC=1 ) irecl8, nmsh, ios1,ios2 , &
103	& ndastp, adatrj, jpi,jpj,jpk, &
104	& jpni,jpnj,jpnij,jpiglo,jpjglo, &
105	& nlcit,nlcjt, nldit, nldjt, nleit, nlejt, nimppt, njmppt
106
107	inum3 = inum1
108	inum4 = inum1
109	OPEN(inum2,FILE=trim(clnam2)//'.mpp', &
110	& FORM='UNFORMATTED', ACCESS='DIRECT', RECL = irecl8 )
111	IF (lwp) READ(inum2,REC=1 ) irecl8, nmsh, ios1,ios2 , &
112	& ndastp, adatrj, jpi,jpj,jpk, &
113	& jpni,jpnj,jpnij,jpiglo,jpjglo, &
114	& nlcit,nlcjt, nldit, nldjt, nleit, nlejt, nimppt, njmppt
115
116	! ! ============================
117	CASE ( 3 ) ! read 'mesh_hgr'
118	! ! 'mesh_zgr' and
119	! ! 'mask' files
120	! ! ============================
121
122	IF(lwp) WRITE(numout,*) ' three files in "mesh_hgr" , mesh_zgr" and "mask" '
123	inum3 = 14
124	inum2 = 13
125	inum4 = 15
126
127	OPEN(inum3,FILE=trim(clnam3)//'.mpp', &
128	& FORM='UNFORMATTED', ACCESS='DIRECT', RECL = irecl8 )
129	IF (lwp) READ(inum3,REC=1 ) irecl8, nmsh, ios1,ios2 , &
130	& ndastp, adatrj, jpi,jpj,jpk, &
131	& jpni,jpnj,jpnij,jpiglo,jpjglo, &
132	& nlcit,nlcjt, nldit, nldjt, nleit, nlejt, nimppt, njmppt
133
134	OPEN(inum2,FILE=trim(clnam2)//'.mpp', &
135	& FORM='UNFORMATTED', ACCESS='DIRECT', RECL = irecl8 )
136	IF (lwp) READ(inum2,REC=1 ) irecl8, nmsh, ios1,ios2 , &
137	& ndastp, adatrj, jpi,jpj,jpk, &
138	& jpni,jpnj,jpnij,jpiglo,jpjglo, &
139	& nlcit,nlcjt, nldit, nldjt, nleit, nlejt, nimppt, njmppt
140
141	OPEN(inum4,FILE=trim(clnam4)//'.mpp', &
142	& FORM='UNFORMATTED', ACCESS='DIRECT', RECL = irecl8 )
143	IF (lwp) READ(inum4,REC=1 ) irecl8, nmsh, ios1,ios2 , &
144	& ndastp, adatrj, jpi,jpj,jpk, &
145	& jpni,jpnj,jpnij,jpiglo,jpjglo, &
146	& nlcit,nlcjt, nldit, nldjt, nleit, nlejt, nimppt, njmppt
147
148	END SELECT
149
150	irecv(:) = 2
151	! tmask
152	DO jk=1,jpk
153	irec=irecv(inum2) + (jk -1 ) + jpk * (narea - 1 )
154	READ(inum2,REC=irec) tmask(:,:,jk)
155	END DO
156	irecv(inum2) = irecv(inum2) + jpk * jpnij
157	!
158	! umask
159	DO jk=1,jpk
160	irec=irecv(inum2) + (jk -1 ) + jpk * (narea - 1 )
161	READ(inum2,REC=irec) umask(:,:,jk)
162	END DO
163	irecv(inum2) = irecv(inum2) + jpk * jpnij
164	!
165	! vmask
166	DO jk=1,jpk
167	irec=irecv(inum2) + (jk -1 ) + jpk * (narea - 1 )
168	READ(inum2,REC=irec) vmask(:,:,jk)
169	END DO
170	irecv(inum2) = irecv(inum2) + jpk * jpnij
171	!
172	! fmask
173	DO jk=1,jpk
174	irec=irecv(inum2) + (jk -1 ) + jpk * (narea - 1 )
175	READ(inum2,REC=irec) fmask(:,:,jk)
176	END DO
177	irecv(inum2) = irecv(inum2) + jpk * jpnij
178	!
179	! glam
180	irec = irecv(inum3) + (narea - 1 )
181	READ(inum3,REC=irec) glamt(:,:)
182	irecv(inum3) = irecv(inum3) + jpnij
183
184	irec = irecv(inum3) + (narea - 1 )
185	READ(inum3,REC=irec) glamu(:,:)
186	irecv(inum3) = irecv(inum3) + jpnij
187
188	irec = irecv(inum3) + (narea - 1 )
189	READ(inum3,REC=irec) glamv(:,:)
190	irecv(inum3) = irecv(inum3) + jpnij
191
192	irec = irecv(inum3) + (narea - 1 )
193	READ(inum3,REC=irec) glamf(:,:)
194	irecv(inum3) = irecv(inum3) + jpnij
195	!
196	! gphi
197	irec = irecv(inum3) + (narea - 1 )
198	READ(inum3,REC=irec) gphit(:,:)
199	irecv(inum3) = irecv(inum3) + jpnij
200
201	irec = irecv(inum3) + (narea - 1 )
202	READ(inum3,REC=irec) gphiu(:,:)
203	irecv(inum3) = irecv(inum3) + jpnij
204
205	irec = irecv(inum3) + (narea - 1 )
206	READ(inum3,REC=irec) gphiv(:,:)
207	irecv(inum3) = irecv(inum3) + jpnij
208
209	irec = irecv(inum3) + (narea - 1 )
210	READ(inum3,REC=irec) gphif(:,:)
211	irecv(inum3) = irecv(inum3) + jpnij
212	!
213	! e1
214	irec = irecv(inum3) + (narea - 1 )
215	READ(inum3,REC=irec) e1t(:,:)
216	irecv(inum3) = irecv(inum3) + jpnij
217
218	irec = irecv(inum3) + (narea - 1 )
219	READ(inum3,REC=irec) e1u(:,:)
220	irecv(inum3) = irecv(inum3) + jpnij
221
222	irec = irecv(inum3) + (narea - 1 )
223	READ(inum3,REC=irec) e1v(:,:)
224	irecv(inum3) = irecv(inum3) + jpnij
225
226	irec = irecv(inum3) + (narea - 1 )
227	READ(inum3,REC=irec) e1f(:,:)
228	irecv(inum3) = irecv(inum3) + jpnij
229	!
230	! e2
231	irec = irecv(inum3) + (narea - 1 )
232	READ(inum3,REC=irec) e2t(:,:)
233	irecv(inum3) = irecv(inum3) + jpnij
234
235	irec = irecv(inum3) + (narea - 1 )
236	READ(inum3,REC=irec) e2u(:,:)
237	irecv(inum3) = irecv(inum3) + jpnij
238
239	irec = irecv(inum3) + (narea - 1 )
240	READ(inum3,REC=irec) e2v(:,:)
241	irecv(inum3) = irecv(inum3) + jpnij
242
243	irec = irecv(inum3) + (narea - 1 )
244	READ(inum3,REC=irec) e2f(:,:)
245	irecv(inum3) = irecv(inum3) + jpnij
246	!
247	! ff
248	irec = irecv(inum3) + (narea - 1 )
249	READ(inum3,REC=irec) ff(:,:)
250	irecv(inum3) = irecv(inum3) + jpnij
251	!
252	! mbathy
253	! note that mbathy has been modified in dommsk or in solver.
254	! it is the number of non-zero "w" levels in the water, and the minimum
255	! value (on land) is 2. We define zprt as the number of "T" points in the ocean
256	! at any location, and zero on land.
257	!
258	irec = irecv(inum4) + (narea - 1 )
259	READ(inum4,REC=irec) zprt(:,:)
260	irecv(inum4) = irecv(inum4) + jpnij
261
262	mbathy=zprt*tmask(:,:,1)+1
263
264	IF( ln_sco ) THEN ! s-coordinate
265	!
266	! hbat
267	irec = irecv(inum4) + (narea - 1 )
268	READ(inum4,REC=irec) hbatt(:,:)
269	irecv(inum4) = irecv(inum4) + jpnij
270
271	irec = irecv(inum4) + (narea - 1 )
272	READ(inum4,REC=irec) hbatu(:,:)
273	irecv(inum4) = irecv(inum4) + jpnij
274
275	irec = irecv(inum4) + (narea - 1 )
276	READ(inum4,REC=irec) hbatv(:,:)
277	irecv(inum4) = irecv(inum4) + jpnij
278
279	irec = irecv(inum4) + (narea - 1 )
280	READ(inum4,REC=irec) hbatf(:,:)
281	irecv(inum4) = irecv(inum4) + jpnij
282	!
283	! gsig and esig ( as vectors of jpk per record )
284	irec = irecv(inum4) + (narea - 1 )
285	READ(inum4,REC=irec) gsigt(:)
286	irecv(inum4) = irecv(inum4) + jpnij
287
288	irec = irecv(inum4) + (narea - 1 )
289	READ(inum4,REC=irec) gsigw(:)
290	irecv(inum4) = irecv(inum4) + jpnij
291
292	irec = irecv(inum4) + (narea - 1 )
293	READ(inum4,REC=irec) gsi3w(:)
294	irecv(inum4) = irecv(inum4) + jpnij
295
296	irec = irecv(inum4) + (narea - 1 )
297	READ(inum4,REC=irec) esigt(:)
298	irecv(inum4) = irecv(inum4) + jpnij
299
300	irec = irecv(inum4) + (narea - 1 )
301	READ(inum4,REC=irec) esigw(:)
302	irecv(inum4) = irecv(inum4) + jpnij
303
304	! e3 (3D)
305	DO jk=1,jpk
306	irec = irecv(inum4) + (jk -1 ) + jpk * (narea - 1 )
307	READ(inum4,REC=irec) e3t(:,:,jk)
308	ENDIF
309	irecv(inum4) = irecv(inum4) + jpk * jpnij
310
311	DO jk=1,jpk
312	irec = irecv(inum4) + (jk -1 ) + jpk * (narea - 1 )
313	READ(inum4,REC=irec) e3u(:,:,jk)
314	ENDIF
315	irecv(inum4) = irecv(inum4) + jpk * jpnij
316
317	DO jk=1,jpk
318	irec = irecv(inum4) + (jk -1 ) + jpk * (narea - 1 )
319	READ(inum4,REC=irec) e3v(:,:,jk)
320	ENDIF
321	irecv(inum4) = irecv(inum4) + jpk * jpnij
322
323	DO jk=1,jpk
324	irec = irecv(inum4) + (jk -1 ) + jpk * (narea - 1 )
325	READ(inum4,REC=irec) e3w(:,:,jk)
326	ENDIF
327	irecv(inum4) = irecv(inum4) + jpk * jpnij
328
329	! gdep
330	irec = irecv(inum4) + (narea - 1 )
331	READ(inum4,REC=irec) gdept_0(:)
332	irecv(inum4) = irecv(inum4) + jpnij
333
334	irec = irecv(inum4) + (narea - 1 )
335	READ(inum4,REC=irec) gdepw_0(:)
336	irecv(inum4) = irecv(inum4) + jpnij
337	!
338	ENDIF
339
340	IF( ln_zps ) THEN
341	!
342	! hdep
343	irec = irecv(inum4) + (narea - 1 )
344	READ(inum4,REC=irec) hdept(:,:)
345	irecv(inum4) = irecv(inum4) + jpnij
346
347	irec = irecv(inum4) + (narea - 1 )
348	READ(inum4,REC=irec) hdepw(:,:)
349	irecv(inum4) = irecv(inum4) + jpnij
350	!
351	! e3t_ps (3D)
352	DO jk=1,jpk
353	irec=irecv(inum4) + (jk -1 ) + jpk * (narea - 1 )
354	READ(inum4,REC=irec) e3t(:,:,jk)
355	END DO
356	irecv(inum4) = irecv(inum4) + jpk * jpnij
357
358	! e3u_ps e3v_ps e3w_ps (3D)
359	DO jk=1,jpk
360	irec=irecv(inum4) + (jk -1 ) + jpk * (narea - 1 )
361	READ(inum4,REC=irec) e3u(:,:,jk)
362	END DO
363	irecv(inum4) = irecv(inum4) + jpk * jpnij
364
365	DO jk=1,jpk
366	irec=irecv(inum4) + (jk -1 ) + jpk * (narea - 1 )
367	READ(inum4,REC=irec) e3v(:,:,jk)
368	END DO
369	irecv(inum4) = irecv(inum4) + jpk * jpnij
370
371	DO jk=1,jpk
372	irec=irecv(inum4) + (jk -1 ) + jpk * (narea - 1 )
373	READ(inum4,REC=irec) e3w(:,:,jk)
374	END DO
375	irecv(inum4) = irecv(inum4) + jpk * jpnij
376	!
377	!
378	! gdep
379	irec = irecv(inum4) + (narea - 1 )
380	READ(inum4,REC=irec) gdept_0(:)
381	irecv(inum4) = irecv(inum4) + jpnij
382
383	irec = irecv(inum4) + (narea - 1 )
384	READ(inum4,REC=irec) gdepw_0(:)
385	irecv(inum4) = irecv(inum4) + jpnij
386	!
387	! e3
388	irec = irecv(inum4) + (narea - 1 )
389	READ(inum4,REC=irec) e3t_0(:)
390	irecv(inum4) = irecv(inum4) + jpnij
391
392	irec = irecv(inum4) + (narea - 1 )
393	READ(inum4,REC=irec) e3w_0(:)
394	ENDIF
395	! ! ============================
396	! ! close the files
397	! ! ============================
398	SELECT CASE ( nmsh )
399	CASE ( 1 )
400	CLOSE ( inum0 )
401	CASE ( 2 )
402	CLOSE ( inum1 )
403	CLOSE ( inum2 )
404	CASE ( 3 )
405	CLOSE ( inum2 )
406	CLOSE ( inum3 )
407	CLOSE ( inum4 )
408	END SELECT
409
410	END SUBROUTINE dom_rea

Note: See TracBrowser for help on using the repository browser.

Download in other formats:

Original Format

New URL for NEMO forge! http://forge.nemo-ocean.eu

Context Navigation

source: branches/DEV_r2106_LOCEAN2010/NEMO/OFF_SRC/domrea_dimg.h90 @ 2240

Download in other formats: