source: LMDZ6/branches/Amaury_dev/libf/phylmd/read_pstoke.F90 @ 5218

Last change on this file since 5218 was 5110, checked in by abarral, 5 months ago

Rename modules properly (mod_* -> lmdz_*) in phy_common

  • Property copyright set to
    Name of program: LMDZ
    Creation date: 1984
    Version: LMDZ5
    License: CeCILL version 2
    Holder: Laboratoire de m\'et\'eorologie dynamique, CNRS, UMR 8539
    See the license file in the root directory
  • Property svn:eol-style set to native
  • Property svn:keywords set to Author Date Id Revision
File size: 14.2 KB
Line 
1
2! $Id: read_pstoke.F90 5110 2024-07-24 09:19:08Z abarral $
3
4
5
6SUBROUTINE read_pstoke(irec, zrec, zklono, zklevo, airefi, phisfi, t, mfu, &
7    mfd, en_u, de_u, en_d, de_d, coefh, fm_therm, en_therm, frac_impa, &
8    frac_nucl, pyu1, pyv1, ftsol, psrf)
9
10  ! ******************************************************************************
11  ! Frederic HOURDIN, Abderrahmane IDELKADI
12  ! Lecture des parametres physique stockes online necessaires pour
13  ! recalculer offline le transport de traceurs sur une grille 2x plus fine
14  ! que
15  ! celle online
16  ! A FAIRE : une seule routine au lieu de 2 (lectflux, redecoupe)!
17  ! ******************************************************************************
18
19  USE netcdf, ONLY: nf90_open,nf90_inq_varid,nf90_nowrite,nf90_get_var,nf90_inquire_dimension,&
20          nf90_inq_dimid
21  USE dimphy
22  USE indice_sol_mod
23  USE lmdz_grid_phy, ONLY: nbp_lon, nbp_lat, nbp_lev
24
25  IMPLICIT NONE
26
27  INTEGER klono, klevo, imo, jmo
28!  PARAMETER (imo=iim/2, jmo=(jjm+1)/2)
29!  PARAMETER (klono=(jmo-1)*imo+2, klevo=llm)
30  REAL :: phisfi(((nbp_lat/2)-1)*(nbp_lon/2)+2) !phisfi(klono)
31  REAL,ALLOCATABLE :: phisfi2(:,:) !phisfi2(imo,jmo+1)
32  REAL,ALLOCATABLE :: airefi2(:,:) !airefi2(imo, jmo+1)
33
34  REAL :: mfu(((nbp_lat/2)-1)*(nbp_lon/2)+2,nbp_lev) ! mfu(klono, klevo)
35  REAL :: mfd(((nbp_lat/2)-1)*(nbp_lon/2)+2,nbp_lev) ! mfd(klono, klevo)
36  REAL :: en_u(((nbp_lat/2)-1)*(nbp_lon/2)+2,nbp_lev) !en_u(klono, klevo)
37  REAL :: de_u(((nbp_lat/2)-1)*(nbp_lon/2)+2,nbp_lev) !de_u(klono, klevo)
38  REAL :: en_d(((nbp_lat/2)-1)*(nbp_lon/2)+2,nbp_lev) !en_d(klono, klevo)
39  REAL :: de_d(((nbp_lat/2)-1)*(nbp_lon/2)+2,nbp_lev) !de_d(klono, klevo)
40  REAL :: coefh(((nbp_lat/2)-1)*(nbp_lon/2)+2,nbp_lev) !coefh(klono, klevo)
41  REAL :: fm_therm(((nbp_lat/2)-1)*(nbp_lon/2)+2,nbp_lev) !fm_therm(klono, klevo)
42  REAL :: en_therm(((nbp_lat/2)-1)*(nbp_lon/2)+2,nbp_lev) !en_therm(klono, klevo)
43
44  REAL,ALLOCATABLE :: mfu2(:,:,:) !mfu2(imo, jmo+1, klevo)
45  REAL,ALLOCATABLE :: mfd2(:,:,:) !mfd2(imo, jmo+1, klevo)
46  REAL,ALLOCATABLE :: en_u2(:,:,:) !en_u2(imo, jmo+1, klevo)
47  REAL,ALLOCATABLE :: de_u2(:,:,:) !de_u2(imo, jmo+1, klevo)
48  REAL,ALLOCATABLE :: en_d2(:,:,:) !en_d2(imo, jmo+1, klevo)
49  REAL,ALLOCATABLE :: de_d2(:,:,:) !de_d2(imo, jmo+1, klevo)
50  REAL,ALLOCATABLE :: coefh2(:,:,:) !coefh2(imo, jmo+1, klevo)
51  REAL,ALLOCATABLE :: fm_therm2(:,:,:) !fm_therm2(imo, jmo+1, klevo)
52  REAL,ALLOCATABLE :: en_therm2(:,:,:) !en_therm2(imo, jmo+1, klevo)
53
54  REAL,ALLOCATABLE :: pl(:) !pl(klevo)
55  INTEGER irec
56  INTEGER xid, yid, zid, tid
57  REAL zrec, zklono, zklevo, zim, zjm
58  INTEGER ncrec, ncklono, ncklevo, ncim, ncjm
59
60  REAL :: airefi(((nbp_lat/2)-1)*(nbp_lon/2)+2) !airefi(klono)
61  CHARACTER *20 namedim
62
63  ! !! attention !!
64  ! attention il y a aussi le pb de def klono
65  ! dim de phis??
66
67
68  REAL :: frac_impa(((nbp_lat/2)-1)*(nbp_lon/2)+2,nbp_lev) !frac_impa(klono, klevo)
69  REAL :: frac_nucl(((nbp_lat/2)-1)*(nbp_lon/2)+2,nbp_lev) !frac_nucl(klono, klevo)
70  REAL,ALLOCATABLE :: frac_impa2(:,:,:) !frac_impa2(imo, jmo+1, klevo)
71  REAL,ALLOCATABLE :: frac_nucl2(:,:,:) !frac_nucl2(imo, jmo+1, klevo)
72  REAL :: pyu1(((nbp_lat/2)-1)*(nbp_lon/2)+2) !pyu1(klono)
73  REAL :: pyv1(((nbp_lat/2)-1)*(nbp_lon/2)+2) !pyv1(klono)
74  REAL,ALLOCATABLE :: pyu12(:,:), pyv12(:,:) !pyu12(imo, jmo+1), pyv12(imo, jmo+1)
75  REAL :: ftsol(((nbp_lat/2)-1)*(nbp_lon/2)+2,nbp_lev) !ftsol(klono, nbsrf)
76  REAL :: psrf(((nbp_lat/2)-1)*(nbp_lon/2)+2,nbp_lev) !psrf(klono, nbsrf)
77  REAL,ALLOCATABLE :: ftsol1(:),ftsol2(:) !ftsol1(klono), ftsol2(klono)
78  REAL,ALLOCATABLE :: ftsol3(:),ftsol4(:) !ftsol3(klono), ftsol4(klono)
79  REAL,ALLOCATABLE :: psrf1(:), psrf2(:) !psrf1(klono), psrf2(klono)
80  REAL,ALLOCATABLE :: psrf3(:), psrf4(:) !psrf3(klono), psrf4(klono)
81  REAL,ALLOCATABLE :: ftsol12(:,:) !ftsol12(imo, jmo+1)
82  REAL,ALLOCATABLE :: ftsol22(:,:) !ftsol22(imo, jmo+1)
83  REAL,ALLOCATABLE :: ftsol32(:,:) !ftsol32(imo, jmo+1)
84  REAL,ALLOCATABLE :: ftsol42(:,:) !ftsol42(imo, jmo+1)
85  REAL,ALLOCATABLE :: psrf12(:,:) !psrf12(imo, jmo+1)
86  REAL,ALLOCATABLE :: psrf22(:,:) !psrf22(imo, jmo+1)
87  REAL,ALLOCATABLE :: psrf32(:,:) !psrf32(imo, jmo+1)
88  REAL,ALLOCATABLE :: psrf42(:,:) !psrf42(imo, jmo+1)
89  REAL :: t(((nbp_lon/2)-1)*(nbp_lat/2)+2,nbp_lev) !t(klono, klevo)
90  REAL,ALLOCATABLE :: t2(:,:,:) !t2(imo, jmo+1, klevo)
91  INTEGER,SAVE :: ncidp
92  INTEGER,SAVE :: varidt
93  INTEGER,SAVE :: varidmfu, varidmfd, varidps, varidenu, variddeu
94  INTEGER,SAVE :: varidend, varidded, varidch, varidfi, varidfn
95  INTEGER,SAVE :: varidfmth, varidenth
96  INTEGER,SAVE :: varidyu1, varidyv1, varidpl, varidai, varididvt
97  INTEGER,SAVE :: varidfts1, varidfts2, varidfts3, varidfts4
98  INTEGER,SAVE :: varidpsr1, varidpsr2, varidpsr3, varidpsr4
99
100  INTEGER l, i
101  INTEGER start(4), count(4), status
102  REAL rcode
103  LOGICAL,SAVE :: first=.TRUE.
104
105  ! Allocate arrays
106  imo=nbp_lon/2
107  jmo=nbp_lat/2
108  klono=(jmo-1)*imo+2
109  klevo=nbp_lev
110 
111  ALLOCATE(phisfi2(imo,jmo+1))
112  ALLOCATE(airefi2(imo, jmo+1))
113  ALLOCATE(mfu2(imo, jmo+1, klevo))
114  ALLOCATE(mfd2(imo, jmo+1, klevo))
115  ALLOCATE(en_u2(imo, jmo+1, klevo))
116  ALLOCATE(de_u2(imo, jmo+1, klevo))
117  ALLOCATE(en_d2(imo, jmo+1, klevo))
118  ALLOCATE(de_d2(imo, jmo+1, klevo))
119  ALLOCATE(coefh2(imo, jmo+1, klevo))
120  ALLOCATE(fm_therm2(imo, jmo+1, klevo))
121  ALLOCATE(en_therm2(imo, jmo+1, klevo))
122  ALLOCATE(pl(klevo))
123  ALLOCATE(frac_impa2(imo, jmo+1, klevo))
124  ALLOCATE(frac_nucl2(imo, jmo+1, klevo))
125  ALLOCATE(pyu12(imo, jmo+1), pyv12(imo, jmo+1))
126  ALLOCATE(ftsol1(klono), ftsol2(klono))
127  ALLOCATE(ftsol3(klono), ftsol4(klono))
128  ALLOCATE(psrf1(klono), psrf2(klono))
129  ALLOCATE(psrf3(klono), psrf4(klono))
130  ALLOCATE(ftsol12(imo, jmo+1))
131  ALLOCATE(ftsol22(imo, jmo+1))
132  ALLOCATE(ftsol32(imo, jmo+1))
133  ALLOCATE(ftsol42(imo, jmo+1))
134  ALLOCATE(psrf12(imo, jmo+1))
135  ALLOCATE(psrf22(imo, jmo+1))
136  ALLOCATE(psrf32(imo, jmo+1))
137  ALLOCATE(psrf42(imo, jmo+1))
138  ALLOCATE(t2(imo, jmo+1, klevo))
139
140  ! ---------------------------------------------
141  ! Initialisation de la lecture des fichiers
142  ! ---------------------------------------------
143
144  IF (irec==0) THEN
145
146    rcode = nf90_open('phystoke.nc', nf90_nowrite, ncidp)
147
148    rcode = nf90_inq_varid(ncidp, 'phis', varidps)
149    PRINT *, 'ncidp,varidps', ncidp, varidps
150
151    rcode = nf90_inq_varid(ncidp, 'sig_s', varidpl)
152    PRINT *, 'ncidp,varidpl', ncidp, varidpl
153
154    rcode = nf90_inq_varid(ncidp, 'aire', varidai)
155    PRINT *, 'ncidp,varidai', ncidp, varidai
156
157    ! A FAIRE: Es-il necessaire de stocke t?
158    rcode = nf90_inq_varid(ncidp, 't', varidt)
159    PRINT *, 'ncidp,varidt', ncidp, varidt
160
161    rcode = nf90_inq_varid(ncidp, 'mfu', varidmfu)
162    PRINT *, 'ncidp,varidmfu', ncidp, varidmfu
163
164    rcode = nf90_inq_varid(ncidp, 'mfd', varidmfd)
165    PRINT *, 'ncidp,varidmfd', ncidp, varidmfd
166
167    rcode = nf90_inq_varid(ncidp, 'en_u', varidenu)
168    PRINT *, 'ncidp,varidenu', ncidp, varidenu
169
170    rcode = nf90_inq_varid(ncidp, 'de_u', variddeu)
171    PRINT *, 'ncidp,variddeu', ncidp, variddeu
172
173    rcode = nf90_inq_varid(ncidp, 'en_d', varidend)
174    PRINT *, 'ncidp,varidend', ncidp, varidend
175
176    rcode = nf90_inq_varid(ncidp, 'de_d', varidded)
177    PRINT *, 'ncidp,varidded', ncidp, varidded
178
179    rcode = nf90_inq_varid(ncidp, 'coefh', varidch)
180    PRINT *, 'ncidp,varidch', ncidp, varidch
181
182    ! abder (pour thermiques)
183    rcode = nf90_inq_varid(ncidp, 'fm_th', varidfmth)
184    PRINT *, 'ncidp,varidfmth', ncidp, varidfmth
185
186    rcode = nf90_inq_varid(ncidp, 'en_th', varidenth)
187    PRINT *, 'ncidp,varidenth', ncidp, varidenth
188
189    rcode = nf90_inq_varid(ncidp, 'frac_impa', varidfi)
190    PRINT *, 'ncidp,varidfi', ncidp, varidfi
191
192    rcode = nf90_inq_varid(ncidp, 'frac_nucl', varidfn)
193    PRINT *, 'ncidp,varidfn', ncidp, varidfn
194
195    rcode = nf90_inq_varid(ncidp, 'pyu1', varidyu1)
196    PRINT *, 'ncidp,varidyu1', ncidp, varidyu1
197
198    rcode = nf90_inq_varid(ncidp, 'pyv1', varidyv1)
199    PRINT *, 'ncidp,varidyv1', ncidp, varidyv1
200
201    rcode = nf90_inq_varid(ncidp, 'ftsol1', varidfts1)
202    PRINT *, 'ncidp,varidfts1', ncidp, varidfts1
203
204    rcode = nf90_inq_varid(ncidp, 'ftsol2', varidfts2)
205    PRINT *, 'ncidp,varidfts2', ncidp, varidfts2
206
207    rcode = nf90_inq_varid(ncidp, 'ftsol3', varidfts3)
208    PRINT *, 'ncidp,varidfts3', ncidp, varidfts3
209
210    rcode = nf90_inq_varid(ncidp, 'ftsol4', varidfts4)
211    PRINT *, 'ncidp,varidfts4', ncidp, varidfts4
212
213    rcode = nf90_inq_varid(ncidp, 'psrf1', varidpsr1)
214    PRINT *, 'ncidp,varidpsr1', ncidp, varidpsr1
215
216    rcode = nf90_inq_varid(ncidp, 'psrf2', varidpsr2)
217    PRINT *, 'ncidp,varidpsr2', ncidp, varidpsr2
218
219    rcode = nf90_inq_varid(ncidp, 'psrf3', varidpsr3)
220    PRINT *, 'ncidp,varidpsr3', ncidp, varidpsr3
221
222    rcode = nf90_inq_varid(ncidp, 'psrf4', varidpsr4)
223    PRINT *, 'ncidp,varidpsr4', ncidp, varidpsr4
224
225    ! ID pour les dimensions
226
227    status = nf90_inq_dimid(ncidp, 'y', yid)
228    status = nf90_inq_dimid(ncidp, 'x', xid)
229    status = nf90_inq_dimid(ncidp, 'sig_s', zid)
230    status = nf90_inq_dimid(ncidp, 'time_counter', tid)
231
232    ! lecture des dimensions
233
234    status = nf90_inquire_dimension(ncidp, yid, namedim, ncjm)
235    status = nf90_inquire_dimension(ncidp, xid, namedim, ncim)
236    status = nf90_inquire_dimension(ncidp, zid, namedim, ncklevo)
237    status = nf90_inquire_dimension(ncidp, tid, namedim, ncrec)
238
239    zrec = ncrec
240    zklevo = ncklevo
241    zim = ncim
242    zjm = ncjm
243
244    zklono = zim*(zjm-2) + 2
245
246    WRITE (*, *) 'read_pstoke : zrec = ', zrec
247    WRITE (*, *) 'read_pstoke : zklevo = ', zklevo
248    WRITE (*, *) 'read_pstoke : zim = ', zim
249    WRITE (*, *) 'read_pstoke : zjm = ', zjm
250    WRITE (*, *) 'read_pstoke : zklono = ', zklono
251
252    ! niveaux de pression
253    status = nf90_get_var(ncidp, varidpl, pl, [1], [ncklevo])
254
255    ! lecture de aire et phis
256
257    start(1) = 1
258    start(2) = 1
259    start(3) = 1
260    start(4) = 0
261
262    count(1) = zim
263    count(2) = zjm
264    count(3) = 1
265    count(4) = 0
266
267    ! phis
268    status = nf90_get_var(ncidp, varidps, phisfi2, start, count)
269    CALL gr_ecrit_fi(1, klono, imo, jmo+1, phisfi2, phisfi)
270
271    ! aire
272    status = nf90_get_var(ncidp, varidai, airefi2, start, count)
273    CALL gr_ecrit_fi(1, klono, imo, jmo+1, airefi2, airefi)
274  ELSE
275
276    PRINT *, 'ok1'
277
278    ! ---------------------
279    ! lecture des champs
280    ! ---------------------
281
282    PRINT *, 'WARNING!!! Il n y a pas de test de coherence'
283    PRINT *, 'sur le nombre de niveaux verticaux dans le fichier nc'
284
285    start(1) = 1
286    start(2) = 1
287    start(3) = 1
288    start(4) = irec
289
290    count(1) = zim
291    count(2) = zjm
292    count(3) = zklevo
293    count(4) = 1
294
295
296    ! *** Lessivage******************************************************
297    ! frac_impa
298    status = nf90_get_var(ncidp, varidfi, frac_impa2, start, count)
299    CALL gr_ecrit_fi(klevo, klono, imo, jmo+1, frac_impa2, frac_impa)
300
301    ! frac_nucl
302    status = nf90_get_var(ncidp, varidfn, frac_nucl2, start, count)
303    CALL gr_ecrit_fi(klevo, klono, imo, jmo+1, frac_nucl2, frac_nucl)
304
305    ! *** Temperature ******************************************************
306    ! abder t
307    status = nf90_get_var(ncidp, varidt, t2, start, count)
308    CALL gr_ecrit_fi(klevo, klono, imo, jmo+1, t2, t)
309
310    ! *** Flux pour le calcul de la convection TIEDTK ***********************
311    ! mfu
312    status = nf90_get_var(ncidp, varidmfu, mfu2, start, count)
313    CALL gr_ecrit_fi(klevo, klono, imo, jmo+1, mfu2, mfu)
314
315    ! mfd
316    status = nf90_get_var(ncidp, varidmfd, mfd2, start, count)
317    CALL gr_ecrit_fi(klevo, klono, imo, jmo+1, mfd2, mfd)
318
319    ! en_u
320    status = nf90_get_var(ncidp, varidenu, en_u2, start, count)
321    CALL gr_ecrit_fi(klevo, klono, imo, jmo+1, en_u2, en_u)
322
323    ! de_u
324    status = nf90_get_var(ncidp, variddeu, de_u2, start, count)
325    CALL gr_ecrit_fi(klevo, klono, imo, jmo+1, de_u2, de_u)
326
327    ! en_d
328    status = nf90_get_var(ncidp, varidend, en_d2, start, count)
329    CALL gr_ecrit_fi(klevo, klono, imo, jmo+1, en_d2, en_d)
330
331    ! de_d
332    status = nf90_get_var(ncidp, varidded, de_d2, start, count)
333    CALL gr_ecrit_fi(klevo, klono, imo, jmo+1, de_d2, de_d)
334
335    ! **** Coeffecient du mellange
336    ! turbulent**********************************
337    ! coefh
338    status = nf90_get_var(ncidp, varidch, coefh2, start, count)
339    CALL gr_ecrit_fi(klevo, klono, imo, jmo+1, coefh2, coefh)
340
341    ! *** Flux ascendant et entrant pour les
342    ! Thermiques************************
343    ! abder thermiques
344    status = nf90_get_var(ncidp, varidfmth, fm_therm2, start, count)
345    CALL gr_ecrit_fi(klevo, klono, imo, jmo+1, fm_therm2, fm_therm)
346
347    status = nf90_get_var(ncidp, varidenth, en_therm2, start, count)
348    CALL gr_ecrit_fi(klevo, klono, imo, jmo+1, en_therm2, en_therm)
349
350    ! *** Vitesses aux sol
351    ! ******************************************************
352    start(3) = irec
353    start(4) = 0
354    count(3) = 1
355    count(4) = 0
356    ! pyu1
357    status = nf90_get_var(ncidp, varidyu1, pyu12, start, count)
358    CALL gr_ecrit_fi(1, klono, imo, jmo+1, pyu12, pyu1)
359
360    ! pyv1
361    status = nf90_get_var(ncidp, varidyv1, pyv12, start, count)
362    CALL gr_ecrit_fi(1, klono, imo, jmo+1, pyv12, pyv1)
363
364    ! *** Temperature au sol ********************************************
365    ! ftsol1
366    status = nf90_get_var(ncidp, varidfts1, ftsol12, start, count)
367    CALL gr_ecrit_fi(1, klono, imo, jmo+1, ftsol12, ftsol1)
368
369    ! ftsol2
370    status = nf90_get_var(ncidp, varidfts2, ftsol22, start, count)
371    CALL gr_ecrit_fi(1, klono, imo, jmo+1, ftsol22, ftsol2)
372
373    ! ftsol3
374    status = nf90_get_var(ncidp, varidfts3, ftsol32, start, count)
375    CALL gr_ecrit_fi(1, klono, imo, jmo+1, ftsol32, ftsol3)
376
377    ! ftsol4
378    status = nf90_get_var(ncidp, varidfts4, ftsol42, start, count)
379    CALL gr_ecrit_fi(1, klono, imo, jmo+1, ftsol42, ftsol4)
380
381    ! *** Nature du sol **************************************************
382    ! psrf1
383    status = nf90_get_var(ncidp, varidpsr1, psrf12, start, count)
384    CALL gr_ecrit_fi(1, klono, imo, jmo+1, psrf12, psrf1)
385
386    ! psrf2
387    status = nf90_get_var(ncidp, varidpsr2, psrf22, start, count)
388    CALL gr_ecrit_fi(1, klono, imo, jmo+1, psrf22, psrf2)
389
390    ! psrf3
391    status = nf90_get_var(ncidp, varidpsr3, psrf32, start, count)
392    CALL gr_ecrit_fi(1, klono, imo, jmo+1, psrf32, psrf3)
393
394    ! psrf4
395    status = nf90_get_var(ncidp, varidpsr4, psrf42, start, count)
396    CALL gr_ecrit_fi(1, klono, imo, jmo+1, psrf42, psrf4)
397
398    DO i = 1, klono
399
400      psrf(i, 1) = psrf1(i)
401      psrf(i, 2) = psrf2(i)
402      psrf(i, 3) = psrf3(i)
403      psrf(i, 4) = psrf4(i)
404
405      ftsol(i, 1) = ftsol1(i)
406      ftsol(i, 2) = ftsol2(i)
407      ftsol(i, 3) = ftsol3(i)
408      ftsol(i, 4) = ftsol4(i)
409
410    END DO
411
412  END IF
413
414
415
416END SUBROUTINE read_pstoke
417
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