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! $Header: /home/cvsroot/LMDZ4/libf/phylmd/phyredem.F,v 1.3 2005/05/25 13:10:09 fairhead Exp $ |
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c |
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SUBROUTINE phyredem (fichnom,dtime,radpas, |
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. rlat,rlon, pctsrf,tsol,tsoil, |
7 |
cIM "slab" ocean |
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. tslab,seaice, |
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. qsurf,qsol,snow, |
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. albedo, alblw, evap, rain_fall, snow_fall, |
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. solsw, sollw,fder, |
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. radsol,frugs,agesno, |
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. zmea,zstd,zsig,zgam,zthe,zpic,zval,rugsrel, |
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. t_ancien, q_ancien, rnebcon, ratqs, clwcon, |
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. run_off_lic_0) |
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use dimens_m |
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use indicesol |
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use dimphy |
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use conf_gcm_m |
20 |
use dimsoil |
21 |
use temps |
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use clesphys |
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IMPLICIT none |
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c====================================================================== |
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c Auteur(s) Z.X. Li (LMD/CNRS) date: 19930818 |
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c Objet: Ecriture de l'etat de redemarrage pour la physique |
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c====================================================================== |
28 |
include "netcdf.inc" |
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c====================================================================== |
30 |
CHARACTER*(*) fichnom |
31 |
REAL dtime |
32 |
INTEGER radpas |
33 |
REAL, intent(in):: rlat(klon), rlon(klon) |
34 |
REAL tsol(klon,nbsrf) |
35 |
REAL tsoil(klon,nsoilmx,nbsrf) |
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cIM "slab" ocean |
37 |
REAL tslab(klon), seaice(klon) |
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REAL qsurf(klon,nbsrf) |
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REAL qsol(klon) |
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REAL snow(klon,nbsrf) |
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REAL albedo(klon,nbsrf) |
42 |
cIM BEG |
43 |
REAL alblw(klon,nbsrf) |
44 |
cIM END |
45 |
REAL evap(klon,nbsrf) |
46 |
REAL rain_fall(klon) |
47 |
REAL snow_fall(klon) |
48 |
real solsw(klon) |
49 |
real sollw(klon) |
50 |
real fder(klon) |
51 |
REAL radsol(klon) |
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REAL frugs(klon,nbsrf) |
53 |
REAL agesno(klon,nbsrf) |
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REAL zmea(klon) |
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REAL zstd(klon) |
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REAL zsig(klon) |
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REAL zgam(klon) |
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REAL zthe(klon) |
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REAL zpic(klon) |
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REAL zval(klon) |
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REAL rugsrel(klon) |
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REAL pctsrf(klon, nbsrf) |
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REAL t_ancien(klon,klev), q_ancien(klon,klev) |
64 |
real clwcon(klon,klev),rnebcon(klon,klev),ratqs(klon,klev) |
65 |
REAL run_off_lic_0(klon) |
66 |
c |
67 |
INTEGER nid, nvarid, idim1, idim2, idim3 |
68 |
INTEGER ierr |
69 |
INTEGER length |
70 |
PARAMETER (length=100) |
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REAL tab_cntrl(length) |
72 |
c |
73 |
INTEGER isoil, nsrf |
74 |
CHARACTER*7 str7 |
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CHARACTER*2 str2 |
76 |
c |
77 |
print *, "Call sequence information: phyredem" |
78 |
ierr = NF_CREATE(fichnom, NF_CLOBBER, nid) |
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IF (ierr.NE.NF_NOERR) THEN |
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write(6,*)' Pb d''ouverture du fichier '//fichnom |
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write(6,*)' ierr = ', ierr |
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STOP 1 |
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ENDIF |
84 |
c |
85 |
ierr = NF_PUT_ATT_TEXT (nid, NF_GLOBAL, "title", 28, |
86 |
. "Fichier redemmarage physique") |
87 |
c |
88 |
ierr = NF_DEF_DIM (nid, "index", length, idim1) |
89 |
ierr = NF_DEF_DIM (nid, "points_physiques", klon, idim2) |
90 |
ierr = NF_DEF_DIM (nid, "horizon_vertical", klon*klev, idim3) |
91 |
c |
92 |
ierr = NF_ENDDEF(nid) |
93 |
c |
94 |
DO ierr = 1, length |
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tab_cntrl(ierr) = 0.0 |
96 |
ENDDO |
97 |
tab_cntrl(1) = dtime |
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tab_cntrl(2) = radpas |
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tab_cntrl(3) = co2_ppm |
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tab_cntrl(4) = solaire |
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tab_cntrl(5) = iflag_con |
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tab_cntrl(6) = nbapp_rad |
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|
104 |
IF( cycle_diurne ) tab_cntrl( 7 ) = 1. |
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IF( soil_model ) tab_cntrl( 8 ) = 1. |
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IF( new_oliq ) tab_cntrl( 9 ) = 1. |
107 |
IF( ok_orodr ) tab_cntrl(10 ) = 1. |
108 |
IF( ok_orolf ) tab_cntrl(11 ) = 1. |
109 |
|
110 |
tab_cntrl(13) = day_end |
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tab_cntrl(14) = annee_ref |
112 |
tab_cntrl(15) = itau_phy |
113 |
c |
114 |
ierr = NF_REDEF (nid) |
115 |
ierr = NF_DEF_VAR (nid, "controle", NF_FLOAT, 1, idim1,nvarid) |
116 |
ierr = NF_PUT_ATT_TEXT (nid,nvarid,"title", 22, |
117 |
. "Parametres de controle") |
118 |
ierr = NF_ENDDEF(nid) |
119 |
ierr = NF_PUT_VAR_REAL (nid,nvarid,tab_cntrl) |
120 |
c |
121 |
ierr = NF_REDEF (nid) |
122 |
ierr = NF_DEF_VAR (nid, "longitude", NF_FLOAT, 1, idim2,nvarid) |
123 |
ierr = NF_PUT_ATT_TEXT (nid,nvarid,"title", 32, |
124 |
. "Longitudes de la grille physique") |
125 |
ierr = NF_ENDDEF(nid) |
126 |
ierr = NF_PUT_VAR_REAL (nid,nvarid,rlon) |
127 |
c |
128 |
ierr = NF_REDEF (nid) |
129 |
ierr = NF_DEF_VAR (nid, "latitude", NF_FLOAT, 1, idim2,nvarid) |
130 |
ierr = NF_PUT_ATT_TEXT (nid,nvarid,"title", 31, |
131 |
. "Latitudes de la grille physique") |
132 |
ierr = NF_ENDDEF(nid) |
133 |
ierr = NF_PUT_VAR_REAL (nid,nvarid,rlat) |
134 |
c |
135 |
C PB ajout du masque terre/mer |
136 |
C |
137 |
ierr = NF_REDEF (nid) |
138 |
ierr = NF_DEF_VAR (nid, "masque", NF_FLOAT, 1, idim2,nvarid) |
139 |
ierr = NF_PUT_ATT_TEXT (nid,nvarid,"title", 16, |
140 |
. "masque terre mer") |
141 |
ierr = NF_ENDDEF(nid) |
142 |
ierr = NF_PUT_VAR_REAL (nid,nvarid,zmasq) |
143 |
c BP ajout des fraction de chaque sous-surface |
144 |
C |
145 |
C 1. fraction de terre |
146 |
C |
147 |
ierr = NF_REDEF (nid) |
148 |
ierr = NF_DEF_VAR (nid, "FTER", NF_FLOAT, 1, idim2,nvarid) |
149 |
ierr = NF_PUT_ATT_TEXT (nid,nvarid,"title", 21, |
150 |
. "fraction de continent") |
151 |
ierr = NF_ENDDEF(nid) |
152 |
ierr = NF_PUT_VAR_REAL (nid,nvarid,pctsrf(1 : klon, is_ter)) |
153 |
C |
154 |
C 2. Fraction de glace de terre |
155 |
C |
156 |
ierr = NF_REDEF (nid) |
157 |
ierr = NF_DEF_VAR (nid, "FLIC", NF_FLOAT, 1, idim2,nvarid) |
158 |
ierr = NF_PUT_ATT_TEXT (nid,nvarid,"title", 24, |
159 |
. "fraction glace de terre") |
160 |
ierr = NF_ENDDEF(nid) |
161 |
ierr = NF_PUT_VAR_REAL (nid,nvarid,pctsrf(1 : klon, is_lic)) |
162 |
C |
163 |
C 3. fraction ocean |
164 |
C |
165 |
ierr = NF_REDEF (nid) |
166 |
ierr = NF_DEF_VAR (nid, "FOCE", NF_FLOAT, 1, idim2,nvarid) |
167 |
ierr = NF_PUT_ATT_TEXT (nid,nvarid,"title", 14, |
168 |
. "fraction ocean") |
169 |
ierr = NF_ENDDEF(nid) |
170 |
ierr = NF_PUT_VAR_REAL (nid,nvarid,pctsrf(1 : klon, is_oce)) |
171 |
C |
172 |
C 4. Fraction glace de mer |
173 |
C |
174 |
ierr = NF_REDEF (nid) |
175 |
ierr = NF_DEF_VAR (nid, "FSIC", NF_FLOAT, 1, idim2,nvarid) |
176 |
ierr = NF_PUT_ATT_TEXT (nid,nvarid,"title", 18, |
177 |
. "fraction glace mer") |
178 |
ierr = NF_ENDDEF(nid) |
179 |
ierr = NF_PUT_VAR_REAL (nid,nvarid,pctsrf(1 : klon, is_sic)) |
180 |
C |
181 |
C |
182 |
c |
183 |
DO nsrf = 1, nbsrf |
184 |
IF (nsrf.LE.99) THEN |
185 |
WRITE(str2,'(i2.2)') nsrf |
186 |
ierr = NF_REDEF (nid) |
187 |
ierr = NF_DEF_VAR (nid, "TS"//str2, NF_FLOAT, 1, idim2,nvarid) |
188 |
ierr = NF_PUT_ATT_TEXT (nid,nvarid,"title", 28, |
189 |
. "Temperature de surface No."//str2) |
190 |
ierr = NF_ENDDEF(nid) |
191 |
ELSE |
192 |
PRINT*, "Trop de sous-mailles" |
193 |
stop 1 |
194 |
ENDIF |
195 |
ierr = NF_PUT_VAR_REAL (nid,nvarid,tsol(1,nsrf)) |
196 |
ENDDO |
197 |
c |
198 |
DO nsrf = 1, nbsrf |
199 |
DO isoil=1, nsoilmx |
200 |
IF (isoil.LE.99 .AND. nsrf.LE.99) THEN |
201 |
WRITE(str7,'(i2.2,"srf",i2.2)') isoil,nsrf |
202 |
ierr = NF_REDEF (nid) |
203 |
ierr = NF_DEF_VAR (nid, "Tsoil"//str7,NF_FLOAT,1,idim2,nvarid) |
204 |
ierr = NF_PUT_ATT_TEXT (nid,nvarid,"title", 29, |
205 |
. "Temperature du sol No."//str7) |
206 |
ierr = NF_ENDDEF(nid) |
207 |
ELSE |
208 |
PRINT*, "Trop de couches" |
209 |
stop 1 |
210 |
ENDIF |
211 |
ierr = NF_PUT_VAR_REAL (nid,nvarid,tsoil(1,isoil,nsrf)) |
212 |
ENDDO |
213 |
ENDDO |
214 |
c |
215 |
cIM "slab" ocean |
216 |
ierr = NF_REDEF (nid) |
217 |
ierr = NF_DEF_VAR (nid, "TSLAB", NF_FLOAT, 1, idim2,nvarid) |
218 |
ierr = NF_PUT_ATT_TEXT (nid,nvarid,"title", 33, |
219 |
. "Ecart de la SST (pour slab-ocean)") |
220 |
ierr = NF_ENDDEF(nid) |
221 |
ierr = NF_PUT_VAR_REAL (nid,nvarid,tslab) |
222 |
c |
223 |
ierr = NF_REDEF (nid) |
224 |
ierr = NF_DEF_VAR (nid, "SEAICE", NF_FLOAT, 1, idim2,nvarid) |
225 |
ierr = NF_PUT_ATT_TEXT (nid,nvarid,"title", 33, |
226 |
. "Glace de mer kg/m2 (pour slab-ocean)") |
227 |
ierr = NF_ENDDEF(nid) |
228 |
ierr = NF_PUT_VAR_REAL (nid,nvarid,seaice) |
229 |
c |
230 |
DO nsrf = 1, nbsrf |
231 |
IF (nsrf.LE.99) THEN |
232 |
WRITE(str2,'(i2.2)') nsrf |
233 |
ierr = NF_REDEF (nid) |
234 |
ierr = NF_DEF_VAR (nid,"QS"//str2,NF_FLOAT,1,idim2,nvarid) |
235 |
ierr = NF_PUT_ATT_TEXT (nid,nvarid,"title", 25, |
236 |
. "Humidite de surface No."//str2) |
237 |
ierr = NF_ENDDEF(nid) |
238 |
ELSE |
239 |
PRINT*, "Trop de sous-mailles" |
240 |
stop 1 |
241 |
ENDIF |
242 |
ierr = NF_PUT_VAR_REAL (nid,nvarid,qsurf(1,nsrf)) |
243 |
END DO |
244 |
C |
245 |
ierr = NF_REDEF (nid) |
246 |
ierr = NF_DEF_VAR (nid,"QSOL",NF_FLOAT,1,idim2,nvarid) |
247 |
ierr = NF_PUT_ATT_TEXT (nid,nvarid,"title", 20, |
248 |
. "Eau dans le sol (mm)") |
249 |
ierr = NF_ENDDEF(nid) |
250 |
ierr = NF_PUT_VAR_REAL (nid,nvarid,qsol) |
251 |
c |
252 |
DO nsrf = 1, nbsrf |
253 |
IF (nsrf.LE.99) THEN |
254 |
WRITE(str2,'(i2.2)') nsrf |
255 |
ierr = NF_REDEF (nid) |
256 |
ierr = NF_DEF_VAR (nid,"ALBE"//str2,NF_FLOAT,1,idim2,nvarid) |
257 |
ierr = NF_PUT_ATT_TEXT (nid,nvarid,"title", 23, |
258 |
. "albedo de surface No."//str2) |
259 |
ierr = NF_ENDDEF(nid) |
260 |
ELSE |
261 |
PRINT*, "Trop de sous-mailles" |
262 |
stop 1 |
263 |
ENDIF |
264 |
ierr = NF_PUT_VAR_REAL (nid,nvarid,albedo(1,nsrf)) |
265 |
ENDDO |
266 |
|
267 |
cIM BEG albedo LW |
268 |
DO nsrf = 1, nbsrf |
269 |
IF (nsrf.LE.99) THEN |
270 |
WRITE(str2,'(i2.2)') nsrf |
271 |
ierr = NF_REDEF (nid) |
272 |
ierr = NF_DEF_VAR (nid,"ALBLW"//str2,NF_FLOAT,1,idim2,nvarid) |
273 |
ierr = NF_PUT_ATT_TEXT (nid,nvarid,"title", 23, |
274 |
. "albedo LW de surface No."//str2) |
275 |
ierr = NF_ENDDEF(nid) |
276 |
ELSE |
277 |
PRINT*, "Trop de sous-mailles" |
278 |
stop 1 |
279 |
ENDIF |
280 |
ierr = NF_PUT_VAR_REAL (nid,nvarid,alblw(1,nsrf)) |
281 |
ENDDO |
282 |
cIM END albedo LW |
283 |
c |
284 |
DO nsrf = 1, nbsrf |
285 |
IF (nsrf.LE.99) THEN |
286 |
WRITE(str2,'(i2.2)') nsrf |
287 |
ierr = NF_REDEF (nid) |
288 |
ierr = NF_DEF_VAR (nid,"EVAP"//str2,NF_FLOAT,1,idim2,nvarid) |
289 |
ierr = NF_PUT_ATT_TEXT (nid,nvarid,"title", 28, |
290 |
. "Evaporation de surface No."//str2) |
291 |
ierr = NF_ENDDEF(nid) |
292 |
ELSE |
293 |
PRINT*, "Trop de sous-mailles" |
294 |
stop 1 |
295 |
ENDIF |
296 |
ierr = NF_PUT_VAR_REAL (nid,nvarid,evap(1,nsrf)) |
297 |
ENDDO |
298 |
|
299 |
c |
300 |
DO nsrf = 1, nbsrf |
301 |
IF (nsrf.LE.99) THEN |
302 |
WRITE(str2,'(i2.2)') nsrf |
303 |
ierr = NF_REDEF (nid) |
304 |
ierr = NF_DEF_VAR (nid,"SNOW"//str2,NF_FLOAT,1,idim2,nvarid) |
305 |
ierr = NF_PUT_ATT_TEXT (nid,nvarid,"title", 22, |
306 |
. "Neige de surface No."//str2) |
307 |
ierr = NF_ENDDEF(nid) |
308 |
ELSE |
309 |
PRINT*, "Trop de sous-mailles" |
310 |
stop 1 |
311 |
ENDIF |
312 |
ierr = NF_PUT_VAR_REAL (nid,nvarid,snow(1,nsrf)) |
313 |
ENDDO |
314 |
|
315 |
c |
316 |
ierr = NF_REDEF (nid) |
317 |
ierr = NF_DEF_VAR (nid, "RADS", NF_FLOAT, 1, idim2,nvarid) |
318 |
ierr = NF_PUT_ATT_TEXT (nid,nvarid,"title", 28, |
319 |
. "Rayonnement net a la surface") |
320 |
ierr = NF_ENDDEF(nid) |
321 |
ierr = NF_PUT_VAR_REAL (nid,nvarid,radsol) |
322 |
c |
323 |
ierr = NF_REDEF (nid) |
324 |
ierr = NF_DEF_VAR (nid, "solsw", NF_FLOAT, 1, idim2,nvarid) |
325 |
ierr = NF_PUT_ATT_TEXT (nid,nvarid,"title", 32, |
326 |
. "Rayonnement solaire a la surface") |
327 |
ierr = NF_ENDDEF(nid) |
328 |
ierr = NF_PUT_VAR_REAL (nid,nvarid,solsw) |
329 |
c |
330 |
ierr = NF_REDEF (nid) |
331 |
ierr = NF_DEF_VAR (nid, "sollw", NF_FLOAT, 1, idim2,nvarid) |
332 |
ierr = NF_PUT_ATT_TEXT (nid,nvarid,"title", 27, |
333 |
. "Rayonnement IF a la surface") |
334 |
ierr = NF_ENDDEF(nid) |
335 |
ierr = NF_PUT_VAR_REAL (nid,nvarid,sollw) |
336 |
c |
337 |
ierr = NF_REDEF (nid) |
338 |
ierr = NF_DEF_VAR (nid, "fder", NF_FLOAT, 1, idim2,nvarid) |
339 |
ierr = NF_PUT_ATT_TEXT (nid,nvarid,"title", 14, |
340 |
. "Derive de flux") |
341 |
ierr = NF_ENDDEF(nid) |
342 |
ierr = NF_PUT_VAR_REAL (nid,nvarid,fder) |
343 |
c |
344 |
ierr = NF_REDEF (nid) |
345 |
ierr = NF_DEF_VAR (nid, "rain_f", NF_FLOAT, 1, idim2,nvarid) |
346 |
ierr = NF_PUT_ATT_TEXT (nid,nvarid,"title", 21, |
347 |
. "precipitation liquide") |
348 |
ierr = NF_ENDDEF(nid) |
349 |
ierr = NF_PUT_VAR_REAL (nid,nvarid,rain_fall) |
350 |
c |
351 |
ierr = NF_REDEF (nid) |
352 |
ierr = NF_DEF_VAR (nid, "snow_f", NF_FLOAT, 1, idim2,nvarid) |
353 |
ierr = NF_PUT_ATT_TEXT (nid,nvarid,"title", 20, |
354 |
. "precipitation solide") |
355 |
ierr = NF_ENDDEF(nid) |
356 |
ierr = NF_PUT_VAR_REAL (nid,nvarid,snow_fall) |
357 |
c |
358 |
DO nsrf = 1, nbsrf |
359 |
IF (nsrf.LE.99) THEN |
360 |
WRITE(str2,'(i2.2)') nsrf |
361 |
ierr = NF_REDEF (nid) |
362 |
ierr = NF_DEF_VAR (nid,"RUG"//str2,NF_FLOAT,1,idim2,nvarid) |
363 |
ierr = NF_PUT_ATT_TEXT (nid,nvarid,"title", 23, |
364 |
. "rugosite de surface No."//str2) |
365 |
ierr = NF_ENDDEF(nid) |
366 |
ELSE |
367 |
PRINT*, "Trop de sous-mailles" |
368 |
stop 1 |
369 |
ENDIF |
370 |
ierr = NF_PUT_VAR_REAL (nid,nvarid,frugs(1,nsrf)) |
371 |
ENDDO |
372 |
c |
373 |
DO nsrf = 1, nbsrf |
374 |
IF (nsrf.LE.99) THEN |
375 |
WRITE(str2,'(i2.2)') nsrf |
376 |
ierr = NF_REDEF (nid) |
377 |
ierr = NF_DEF_VAR (nid,"AGESNO"//str2,NF_FLOAT,1,idim2 |
378 |
$ ,nvarid) |
379 |
ierr = NF_PUT_ATT_TEXT (nid,nvarid,"title", 15, |
380 |
. "Age de la neige surface No."//str2) |
381 |
ierr = NF_ENDDEF(nid) |
382 |
ELSE |
383 |
PRINT*, "Trop de sous-mailles" |
384 |
stop 1 |
385 |
ENDIF |
386 |
ierr = NF_PUT_VAR_REAL (nid,nvarid,agesno(1,nsrf)) |
387 |
ENDDO |
388 |
c |
389 |
ierr = NF_REDEF (nid) |
390 |
ierr = NF_DEF_VAR (nid, "ZMEA", NF_FLOAT, 1, idim2,nvarid) |
391 |
ierr = NF_ENDDEF(nid) |
392 |
ierr = NF_PUT_VAR_REAL (nid,nvarid,zmea) |
393 |
c |
394 |
ierr = NF_REDEF (nid) |
395 |
ierr = NF_DEF_VAR (nid, "ZSTD", NF_FLOAT, 1, idim2,nvarid) |
396 |
ierr = NF_ENDDEF(nid) |
397 |
ierr = NF_PUT_VAR_REAL (nid,nvarid,zstd) |
398 |
ierr = NF_REDEF (nid) |
399 |
ierr = NF_DEF_VAR (nid, "ZSIG", NF_FLOAT, 1, idim2,nvarid) |
400 |
ierr = NF_ENDDEF(nid) |
401 |
ierr = NF_PUT_VAR_REAL (nid,nvarid,zsig) |
402 |
ierr = NF_REDEF (nid) |
403 |
ierr = NF_DEF_VAR (nid, "ZGAM", NF_FLOAT, 1, idim2,nvarid) |
404 |
ierr = NF_ENDDEF(nid) |
405 |
ierr = NF_PUT_VAR_REAL (nid,nvarid,zgam) |
406 |
ierr = NF_REDEF (nid) |
407 |
ierr = NF_DEF_VAR (nid, "ZTHE", NF_FLOAT, 1, idim2,nvarid) |
408 |
ierr = NF_ENDDEF(nid) |
409 |
ierr = NF_PUT_VAR_REAL (nid,nvarid,zthe) |
410 |
ierr = NF_REDEF (nid) |
411 |
ierr = NF_DEF_VAR (nid, "ZPIC", NF_FLOAT, 1, idim2,nvarid) |
412 |
ierr = NF_ENDDEF(nid) |
413 |
ierr = NF_PUT_VAR_REAL (nid,nvarid,zpic) |
414 |
ierr = NF_REDEF (nid) |
415 |
ierr = NF_DEF_VAR (nid, "ZVAL", NF_FLOAT, 1, idim2,nvarid) |
416 |
ierr = NF_ENDDEF(nid) |
417 |
ierr = NF_PUT_VAR_REAL (nid,nvarid,zval) |
418 |
ierr = NF_REDEF (nid) |
419 |
ierr = NF_DEF_VAR (nid, "RUGSREL", NF_FLOAT, 1, idim2,nvarid) |
420 |
ierr = NF_ENDDEF(nid) |
421 |
ierr = NF_PUT_VAR_REAL (nid,nvarid,rugsrel) |
422 |
c |
423 |
ierr = NF_REDEF (nid) |
424 |
ierr = NF_DEF_VAR (nid, "TANCIEN", NF_FLOAT, 1, idim3,nvarid) |
425 |
ierr = NF_ENDDEF(nid) |
426 |
ierr = NF_PUT_VAR_REAL (nid,nvarid,t_ancien) |
427 |
c |
428 |
ierr = NF_REDEF (nid) |
429 |
ierr = NF_DEF_VAR (nid, "QANCIEN", NF_FLOAT, 1, idim3,nvarid) |
430 |
ierr = NF_ENDDEF(nid) |
431 |
ierr = NF_PUT_VAR_REAL (nid,nvarid,q_ancien) |
432 |
c |
433 |
ierr = NF_REDEF (nid) |
434 |
ierr = NF_DEF_VAR (nid, "RUGMER", NF_FLOAT, 1, idim2,nvarid) |
435 |
ierr = NF_PUT_ATT_TEXT (nid,nvarid,"title", 28, |
436 |
. "Longueur de rugosite sur mer") |
437 |
ierr = NF_ENDDEF(nid) |
438 |
ierr = NF_PUT_VAR_REAL (nid,nvarid,frugs(1,is_oce)) |
439 |
c |
440 |
ierr = NF_REDEF (nid) |
441 |
ierr = NF_DEF_VAR (nid, "CLWCON", NF_FLOAT, 1, idim2,nvarid) |
442 |
ierr = NF_PUT_ATT_TEXT (nid,nvarid,"title", 28, |
443 |
. "Eau liquide convective") |
444 |
ierr = NF_ENDDEF(nid) |
445 |
ierr = NF_PUT_VAR_REAL (nid,nvarid,clwcon) |
446 |
c |
447 |
ierr = NF_REDEF (nid) |
448 |
ierr = NF_DEF_VAR (nid, "RNEBCON", NF_FLOAT, 1, idim2,nvarid) |
449 |
ierr = NF_PUT_ATT_TEXT (nid,nvarid,"title", 28, |
450 |
. "Nebulosite convective") |
451 |
ierr = NF_ENDDEF(nid) |
452 |
ierr = NF_PUT_VAR_REAL (nid,nvarid,rnebcon) |
453 |
c |
454 |
ierr = NF_REDEF (nid) |
455 |
ierr = NF_DEF_VAR (nid, "RATQS", NF_FLOAT, 1, idim2,nvarid) |
456 |
ierr = NF_PUT_ATT_TEXT(nid,nvarid,"title", 5, |
457 |
. "Ratqs") |
458 |
ierr = NF_ENDDEF(nid) |
459 |
ierr = NF_PUT_VAR_REAL (nid,nvarid,ratqs) |
460 |
c |
461 |
c run_off_lic_0 |
462 |
c |
463 |
ierr = NF_REDEF (nid) |
464 |
ierr=NF_DEF_VAR(nid,"RUNOFFLIC0",NF_FLOAT, 1,idim2,nvarid) |
465 |
ierr = NF_PUT_ATT_TEXT (nid,nvarid,"title", 10, |
466 |
. "Runofflic0") |
467 |
ierr = NF_ENDDEF(nid) |
468 |
ierr = NF_PUT_VAR_REAL (nid,nvarid,run_off_lic_0) |
469 |
c |
470 |
c |
471 |
ierr = NF_CLOSE(nid) |
472 |
c |
473 |
RETURN |
474 |
END |