source: trunk/LMDZ.COMMON/libf/dyn3d_common/grilles_gcm_netcdf_sub.F90 @ 3452

Last change on this file since 3452 was 2572, checked in by emillour, 3 years ago

Common dynamics:
Fixes for the picky gfortran10 compiler which identifies using a scalar
instead of a one-element array as an error.
MW+EM

File size: 6.8 KB
Line 
1!
2! $Header$
3!
4! This subroutine creates the file grilles_gcm.nc containg longitudes and
5! latitudes in degrees for grid u and v. This subroutine is called from
6! ce0l if grilles_gcm_netcdf=TRUE. This subroutine corresponds to the first
7! part in the program create_fausse_var.
8!
9SUBROUTINE grilles_gcm_netcdf_sub(masque,phis)
10
11  USE comvert_mod, ONLY: pa,preff,presnivs
12  USE comconst_mod, ONLY: daysec,rad,omeg,g,kappa,cpp,pi
13
14  IMPLICIT NONE
15
16  INCLUDE "dimensions.h"
17  INCLUDE "paramet.h"
18  INCLUDE "comgeom.h"
19  INCLUDE "netcdf.inc"
20
21
22  REAL,DIMENSION(iip1,jjp1),INTENT(IN)  :: masque ! masque terre/mer
23  REAL,DIMENSION(iip1,jjp1),INTENT(IN)  :: phis   ! geopotentiel au sol
24
25  REAL temp(iim+1,jjm+1)
26  ! Attributs netcdf sortie
27  INTEGER ncid_out,rcode_out
28  INTEGER out_lonuid,out_lonvid,out_latuid,out_latvid,out_levid
29  INTEGER out_varid
30  INTEGER out_lonudim,out_lonvdim
31  INTEGER out_latudim,out_latvdim,out_dim(3)
32  INTEGER out_levdim
33
34  INTEGER start(4),COUNT(4)
35
36  INTEGER status,i,j
37  REAL rlatudeg(jjp1),rlatvdeg(jjm),rlevdeg(llm)
38  REAL rlonudeg(iip1),rlonvdeg(iip1)
39
40  REAL dlon1(iip1),dlon2(iip1),dlat1(jjp1),dlat2(jjp1)
41  REAL acoslat,dxkm,dykm,resol(iip1,jjp1)
42  REAL,DIMENSION(iip1,jjp1)  :: phis_loc
43  INTEGER masque_int(iip1,jjp1)
44  INTEGER :: phis_id
45  INTEGER :: area_id
46  INTEGER :: mask_id
47 
48  rad = 6400000
49  omeg = 7.272205e-05
50  g = 9.8
51  kappa = 0.285716
52  daysec = 86400
53  cpp = 1004.70885
54
55  preff = 101325.
56  pa= 50000.
57
58  CALL conf_gcm( 99, .TRUE. )
59  CALL iniconst
60  CALL inigeom
61
62  DO j=1,jjp1
63     rlatudeg(j)=rlatu(j)*180./pi
64  ENDDO
65  DO j=1,jjm
66     rlatvdeg(j)=rlatv(j)*180./pi
67  ENDDO
68
69  DO i=1,iip1
70     rlonudeg(i)=rlonu(i)*180./pi + 360.
71     rlonvdeg(i)=rlonv(i)*180./pi + 360.
72  ENDDO
73
74
75  !  2 ----- OUVERTURE DE LA SORTIE NETCDF
76  ! ---------------------------------------------------
77  ! CREATION OUTPUT
78  ! ouverture fichier netcdf de sortie out
79  status=NF_CREATE('grilles_gcm.nc',NF_NOCLOBBER,ncid_out)
80  status=NF_DEF_DIM(ncid_out,'lonu',iim+1,out_lonudim)
81  status=NF_DEF_DIM(ncid_out,'lonv',iim+1,out_lonvdim)
82  status=NF_DEF_DIM(ncid_out,'latu',jjm+1,out_latudim)
83  status=NF_DEF_DIM(ncid_out,'latv',jjm,out_latvdim)
84
85
86  !   Longitudes en u
87  status=NF_DEF_VAR(ncid_out,'lonu',NF_FLOAT,1,[out_lonudim], out_lonuid)
88  CALL handle_err(status)
89  status=NF_PUT_ATT_TEXT(ncid_out,out_lonuid,'units', 12,'degrees_east')
90  status=NF_PUT_ATT_TEXT(ncid_out,out_lonuid,'long_name',9,'Longitude en u')
91
92  !   Longitudes en v
93  status=NF_DEF_VAR(ncid_out,'lonv',NF_FLOAT,1,[out_lonvdim], out_lonvid)
94  CALL handle_err(status)
95  status=NF_PUT_ATT_TEXT(ncid_out,out_lonvid,'units', 12,'degrees_east')
96  status=NF_PUT_ATT_TEXT(ncid_out,out_lonvid,'long_name', 9,'Longitude en v')
97
98  !   Latitude en u
99  status=NF_DEF_VAR(ncid_out,'latu',NF_FLOAT,1,[out_latudim], out_latuid)
100  CALL handle_err(status)
101  status=NF_PUT_ATT_TEXT(ncid_out,out_latuid,'units', 13,'degrees_north')
102  status=NF_PUT_ATT_TEXT(ncid_out,out_latuid,'long_name', 8,'Latitude en u')
103
104  !  Latitude en v
105  status=NF_DEF_VAR(ncid_out,'latv',NF_FLOAT,1,[out_latvdim], out_latvid)
106  CALL handle_err(status)
107  status=NF_PUT_ATT_TEXT(ncid_out,out_latvid,'units', 13,'degrees_north')
108  status=NF_PUT_ATT_TEXT(ncid_out,out_latvid,'long_name', 8,'Latitude en v')
109
110  !   ecriture de la grille u
111  out_dim(1)=out_lonudim
112  out_dim(2)=out_latudim
113  status=NF_DEF_VAR(ncid_out,'grille_u',NF_FLOAT,2,out_dim, out_varid)
114  CALL handle_err(status)
115  status=NF_PUT_ATT_TEXT(ncid_out,out_varid,'units', 6,'Kelvin')
116  status=NF_PUT_ATT_TEXT(ncid_out,out_varid,'long_name', 16,'Grille aux point u')
117
118  !   ecriture de la grille v
119  out_dim(1)=out_lonvdim
120  out_dim(2)=out_latvdim
121  status=NF_DEF_VAR(ncid_out,'grille_v',NF_FLOAT,2,out_dim, out_varid)
122  CALL handle_err(status)
123  status=NF_PUT_ATT_TEXT(ncid_out,out_varid,'units', 6,'Kelvin')
124  status=NF_PUT_ATT_TEXT(ncid_out,out_varid,'long_name', 16,'Grille aux point v')
125
126  !   ecriture de la grille u
127  out_dim(1)=out_lonvdim
128  out_dim(2)=out_latudim
129  status=NF_DEF_VAR(ncid_out,'grille_s',NF_FLOAT,2,out_dim, out_varid)
130  CALL handle_err(status)
131  status=NF_PUT_ATT_TEXT(ncid_out,out_varid,'units', 6,'Kelvin')
132  status=NF_PUT_ATT_TEXT(ncid_out,out_varid,'long_name',16,'Grille aux point u')
133
134  status=NF_ENDDEF(ncid_out)
135  ! 5) ----- FERMETURE DES FICHIERS NETCDF------------------
136  ! --------------------------------------------------------
137  ! 3-b- Ecriture de la grille pour la sortie
138  ! rajoute l'ecriture de la grille
139
140#ifdef NC_DOUBLE
141  status=NF_PUT_VARA_DOUBLE(ncid_out,out_lonuid,[1],[iim+1],rlonudeg)
142  status=NF_PUT_VARA_DOUBLE(ncid_out,out_lonvid,[1],[iim+1],rlonvdeg)
143  status=NF_PUT_VARA_DOUBLE(ncid_out,out_latuid,[1],[jjm+1],rlatudeg)
144  status=NF_PUT_VARA_DOUBLE(ncid_out,out_latvid,[1],[jjm],rlatvdeg)
145#else
146  status=NF_PUT_VARA_REAL(ncid_out,out_lonuid,[1],[iim+1],rlonudeg)
147  status=NF_PUT_VARA_REAL(ncid_out,out_lonvid,[1],[iim+1],rlonvdeg)
148  status=NF_PUT_VARA_REAL(ncid_out,out_latuid,[1],[jjm+1],rlatudeg)
149  status=NF_PUT_VARA_REAL(ncid_out,out_latvid,[1],[jjm],rlatvdeg)
150#endif
151
152  start(1)=1
153  start(2)=1
154  start(3)=1
155  start(4)=1
156
157  COUNT(1)=iim+1
158  COUNT(2)=jjm+1
159  COUNT(3)=1
160  COUNT(4)=1
161
162  DO j=1,jjm+1
163     DO i=1,iim+1
164        temp(i,j)=MOD(i,2)+MOD(j,2)
165     ENDDO
166  ENDDO
167
168#ifdef NC_DOUBLE
169  status=NF_PUT_VARA_DOUBLE(ncid_out,out_varid,start, count,temp)
170#else
171  status=NF_PUT_VARA_REAL(ncid_out,out_varid,start, count,temp)
172#endif
173
174  ! On re-ouvre le fichier pour rajouter 4 nouvelles variables necessaire pour INCA
175! lev - phis - aire - mask
176  rlevdeg(:) = presnivs
177  phis_loc(:,:) = phis(:,:)/g
178
179! niveaux de pression verticaux
180  status = NF_REDEF (ncid_out)
181  status=NF_DEF_DIM(ncid_out,'lev',llm,out_levdim)
182 
183! fields
184  out_dim(1)=out_lonvdim
185  out_dim(2)=out_latudim
186
187  status = nf_def_var(ncid_out,'phis',NF_FLOAT,2,out_dim,phis_id)
188  CALL handle_err(status)
189  status = nf_def_var(ncid_out,'aire',NF_FLOAT,2,out_dim,area_id)
190  CALL handle_err(status)
191  status = nf_def_var(ncid_out,'mask',NF_INT  ,2,out_dim,mask_id)
192  CALL handle_err(status)
193
194  status=NF_ENDDEF(ncid_out)
195
196  ! ecriture des variables
197#ifdef NC_DOUBLE
198  status=NF_PUT_VARA_DOUBLE(ncid_out,out_levid,[1],[llm],rlevdeg)
199#else
200  status=NF_PUT_VARA_REAL(ncid_out,out_levid,[1],[llm],rlevdeg)
201#endif
202
203  start(1)=1
204  start(2)=1
205  start(3)=1
206  start(4)=0
207  COUNT(1)=iip1
208  COUNT(2)=jjp1
209  COUNT(3)=1
210  COUNT(4)=0
211
212  status = nf_put_vara_double(ncid_out, phis_id,start,count, phis_loc)
213  status = nf_put_vara_double(ncid_out, area_id,start,count, aire)
214  masque_int(:,:) = nINT(masque(:,:))
215  status = nf_put_vara_int(ncid_out, mask_id,start,count,masque_int)
216  CALL handle_err(status)
217 
218  ! fermeture du fichier netcdf
219  CALL ncclos(ncid_out,rcode_out)
220
221END SUBROUTINE grilles_gcm_netcdf_sub
222
223
224
225SUBROUTINE handle_err(status)
226  INCLUDE "netcdf.inc"
227
228  INTEGER status
229  IF (status.NE.nf_noerr) THEN
230     PRINT *,NF_STRERROR(status)
231     CALL abort_gcm('grilles_gcm_netcdf','netcdf error',1)
232  ENDIF
233END SUBROUTINE handle_err
234
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