1 |
! |
module read_reanalyse_m |
2 |
! $Header: /home/cvsroot/LMDZ4/libf/dyn3d/read_reanalyse.F,v 1.3 2005/04/15 12:31:21 lmdzadmin Exp $ |
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3 |
! |
IMPLICIT NONE |
4 |
c |
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5 |
c |
contains |
6 |
subroutine read_reanalyse(timestep,psi |
|
7 |
s ,u,v,t,q,masse,ps,mode,nlevnc) |
subroutine read_reanalyse(timestep, psi, u, v, t, q, masse, nlevnc) |
8 |
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|
9 |
c mode=0 variables naturelles |
! From LMDZ4/libf/dyn3d/read_reanalyse.F, version 1.3, 2005/04/15 12:31:21 |
10 |
c mode=1 variabels GCM |
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11 |
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USE conf_guide_m, ONLY: guide_q, guide_t, guide_u, guide_v, ncep |
12 |
c ----------------------------------------------------------------- |
USE dimens_m, ONLY: iim, jjm, llm |
13 |
c Declarations |
USE netcdf, ONLY: nf90_get_var, nf90_inq_varid, nf90_nowrite, nf90_open |
14 |
c ----------------------------------------------------------------- |
USE paramet_m, ONLY: iip1, jjp1 |
15 |
use dimens_m |
use reanalyse2nat_m, only: reanalyse2nat |
16 |
use paramet_m |
|
17 |
use comvert |
integer, intent(in):: timestep |
18 |
use comgeom |
real, intent(in):: psi(iip1, jjp1) |
19 |
use guide_m |
real u(iip1, jjp1, llm), v(iip1, jjm, llm) |
20 |
IMPLICIT NONE |
real t(iip1, jjp1, llm), q(iip1, jjp1, llm) |
21 |
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real masse(iip1, jjp1, llm) |
22 |
c common |
integer nlevnc |
23 |
c ------ |
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24 |
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! Local: |
25 |
include "netcdf.inc" |
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26 |
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integer l |
27 |
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real pk(iip1, jjp1, llm) |
28 |
c arguments |
integer, save:: ncidu, varidu, ncidv, varidv, ncidt, varidt |
29 |
c --------- |
integer, save:: ncidpl |
30 |
integer nlevnc |
integer, save:: varidpl, ncidQ, varidQ |
31 |
integer timestep,mode,l |
real unc(iip1, jjp1, nlevnc), vnc(iip1, jjm, nlevnc) |
32 |
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real tnc(iip1, jjp1, nlevnc) |
33 |
real psi(iip1,jjp1) |
real Qnc(iip1, jjp1, nlevnc) |
34 |
real u(iip1,jjp1,llm),v(iip1,jjm,llm) |
real pl(nlevnc) |
35 |
real t(iip1,jjp1,llm),ps(iip1,jjp1),q(iip1,jjp1,llm) |
integer start(4), count(4), status |
36 |
real masse(iip1,jjp1,llm),pk(iip1,jjp1,llm) |
real rcode |
37 |
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logical:: first = .true. |
38 |
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39 |
c local |
! ----------------------------------------------------------------- |
40 |
c ----- |
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41 |
integer ncidu,varidu,ncidv,varidv,ncidt,varidt,ncidps,varidps |
! Initialisation de la lecture des fichiers |
42 |
integer ncidpl |
|
43 |
integer varidpl,ncidQ,varidQ |
if (first) then |
44 |
save ncidu,varidu,ncidv,varidv,ncidt,varidt,ncidps,varidps |
ncidpl=-99 |
45 |
save ncidpl |
print *, 'Intitialisation de read reanalsye' |
46 |
save varidpl,ncidQ,varidQ |
|
47 |
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! Vent zonal |
48 |
real*4 unc(iip1,jjp1,nlevnc),vnc(iip1,jjm,nlevnc) |
if (guide_u) then |
49 |
real*4 tnc(iip1,jjp1,nlevnc),psnc(iip1,jjp1) |
rcode=nf90_open('u.nc', nf90_nowrite, ncidu) |
50 |
real*4 Qnc(iip1,jjp1,nlevnc) |
rcode = nf90_inq_varid(ncidu, 'UWND', varidu) |
51 |
real*4 pl(nlevnc) |
if (ncidpl.eq.-99) ncidpl=ncidu |
52 |
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endif |
53 |
integer start(4),count(4),status |
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54 |
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! Vent meridien |
55 |
real rcode |
if (guide_v) then |
56 |
logical first |
rcode=nf90_open('v.nc', nf90_nowrite, ncidv) |
57 |
save first |
rcode = nf90_inq_varid(ncidv, 'VWND', varidv) |
58 |
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if (ncidpl.eq.-99) ncidpl=ncidv |
59 |
data first/.true./ |
endif |
60 |
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61 |
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! Temperature |
62 |
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if (guide_T) then |
63 |
c ----------------------------------------------------------------- |
rcode=nf90_open('T.nc', nf90_nowrite, ncidt) |
64 |
c Initialisation de la lecture des fichiers |
rcode = nf90_inq_varid(ncidt, 'AIR', varidt) |
65 |
c ----------------------------------------------------------------- |
if (ncidpl.eq.-99) ncidpl=ncidt |
66 |
if (first) then |
endif |
67 |
ncidpl=-99 |
|
68 |
print*,'Intitialisation de read reanalsye' |
! Humidite |
69 |
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if (guide_Q) then |
70 |
c Vent zonal |
rcode=nf90_open('hur.nc', nf90_nowrite, ncidQ) |
71 |
if (guide_u) then |
rcode = nf90_inq_varid(ncidQ, 'RH', varidQ) |
72 |
ncidu=NCOPN('u.nc',NCNOWRIT,rcode) |
if (ncidpl.eq.-99) ncidpl=ncidQ |
73 |
varidu=NCVID(ncidu,'UWND',rcode) |
endif |
74 |
print*,'ncidu,varidu',ncidu,varidu |
|
75 |
if (ncidpl.eq.-99) ncidpl=ncidu |
! Coordonnee verticale |
76 |
endif |
if (ncep) then |
77 |
|
print *, 'Vous etes entrain de lire des donnees NCEP' |
78 |
c Vent meridien |
rcode = nf90_inq_varid(ncidpl, 'LEVEL', varidpl) |
79 |
if (guide_v) then |
else |
80 |
ncidv=NCOPN('v.nc',NCNOWRIT,rcode) |
print *, 'Vous etes entrain de lire des donnees ECMWF' |
81 |
varidv=NCVID(ncidv,'VWND',rcode) |
rcode = nf90_inq_varid(ncidpl, 'PRESSURE', varidpl) |
82 |
print*,'ncidv,varidv',ncidv,varidv |
endif |
83 |
if (ncidpl.eq.-99) ncidpl=ncidv |
endif |
84 |
endif |
|
85 |
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! Niveaux de pression |
86 |
c Temperature |
|
87 |
if (guide_T) then |
! Warning: il n y a pas de test de coherence sur le nombre de |
88 |
ncidt=NCOPN('T.nc',NCNOWRIT,rcode) |
! niveaux verticaux dans le fichier nc' |
89 |
varidt=NCVID(ncidt,'AIR',rcode) |
status=NF90_GET_VAR(ncidpl, varidpl, pl) |
90 |
print*,'ncidt,varidt',ncidt,varidt |
! passage en pascal |
91 |
if (ncidpl.eq.-99) ncidpl=ncidt |
pl(:)=100.*pl(:) |
92 |
endif |
if (first) then |
93 |
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do l=1, nlevnc |
94 |
c Humidite |
print *, 'PL(', l, ')=', pl(l) |
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if (guide_Q) then |
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ncidQ=NCOPN('hur.nc',NCNOWRIT,rcode) |
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varidQ=NCVID(ncidQ,'RH',rcode) |
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print*,'ncidQ,varidQ',ncidQ,varidQ |
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if (ncidpl.eq.-99) ncidpl=ncidQ |
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endif |
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c Pression de surface |
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if (guide_P) then |
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ncidps=NCOPN('ps.nc',NCNOWRIT,rcode) |
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varidps=NCVID(ncidps,'SP',rcode) |
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print*,'ncidps,varidps',ncidps,varidps |
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endif |
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c Coordonnee verticale |
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if (ncep) then |
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print*,'Vous etes entrain de lire des donnees NCEP' |
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varidpl=NCVID(ncidpl,'LEVEL',rcode) |
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else |
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print*,'Vous etes entrain de lire des donnees ECMWF' |
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varidpl=NCVID(ncidpl,'PRESSURE',rcode) |
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endif |
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print*,'ncidu,varidpl',ncidu,varidpl |
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endif |
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print*,'ok1' |
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c Niveaux de pression |
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print*,'WARNING!!! Il n y a pas de test de coherence' |
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print*,'sur le nombre de niveaux verticaux dans le fichier nc' |
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status=NF_GET_VARA_REAL(ncidpl,varidpl,1,nlevnc,pl) |
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c passage en pascal |
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pl(:)=100.*pl(:) |
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if (first) then |
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do l=1,nlevnc |
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print*,'PL(',l,')=',pl(l) |
|
95 |
enddo |
enddo |
96 |
endif |
endif |
97 |
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98 |
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! lecture des champs u, v, T |
99 |
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100 |
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! dimensions pour les champs scalaires et le vent zonal |
101 |
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102 |
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start(1)=1 |
103 |
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start(2)=1 |
104 |
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start(3)=1 |
105 |
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start(4)=timestep |
106 |
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107 |
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count(1)=iip1 |
108 |
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count(2)=jjp1 |
109 |
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count(3)=nlevnc |
110 |
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count(4)=1 |
111 |
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112 |
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! mise a zero des tableaux |
113 |
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114 |
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unc(:, :, :)=0. |
115 |
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vnc(:, :, :)=0. |
116 |
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tnc(:, :, :)=0. |
117 |
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Qnc(:, :, :)=0. |
118 |
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119 |
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! Vent zonal |
120 |
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121 |
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if (guide_u) then |
122 |
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status=NF90_GET_VAR(ncidu, varidu, unc, start, count) |
123 |
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! Warning Correction bidon pour palier a un probleme dans la |
124 |
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! creation des fichiers nc |
125 |
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call correctbid(iim, jjp1*nlevnc, unc) |
126 |
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endif |
127 |
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128 |
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! Temperature |
129 |
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130 |
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if (guide_T) then |
131 |
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status=NF90_GET_VAR(ncidt, varidt, tnc, start, count) |
132 |
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call correctbid(iim, jjp1*nlevnc, tnc) |
133 |
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endif |
134 |
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135 |
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! Humidite |
136 |
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137 |
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if (guide_Q) then |
138 |
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status=NF90_GET_VAR(ncidQ, varidQ, Qnc, start, count) |
139 |
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call correctbid(iim, jjp1*nlevnc, Qnc) |
140 |
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endif |
141 |
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142 |
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count(2)=jjm |
143 |
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! Vent meridien |
144 |
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145 |
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if (guide_v) then |
146 |
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status=NF90_GET_VAR(ncidv, varidv, vnc, start, count) |
147 |
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call correctbid(iim, jjm*nlevnc, vnc) |
148 |
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endif |
149 |
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150 |
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start(3)=timestep |
151 |
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start(4)=0 |
152 |
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count(2)=jjp1 |
153 |
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count(3)=1 |
154 |
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count(4)=0 |
155 |
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156 |
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! Interpolation verticale sur les niveaux modele |
157 |
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158 |
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call reanalyse2nat(nlevnc, psi, unc, vnc, tnc, Qnc, pl, u, v, t, Q, & |
159 |
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masse, pk) |
160 |
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161 |
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! Passage aux variables du modele (vents covariants, temperature |
162 |
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! potentielle et humidite specifique) |
163 |
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164 |
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call nat2gcm(u, v, t, Q, pk, u, v, t, Q) |
165 |
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first=.false. |
166 |
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167 |
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end subroutine read_reanalyse |
168 |
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169 |
c ----------------------------------------------------------------- |
end module read_reanalyse_m |
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c lecture des champs u, v, T, ps |
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c ----------------------------------------------------------------- |
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c dimensions pour les champs scalaires et le vent zonal |
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c ----------------------------------------------------- |
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start(1)=1 |
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start(2)=1 |
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start(3)=1 |
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start(4)=timestep |
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count(1)=iip1 |
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count(2)=jjp1 |
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count(3)=nlevnc |
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count(4)=1 |
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c mise a zero des tableaux |
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c ------------------------ |
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unc(:,:,:)=0. |
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vnc(:,:,:)=0. |
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tnc(:,:,:)=0. |
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Qnc(:,:,:)=0. |
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c Vent zonal |
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c ---------- |
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if (guide_u) then |
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print*,'avant la lecture de UNCEP nd de niv:',nlevnc |
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status=NF_GET_VARA_REAL(ncidu,varidu,start,count,unc) |
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c call dump2d(iip1,jjp1,unc,'VENT NCEP ') |
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c call dump2d(iip1,40,unc(1,1,nlevnc),'VENT NCEP ') |
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print*,'WARNING!!! Correction bidon pour palier a un ' |
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print*,'probleme dans la creation des fichiers nc' |
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call correctbid(iim,jjp1*nlevnc,unc) |
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call dump2d(iip1,jjp1,unc,'UNC COUCHE 1 ') |
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endif |
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c Temperature |
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c ----------- |
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print*,'ncidt=',ncidt,'varidt=',varidt,'start=',start |
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print*,'count=',count |
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if (guide_T) then |
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status=NF_GET_VARA_REAL(ncidt,varidt,start,count,tnc) |
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call dump2d(iip1,jjp1,tnc,'TNC COUCHE 1 AAA ') |
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call correctbid(iim,jjp1*nlevnc,tnc) |
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call dump2d(iip1,jjp1,tnc,'TNC COUCHE 1 BBB ') |
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endif |
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c Humidite |
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c -------- |
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if (guide_Q) then |
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status=NF_GET_VARA_REAL(ncidQ,varidQ,start,count,Qnc) |
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call correctbid(iim,jjp1*nlevnc,Qnc) |
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call dump2d(iip1,jjp1,Qnc,'QNC COUCHE 1 ') |
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endif |
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count(2)=jjm |
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c Vent meridien |
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c ------------- |
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if (guide_v) then |
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status=NF_GET_VARA_REAL(ncidv,varidv,start,count,vnc) |
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call correctbid(iim,jjm*nlevnc,vnc) |
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call dump2d(iip1,jjm,vnc,'VNC COUCHE 1 ') |
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endif |
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start(3)=timestep |
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start(4)=0 |
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count(2)=jjp1 |
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count(3)=1 |
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count(4)=0 |
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c Pression de surface |
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c ------------------- |
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if (guide_P) then |
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status=NF_GET_VARA_REAL(ncidps,varidps,start,count,psnc) |
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call dump2d(iip1,jjp1,psnc,'PSNC COUCHE 1 ') |
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call correctbid(iim,jjp1,psnc) |
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endif |
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c ----------------------------------------------------------------- |
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c Interpollation verticale sur les niveaux modele |
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c ----------------------------------------------------------------- |
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call reanalyse2nat(nlevnc,psi,unc,vnc,tnc,Qnc,psnc,pl,u,v,t,Q |
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s ,ps,masse,pk) |
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call dump2d(iip1,jjm,v,'V COUCHE APRES ') |
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c ----------------------------------------------------------------- |
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c Passage aux variables du modele (vents covariants, temperature |
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c potentielle et humidite specifique) |
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c ----------------------------------------------------------------- |
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call nat2gcm(u,v,t,Q,pk,u,v,t,Q) |
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print*,'TIMESTEP ',timestep |
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if(mode.ne.1) stop'mode pas egal 0' |
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c call dump2d(iip1,jjm,v,'VCOV COUCHE 1 ') |
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c Lignes introduites a une epoque pour un probleme oublie... |
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c do l=1,llm |
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c do i=1,iip1 |
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c v(i,1,l)=0. |
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c v(i,jjm,l)=0. |
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c enddo |
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c enddo |
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first=.false. |
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return |
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end |
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c=========================================================================== |
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subroutine reanalyse2nat(nlevnc,psi |
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s ,unc,vnc,tnc,qnc,psnc,pl,u,v,t,q |
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s ,ps,masse,pk) |
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c=========================================================================== |
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c ----------------------------------------------------------------- |
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c Inversion Nord/sud de la grille + interpollation sur les niveaux |
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c verticaux du modele. |
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c ----------------------------------------------------------------- |
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use dimens_m |
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use paramet_m |
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use comconst |
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use comvert |
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use comgeom |
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use exner_hyb_m, only: exner_hyb |
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use guide_m |
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use pression_m, only: pression |
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implicit none |
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integer nlevnc |
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real psi(iip1,jjp1) |
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real u(iip1,jjp1,llm),v(iip1,jjm,llm) |
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real t(iip1,jjp1,llm),ps(iip1,jjp1),q(iip1,jjp1,llm) |
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real pl(nlevnc) |
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real unc(iip1,jjp1,nlevnc),vnc(iip1,jjm,nlevnc) |
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real tnc(iip1,jjp1,nlevnc),psnc(iip1,jjp1) |
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real qnc(iip1,jjp1,nlevnc) |
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real zu(iip1,jjp1,llm),zv(iip1,jjm,llm) |
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real zt(iip1,jjp1,llm),zq(iip1,jjp1,llm) |
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real pext(iip1,jjp1,llm) |
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real pbarx(iip1,jjp1,llm),pbary(iip1,jjm,llm) |
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real plunc(iip1,jjp1,llm),plvnc(iip1,jjm,llm) |
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real plsnc(iip1,jjp1,llm) |
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real p(iip1,jjp1,llmp1),pk(iip1,jjp1,llm),pks(iip1,jjp1) |
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real pkf(iip1,jjp1,llm) |
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real masse(iip1,jjp1,llm),pls(iip1,jjp1,llm) |
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real prefkap,unskap |
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integer i,j,l |
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c ----------------------------------------------------------------- |
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c calcul de la pression au milieu des couches. |
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c ----------------------------------------------------------------- |
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CALL pression( ip1jmp1, ap, bp, psi, p ) |
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call massdair(p,masse) |
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CALL exner_hyb(psi,p,pks,pk,pkf) |
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c .... Calcul de pls , pression au milieu des couches ,en Pascals |
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unskap=1./kappa |
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prefkap = preff ** kappa |
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c PRINT *,' Pref kappa unskap ',preff,kappa,unskap |
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DO l = 1, llm |
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DO j=1,jjp1 |
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DO i =1, iip1 |
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pls(i,j,l) = preff * ( pk(i,j,l)/cpp) ** unskap |
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ENDDO |
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ENDDO |
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ENDDO |
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c ----------------------------------------------------------------- |
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c calcul des pressions pour les grilles u et v |
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c ----------------------------------------------------------------- |
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do l=1,llm |
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do j=1,jjp1 |
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do i=1,iip1 |
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pext(i,j,l)=pls(i,j,l)*aire_2d(i,j) |
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|
enddo |
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|
enddo |
|
|
enddo |
|
|
call massbar(pext, pbarx, pbary ) |
|
|
do l=1,llm |
|
|
do j=1,jjp1 |
|
|
do i=1,iip1 |
|
|
plunc(i,jjp1+1-j,l)=pbarx(i,j,l)/aireu_2d(i,j) |
|
|
plsnc(i,jjp1+1-j,l)=pls(i,j,l) |
|
|
enddo |
|
|
enddo |
|
|
enddo |
|
|
do l=1,llm |
|
|
do j=1,jjm |
|
|
do i=1,iip1 |
|
|
plvnc(i,jjm+1-j,l)=pbary(i,j,l)/airev_2d(i,j) |
|
|
enddo |
|
|
enddo |
|
|
enddo |
|
|
|
|
|
c ----------------------------------------------------------------- |
|
|
|
|
|
if (guide_P) then |
|
|
do j=1,jjp1 |
|
|
do i=1,iim |
|
|
ps(i,j)=psnc(i,jjp1+1-j) |
|
|
enddo |
|
|
ps(iip1,j)=ps(1,j) |
|
|
enddo |
|
|
endif |
|
|
|
|
|
|
|
|
c ----------------------------------------------------------------- |
|
|
call pres2lev(unc,zu,nlevnc,llm,pl,plunc,iip1,jjp1) |
|
|
call pres2lev(vnc,zv,nlevnc,llm,pl,plvnc,iip1,jjm ) |
|
|
call pres2lev(tnc,zt,nlevnc,llm,pl,plsnc,iip1,jjp1) |
|
|
call pres2lev(qnc,zq,nlevnc,llm,pl,plsnc,iip1,jjp1) |
|
|
|
|
|
c call dump2d(iip1,jjp1,ps,'PS ') |
|
|
c call dump2d(iip1,jjp1,psu,'PS ') |
|
|
c call dump2d(iip1,jjm,psv,'PS ') |
|
|
c Inversion Nord/Sud |
|
|
do l=1,llm |
|
|
do j=1,jjp1 |
|
|
do i=1,iim |
|
|
u(i,j,l)=zu(i,jjp1+1-j,l) |
|
|
t(i,j,l)=zt(i,jjp1+1-j,l) |
|
|
q(i,j,l)=zq(i,jjp1+1-j,l) |
|
|
enddo |
|
|
u(iip1,j,l)=u(1,j,l) |
|
|
t(iip1,j,l)=t(1,j,l) |
|
|
q(iip1,j,l)=q(1,j,l) |
|
|
enddo |
|
|
enddo |
|
|
|
|
|
do l=1,llm |
|
|
do j=1,jjm |
|
|
do i=1,iim |
|
|
v(i,j,l)=zv(i,jjm+1-j,l) |
|
|
enddo |
|
|
v(iip1,j,l)=v(1,j,l) |
|
|
enddo |
|
|
enddo |
|
|
|
|
|
return |
|
|
end |
|
|
|
|
|
c=========================================================================== |
|
|
subroutine nat2gcm(u,v,t,rh,pk,ucov,vcov,teta,q) |
|
|
c=========================================================================== |
|
|
|
|
|
use dimens_m |
|
|
use paramet_m |
|
|
use comconst |
|
|
use comvert |
|
|
use comgeom |
|
|
use q_sat_m, only: q_sat |
|
|
use guide_m |
|
|
implicit none |
|
|
|
|
|
|
|
|
real u(iip1,jjp1,llm),v(iip1,jjm,llm) |
|
|
real t(iip1,jjp1,llm),pk(iip1,jjp1,llm),rh(iip1,jjp1,llm) |
|
|
real ps(iip1,jjp1) |
|
|
|
|
|
real ucov(iip1,jjp1,llm),vcov(iip1,jjm,llm) |
|
|
real teta(iip1,jjp1,llm),q(iip1,jjp1,llm) |
|
|
|
|
|
real pres(iip1,jjp1,llm),qsat(iip1,jjp1,llm) |
|
|
|
|
|
real unskap |
|
|
|
|
|
integer i,j,l |
|
|
|
|
|
|
|
|
print*,'Entree dans nat2gcm' |
|
|
c ucov(:,:,:)=0. |
|
|
c do l=1,llm |
|
|
c ucov(:,2:jjm,l)=u(:,2:jjm,l)*cu_2d(:,2:jjm) |
|
|
c enddo |
|
|
c ucov(iip1,:,:)=ucov(1,:,:) |
|
|
|
|
|
c teta(:,:,:)=t(:,:,:)*cpp/pk(:,:,:) |
|
|
c teta(iip1,:,:)=teta(1,:,:) |
|
|
|
|
|
c calcul de ucov et de la temperature potentielle |
|
|
do l=1,llm |
|
|
do j=1,jjp1 |
|
|
do i=1,iim |
|
|
ucov(i,j,l)=u(i,j,l)*cu_2d(i,j) |
|
|
teta(i,j,l)=t(i,j,l)*cpp/pk(i,j,l) |
|
|
enddo |
|
|
ucov(iip1,j,l)=ucov(1,j,l) |
|
|
teta(iip1,j,l)=teta(1,j,l) |
|
|
enddo |
|
|
do i=1,iip1 |
|
|
ucov(i,1,l)=0. |
|
|
ucov(i,jjp1,l)=0. |
|
|
teta(i,1,l)=teta(1,1,l) |
|
|
teta(i,jjp1,l)=teta(1,jjp1,l) |
|
|
enddo |
|
|
enddo |
|
|
|
|
|
c calcul de ucov |
|
|
do l=1,llm |
|
|
do j=1,jjm |
|
|
do i=1,iim |
|
|
vcov(i,j,l)=v(i,j,l)*cv_2d(i,j) |
|
|
enddo |
|
|
vcov(iip1,j,l)=vcov(1,j,l) |
|
|
enddo |
|
|
enddo |
|
|
|
|
|
c call dump2d(iip1,jjp1,teta,'TETA EN BAS ') |
|
|
c call dump2d(iip1,jjp1,teta(1,1,llm),'TETA EN HAUT ') |
|
|
|
|
|
c Humidite relative -> specifique |
|
|
c ------------------------------- |
|
|
if (1.eq.0) then |
|
|
c FINALEMENT ON GUIDE EN HUMIDITE RELATIVE |
|
|
print*,'calcul de unskap' |
|
|
unskap = 1./ kappa |
|
|
print*,'calcul de pres' |
|
|
pres(:,:,:)=preff*(pk(:,:,:)/cpp)**unskap |
|
|
print*,'calcul de qsat' |
|
|
qsat = q_sat(t, pres) |
|
|
print*,'calcul de q' |
|
|
c ATTENTION : humidites relatives en % |
|
|
rh(:,:,:)=max(rh(:,:,:)*0.01,1.e-6) |
|
|
q(:,:,:)=qsat(:,:,:)*rh(:,:,:) |
|
|
print*,'calcul de q OK' |
|
|
|
|
|
call dump2d(iip1,jjp1,pres,'PRESSION PREMIERE COUCHE ') |
|
|
call dump2d(iip1,jjp1,q,'HUMIDITE SPECIFIQUE COUCHE 1 ') |
|
|
endif |
|
|
|
|
|
|
|
|
return |
|
|
end |
|
|
|
|
|
|
|
|
|
|
|
c=========================================================================== |
|
|
subroutine correctbid(iim,nl,x) |
|
|
c=========================================================================== |
|
|
integer iim,nl |
|
|
real x(iim+1,nl) |
|
|
integer i,l |
|
|
real zz |
|
|
|
|
|
do l=1,nl |
|
|
do i=2,iim-1 |
|
|
if(abs(x(i,l)).gt.1.e10) then |
|
|
zz=0.5*(x(i-1,l)+x(i+1,l)) |
|
|
c print*,'correction ',i,l,x(i,l),zz |
|
|
x(i,l)=zz |
|
|
endif |
|
|
enddo |
|
|
enddo |
|
|
return |
|
|
end |
|