9 |
! Authors: L. Fairhead, Z. X. Li, P. Le Van |
! Authors: L. Fairhead, Z. X. Li, P. Le Van |
10 |
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11 |
! This subroutine creates files containing boundary conditions. |
! This subroutine creates files containing boundary conditions. |
12 |
! It uses files with climatological data. |
! It uses files with climatological data. Both grids must be |
13 |
! Both grids must be regular. |
! regular. |
14 |
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use comgeom, only: rlonu, rlatv |
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15 |
use conf_dat2d_m, only: conf_dat2d |
use conf_dat2d_m, only: conf_dat2d |
16 |
use dimens_m, only: iim, jjm |
use dimensions, only: iim, jjm |
17 |
use dimphy, only: klon, zmasq |
use dimphy, only: klon, zmasq |
18 |
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use dynetat0_m, only: rlonu, rlatv |
19 |
use etat0_mod, only: pctsrf |
use etat0_mod, only: pctsrf |
20 |
use grid_change, only: dyn_phy |
use grid_change, only: dyn_phy |
21 |
use indicesol, only: epsfra, nbsrf, is_ter, is_oce, is_lic, is_sic |
use indicesol, only: epsfra, is_ter, is_oce, is_lic, is_sic |
22 |
use inter_barxy_m, only: inter_barxy |
use inter_barxy_m, only: inter_barxy |
23 |
use netcdf95, only: handle_err, NF95_CLOSE, NF95_CREATE, NF95_DEF_DIM, & |
use netcdf95, only: NF95_CLOSE, NF95_CREATE, NF95_DEF_DIM, nf95_def_var, & |
24 |
nf95_enddef, nf95_get_var, nf95_gw_var, nf95_inq_dimid, & |
nf95_enddef, nf95_get_var, nf95_gw_var, nf95_inq_dimid, & |
25 |
nf95_inq_varid, nf95_inquire_dimension, NF95_OPEN |
nf95_inq_varid, nf95_inquire_dimension, NF95_OPEN, NF95_PUT_ATT, & |
26 |
use netcdf, only: NF90_CLOBBER, nf90_def_var, NF90_FLOAT, NF90_GLOBAL, & |
NF95_PUT_VAR |
27 |
NF90_NOWRITE, NF90_PUT_ATT, NF90_PUT_VAR, NF90_UNLIMITED |
use netcdf, only: NF90_CLOBBER, NF90_FLOAT, NF90_GLOBAL, NF90_NOWRITE, & |
28 |
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NF90_UNLIMITED |
29 |
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use nr_util, only: assert |
30 |
use numer_rec_95, only: spline, splint |
use numer_rec_95, only: spline, splint |
31 |
use start_init_orog_m, only: mask |
use start_init_orog_m, only: mask |
32 |
use unit_nml_m, only: unit_nml |
use unit_nml_m, only: unit_nml |
33 |
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34 |
! Variables local to the procedure: |
! Local: |
35 |
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36 |
LOGICAL:: extrap = .FALSE. |
LOGICAL:: extrap = .FALSE. |
37 |
! (extrapolation de données, comme pour les SST lorsque le fichier |
! (extrapolation de donn\'ees, comme pour les SST lorsque le fichier |
38 |
! ne contient pas uniquement des points océaniques) |
! ne contient pas uniquement des points oc\'eaniques) |
39 |
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REAL phy_alb(klon, 360) |
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REAL phy_sst(klon, 360) |
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40 |
REAL phy_bil(klon, 360) |
REAL phy_bil(klon, 360) |
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REAL phy_rug(klon, 360) |
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41 |
REAL phy_ice(klon) |
REAL phy_ice(klon) |
42 |
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43 |
real pctsrf_t(klon, nbsrf, 360) ! composition of the surface |
! Pour le champ de d\'epart: |
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! Pour le champ de départ: |
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44 |
INTEGER imdep, jmdep, lmdep |
INTEGER imdep, jmdep, lmdep |
45 |
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46 |
REAL, ALLOCATABLE:: dlon(:), dlat(:) |
REAL, ALLOCATABLE:: dlon(:), dlat(:) |
47 |
REAL, pointer:: dlon_ini(:), dlat_ini(:), timeyear(:) |
REAL, ALLOCATABLE:: dlon_ini(:), dlat_ini(:), timeyear(:) |
48 |
REAL, ALLOCATABLE:: champ(:, :) |
REAL, ALLOCATABLE:: champ(:, :) |
49 |
REAL, ALLOCATABLE:: work(:, :) |
REAL, ALLOCATABLE:: work(:, :) |
50 |
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51 |
! Pour le champ interpolé 3D : |
! Pour le champ interpol\'e 3D : |
52 |
REAL, allocatable:: champtime(:, :, :) |
REAL, allocatable:: champtime(:, :, :) |
53 |
REAL champan(iim + 1, jjm + 1, 360) |
REAL champan(iim + 1, jjm + 1, 360) |
54 |
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55 |
! Pour l'inteprolation verticale : |
! Pour l'inteprolation verticale : |
56 |
REAL, allocatable:: yder(:) |
REAL, allocatable:: yder(:) |
57 |
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58 |
INTEGER ierr |
INTEGER ndim, ntim |
59 |
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INTEGER varid_time |
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INTEGER nid, ndim, ntim |
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INTEGER dims(2), debut(2) |
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INTEGER id_tim |
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60 |
INTEGER id_SST, id_BILS, id_RUG, id_ALB |
INTEGER id_SST, id_BILS, id_RUG, id_ALB |
61 |
INTEGER id_FOCE, id_FSIC, id_FTER, id_FLIC |
INTEGER id_FOCE, id_FSIC, id_FTER, id_FLIC |
62 |
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63 |
INTEGER i, j, k, l |
INTEGER i, j, k, l |
64 |
INTEGER ncid, varid, dimid |
INTEGER ncid, ncid_limit, varid, dimid |
65 |
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66 |
REAL, parameter:: tmidmonth(12) = (/(15. + 30. * i, i = 0, 11)/) |
REAL, parameter:: tmidmonth(12) = [(15. + 30. * i, i = 0, 11)] |
67 |
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68 |
namelist /limit_nml/extrap |
namelist /limit_nml/extrap |
69 |
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72 |
print *, "Call sequence information: limit" |
print *, "Call sequence information: limit" |
73 |
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74 |
print *, "Enter namelist 'limit_nml'." |
print *, "Enter namelist 'limit_nml'." |
75 |
read (unit=*, nml=limit_nml) |
read(unit=*, nml=limit_nml) |
76 |
write(unit_nml, nml=limit_nml) |
write(unit_nml, nml=limit_nml) |
77 |
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78 |
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call NF95_CREATE("limit.nc", NF90_CLOBBER, ncid_limit) |
79 |
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80 |
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call NF95_PUT_ATT(ncid_limit, NF90_GLOBAL, "title", & |
81 |
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"Fichier conditions aux limites") |
82 |
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call NF95_DEF_DIM(ncid_limit, "points_physiques", klon, ndim) |
83 |
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call NF95_DEF_DIM(ncid_limit, "time", NF90_UNLIMITED, ntim) |
84 |
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85 |
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call NF95_DEF_VAR(ncid_limit, "TEMPS", NF90_FLOAT, ntim, varid_time) |
86 |
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call NF95_PUT_ATT(ncid_limit, varid_time, "title", "Jour dans l annee") |
87 |
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88 |
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call NF95_DEF_VAR(ncid_limit, "FOCE", NF90_FLOAT, dimids=[ndim, ntim], & |
89 |
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varid=id_foce) |
90 |
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call NF95_PUT_ATT(ncid_limit, id_FOCE, "title", "Fraction ocean") |
91 |
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92 |
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call NF95_DEF_VAR(ncid_limit, "FSIC", NF90_FLOAT, dimids=[ndim, ntim], & |
93 |
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varid=id_FSIC) |
94 |
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call NF95_PUT_ATT(ncid_limit, id_FSIC, "title", "Fraction glace de mer") |
95 |
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96 |
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call NF95_DEF_VAR(ncid_limit, "FTER", NF90_FLOAT, dimids=[ndim, ntim], & |
97 |
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varid=id_FTER) |
98 |
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call NF95_PUT_ATT(ncid_limit, id_FTER, "title", "Fraction terre") |
99 |
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100 |
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call NF95_DEF_VAR(ncid_limit, "FLIC", NF90_FLOAT, dimids=[ndim, ntim], & |
101 |
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varid=id_FLIC) |
102 |
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call NF95_PUT_ATT(ncid_limit, id_FLIC, "title", "Fraction land ice") |
103 |
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104 |
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call NF95_DEF_VAR(ncid_limit, "SST", NF90_FLOAT, dimids=[ndim, ntim], & |
105 |
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varid=id_SST) |
106 |
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call NF95_PUT_ATT(ncid_limit, id_SST, "title", & |
107 |
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"Temperature superficielle de la mer") |
108 |
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109 |
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call NF95_DEF_VAR(ncid_limit, "BILS", NF90_FLOAT, dimids=[ndim, ntim], & |
110 |
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varid=id_BILS) |
111 |
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call NF95_PUT_ATT(ncid_limit, id_BILS, "title", & |
112 |
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"Reference flux de chaleur au sol") |
113 |
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114 |
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call NF95_DEF_VAR(ncid_limit, "ALB", NF90_FLOAT, dimids=[ndim, ntim], & |
115 |
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varid=id_ALB) |
116 |
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call NF95_PUT_ATT(ncid_limit, id_ALB, "title", "Albedo a la surface") |
117 |
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118 |
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call NF95_DEF_VAR(ncid_limit, "RUG", NF90_FLOAT, dimids=[ndim, ntim], & |
119 |
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varid=id_RUG) |
120 |
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call NF95_PUT_ATT(ncid_limit, id_RUG, "title", "Rugosite") |
121 |
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122 |
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call NF95_ENDDEF(ncid_limit) |
123 |
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124 |
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call NF95_PUT_VAR(ncid_limit, varid_time, [(k, k = 1, 360)]) |
125 |
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126 |
PRINT *, 'Processing rugosity...' |
PRINT *, 'Processing rugosity...' |
127 |
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128 |
call NF95_OPEN('Rugos.nc', NF90_NOWRITE, ncid) |
call NF95_OPEN('Rugos.nc', NF90_NOWRITE, ncid) |
148 |
! Read the primary variable day by day and regrid horizontally, |
! Read the primary variable day by day and regrid horizontally, |
149 |
! result in "champtime": |
! result in "champtime": |
150 |
DO l = 1, lmdep |
DO l = 1, lmdep |
151 |
call NF95_GET_VAR(ncid, varid, champ, start=(/1, 1, l/)) |
call NF95_GET_VAR(ncid, varid, champ, start=[1, 1, l]) |
152 |
CALL conf_dat2d(dlon_ini, dlat_ini, dlon, dlat, champ) |
CALL conf_dat2d(dlon_ini, dlat_ini, dlon, dlat, champ) |
153 |
CALL inter_barxy(dlon, dlat(:jmdep -1), LOG(champ), rlonu(:iim), & |
CALL inter_barxy(dlon, dlat(:jmdep -1), LOG(champ), rlonu(:iim), & |
154 |
rlatv, champtime(:, :, l)) |
rlatv, champtime(:, :, l)) |
158 |
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159 |
call NF95_CLOSE(ncid) |
call NF95_CLOSE(ncid) |
160 |
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161 |
DEALLOCATE(dlon, dlat, champ, dlon_ini, dlat_ini) |
DEALLOCATE(dlon, dlat, champ) |
162 |
allocate(yder(lmdep)) |
allocate(yder(lmdep)) |
163 |
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164 |
! Interpolate monthly values to daily values, at each horizontal position: |
! Interpolate monthly values to daily values, at each horizontal position: |
172 |
ENDDO |
ENDDO |
173 |
ENDDO |
ENDDO |
174 |
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175 |
deallocate(timeyear, champtime, yder) |
deallocate(champtime, yder) |
176 |
champan(iim + 1, :, :) = champan(1, :, :) |
champan(iim + 1, :, :) = champan(1, :, :) |
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forall (k = 1:360) phy_rug(:, k) = pack(champan(:, :, k), dyn_phy) |
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177 |
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178 |
! Process sea ice: |
DO k = 1, 360 |
179 |
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call NF95_PUT_VAR(ncid_limit, id_RUG, pack(champan(:, :, k), dyn_phy), & |
180 |
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start=[1, k]) |
181 |
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ENDDO |
182 |
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183 |
PRINT *, 'Processing sea ice...' |
PRINT *, 'Processing sea ice...' |
184 |
call NF95_OPEN('amipbc_sic_1x1.nc', NF90_NOWRITE, ncid) |
call NF95_OPEN('amipbc_sic_1x1.nc', NF90_NOWRITE, ncid) |
194 |
call nf95_inq_dimid(ncid, "time", dimid) |
call nf95_inq_dimid(ncid, "time", dimid) |
195 |
call NF95_INQuire_DIMension(ncid, dimid, nclen=lmdep) |
call NF95_INQuire_DIMension(ncid, dimid, nclen=lmdep) |
196 |
print *, 'lmdep = ', lmdep |
print *, 'lmdep = ', lmdep |
197 |
! Coordonnée temporelle fichiers AMIP pas en jours. Ici on suppose |
! Coordonn\'ee temporelle fichiers AMIP pas en jours. Ici on suppose |
198 |
! qu'on a 12 mois (de 30 jours). |
! qu'on a 12 mois (de 30 jours). |
199 |
IF (lmdep /= 12) then |
IF (lmdep /= 12) then |
200 |
print *, 'Unknown AMIP file: not 12 months?' |
print *, 'Unknown AMIP file: not 12 months?' |
202 |
end IF |
end IF |
203 |
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204 |
ALLOCATE(champ(imdep, jmdep), champtime(iim, jjm + 1, lmdep)) |
ALLOCATE(champ(imdep, jmdep), champtime(iim, jjm + 1, lmdep)) |
205 |
ALLOCATE (dlon(imdep), dlat(jmdep)) |
ALLOCATE(dlon(imdep), dlat(jmdep)) |
206 |
call NF95_INQ_VARID(ncid, 'sicbcs', varid) |
call NF95_INQ_VARID(ncid, 'sicbcs', varid) |
207 |
DO l = 1, lmdep |
DO l = 1, lmdep |
208 |
call NF95_GET_VAR(ncid, varid, champ, start=(/1, 1, l/)) |
call NF95_GET_VAR(ncid, varid, champ, start=[1, 1, l]) |
209 |
CALL conf_dat2d(dlon_ini, dlat_ini, dlon, dlat, champ) |
CALL conf_dat2d(dlon_ini, dlat_ini, dlon, dlat, champ) |
210 |
CALL inter_barxy (dlon, dlat(:jmdep -1), champ, rlonu(:iim), rlatv, & |
CALL inter_barxy(dlon, dlat(:jmdep -1), champ, rlonu(:iim), rlatv, & |
211 |
champtime(:, :, l)) |
champtime(:, :, l)) |
212 |
ENDDO |
ENDDO |
213 |
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214 |
call NF95_CLOSE(ncid) |
call NF95_CLOSE(ncid) |
215 |
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216 |
DEALLOCATE(dlon, dlat, champ, dlon_ini, dlat_ini) |
DEALLOCATE(dlon, dlat, champ) |
217 |
PRINT *, 'Interpolation temporelle' |
PRINT *, 'Interpolation temporelle' |
218 |
allocate(yder(lmdep)) |
allocate(yder(lmdep)) |
219 |
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242 |
! PB en attendant de mettre fraction de terre |
! PB en attendant de mettre fraction de terre |
243 |
WHERE (phy_ice < EPSFRA) phy_ice = 0. |
WHERE (phy_ice < EPSFRA) phy_ice = 0. |
244 |
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245 |
pctsrf_t(:, is_ter, k) = pctsrf(:, is_ter) |
pctsrf(:, is_sic) = max(phy_ice - pctsrf(:, is_lic), 0.) |
246 |
pctsrf_t(:, is_lic, k) = pctsrf(:, is_lic) |
! Il y a des cas o\`u il y a de la glace dans landiceref et |
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pctsrf_t(:, is_sic, k) = max(phy_ice - pctsrf_t(:, is_lic, k), 0.) |
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! Il y a des cas où il y a de la glace dans landiceref et |
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247 |
! pas dans AMIP |
! pas dans AMIP |
248 |
WHERE (1. - zmasq < EPSFRA) |
WHERE (1. - zmasq < EPSFRA) |
249 |
pctsrf_t(:, is_sic, k) = 0. |
pctsrf(:, is_sic) = 0. |
250 |
pctsrf_t(:, is_oce, k) = 0. |
pctsrf(:, is_oce) = 0. |
251 |
elsewhere |
elsewhere |
252 |
where (pctsrf_t(:, is_sic, k) >= 1 - zmasq) |
where (pctsrf(:, is_sic) >= 1 - zmasq) |
253 |
pctsrf_t(:, is_sic, k) = 1. - zmasq |
pctsrf(:, is_sic) = 1. - zmasq |
254 |
pctsrf_t(:, is_oce, k) = 0. |
pctsrf(:, is_oce) = 0. |
255 |
ELSEwhere |
ELSEwhere |
256 |
pctsrf_t(:, is_oce, k) = 1. - zmasq - pctsrf_t(:, is_sic, k) |
pctsrf(:, is_oce) = 1. - zmasq - pctsrf(:, is_sic) |
257 |
where (pctsrf_t(:, is_oce, k) < EPSFRA) |
where (pctsrf(:, is_oce) < EPSFRA) |
258 |
pctsrf_t(:, is_oce, k) = 0. |
pctsrf(:, is_oce) = 0. |
259 |
pctsrf_t(:, is_sic, k) = 1 - zmasq |
pctsrf(:, is_sic) = 1 - zmasq |
260 |
end where |
end where |
261 |
end where |
end where |
262 |
end where |
end where |
263 |
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264 |
DO i = 1, klon |
DO i = 1, klon |
265 |
if (pctsrf_t(i, is_oce, k) < 0.) then |
if (pctsrf(i, is_oce) < 0.) then |
266 |
print *, 'Problème sous maille : pctsrf_t(', i, & |
print *, "k = ", k |
267 |
', is_oce, ', k, ') = ', pctsrf_t(i, is_oce, k) |
print *, 'Bad surface fraction: pctsrf(', i, ', is_oce) = ', & |
268 |
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pctsrf(i, is_oce) |
269 |
ENDIF |
ENDIF |
270 |
IF (abs(pctsrf_t(i, is_ter, k) + pctsrf_t(i, is_lic, k) & |
IF (abs(sum(pctsrf(i, :)) - 1.) > EPSFRA) THEN |
271 |
+ pctsrf_t(i, is_oce, k) + pctsrf_t(i, is_sic, k) - 1.) & |
print *, "k = ", k |
272 |
> EPSFRA) THEN |
print *, 'Bad surface fraction:' |
273 |
print *, 'Problème sous surface :' |
print *, "pctsrf(", i, ", :) = ", pctsrf(i, :) |
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print *, "pctsrf_t(", i, ", :, ", k, ") = ", & |
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pctsrf_t(i, :, k) |
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274 |
print *, "phy_ice(", i, ") = ", phy_ice(i) |
print *, "phy_ice(", i, ") = ", phy_ice(i) |
275 |
ENDIF |
ENDIF |
276 |
END DO |
END DO |
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ENDDO |
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277 |
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278 |
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call NF95_PUT_VAR(ncid_limit, id_FOCE, pctsrf(:, is_oce), start=[1, k]) |
279 |
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call NF95_PUT_VAR(ncid_limit, id_FSIC, pctsrf(:, is_sic), start=[1, k]) |
280 |
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call NF95_PUT_VAR(ncid_limit, id_FTER, pctsrf(:, is_ter), start=[1, k]) |
281 |
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call NF95_PUT_VAR(ncid_limit, id_FLIC, pctsrf(:, is_lic), start=[1, k]) |
282 |
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end DO |
283 |
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284 |
PRINT *, 'Traitement de la sst' |
PRINT *, 'Traitement de la sst' |
285 |
call NF95_OPEN('amipbc_sst_1x1.nc', NF90_NOWRITE, ncid) |
call NF95_OPEN('amipbc_sst_1x1.nc', NF90_NOWRITE, ncid) |
286 |
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295 |
call nf95_inq_dimid(ncid, "time", dimid) |
call nf95_inq_dimid(ncid, "time", dimid) |
296 |
call NF95_INQuire_DIMension(ncid, dimid, nclen=lmdep) |
call NF95_INQuire_DIMension(ncid, dimid, nclen=lmdep) |
297 |
print *, 'lmdep = ', lmdep |
print *, 'lmdep = ', lmdep |
298 |
!PM28/02/2002 : nouvelle coord temporelle fichiers AMIP pas en jours |
! Ici on suppose qu'on a 12 mois (de 30 jours). |
299 |
! Ici on suppose qu'on a 12 mois (de 30 jours). |
call assert(lmdep == 12, 'limit: AMIP file does not contain 12 months') |
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IF (lmdep /= 12) stop 'Unknown AMIP file: not 12 months?' |
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300 |
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301 |
ALLOCATE(champ(imdep, jmdep), champtime(iim, jjm + 1, lmdep)) |
ALLOCATE(champ(imdep, jmdep), champtime(iim, jjm + 1, lmdep)) |
302 |
IF(extrap) THEN |
IF (extrap) ALLOCATE(work(imdep, jmdep)) |
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ALLOCATE (work(imdep, jmdep)) |
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ENDIF |
|
303 |
ALLOCATE(dlon(imdep), dlat(jmdep)) |
ALLOCATE(dlon(imdep), dlat(jmdep)) |
304 |
call NF95_INQ_VARID(ncid, 'tosbcs', varid) |
call NF95_INQ_VARID(ncid, 'tosbcs', varid) |
305 |
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306 |
DO l = 1, lmdep |
DO l = 1, lmdep |
307 |
call NF95_GET_VAR(ncid, varid, champ, start=(/1, 1, l/)) |
call NF95_GET_VAR(ncid, varid, champ, start=[1, 1, l]) |
308 |
CALL conf_dat2d(dlon_ini, dlat_ini, dlon, dlat, champ) |
CALL conf_dat2d(dlon_ini, dlat_ini, dlon, dlat, champ) |
309 |
IF (extrap) THEN |
IF (extrap) & |
310 |
CALL extrapol(champ, imdep, jmdep, 999999., .TRUE., .TRUE., 2, work) |
CALL extrapol(champ, imdep, jmdep, 999999., .TRUE., .TRUE., 2, work) |
311 |
ENDIF |
CALL inter_barxy(dlon, dlat(:jmdep -1), champ, rlonu(:iim), rlatv, & |
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CALL inter_barxy (dlon, dlat(:jmdep -1), champ, rlonu(:iim), rlatv, & |
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312 |
champtime(:, :, l)) |
champtime(:, :, l)) |
313 |
ENDDO |
ENDDO |
314 |
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315 |
call NF95_CLOSE(ncid) |
call NF95_CLOSE(ncid) |
316 |
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DEALLOCATE(dlon, dlat, champ) |
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DEALLOCATE(dlon, dlat, champ, dlon_ini, dlat_ini) |
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317 |
allocate(yder(lmdep)) |
allocate(yder(lmdep)) |
318 |
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319 |
! interpolation temporelle |
! interpolation temporelle |
331 |
champan(iim + 1, :, :) = champan(1, :, :) |
champan(iim + 1, :, :) = champan(1, :, :) |
332 |
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|
333 |
!IM14/03/2002 : SST amipbc greater then 271.38 |
!IM14/03/2002 : SST amipbc greater then 271.38 |
334 |
PRINT *, 'SUB. limit_netcdf.F IM : SST Amipbc >= 271.38 ' |
PRINT *, 'limit: SST Amipbc >= 271.38 ' |
335 |
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336 |
DO k = 1, 360 |
DO k = 1, 360 |
337 |
DO j = 1, jjm + 1 |
DO j = 1, jjm + 1 |
338 |
DO i = 1, iim |
DO i = 1, iim |
339 |
champan(i, j, k) = amax1(champan(i, j, k), 271.38) |
champan(i, j, k) = max(champan(i, j, k), 271.38) |
340 |
ENDDO |
ENDDO |
341 |
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342 |
champan(iim + 1, j, k) = champan(1, j, k) |
champan(iim + 1, j, k) = champan(1, j, k) |
343 |
ENDDO |
ENDDO |
344 |
ENDDO |
ENDDO |
345 |
forall (k = 1:360) phy_sst(:, k) = pack(champan(:, :, k), dyn_phy) |
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346 |
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DO k = 1, 360 |
347 |
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call NF95_PUT_VAR(ncid_limit, id_SST, pack(champan(:, :, k), dyn_phy), & |
348 |
|
start=[1, k]) |
349 |
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end DO |
350 |
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351 |
PRINT *, "Traitement de l'albedo..." |
PRINT *, "Traitement de l'albedo..." |
352 |
call NF95_OPEN('Albedo.nc', NF90_NOWRITE, ncid) |
call NF95_OPEN('Albedo.nc', NF90_NOWRITE, ncid) |
363 |
call nf95_gw_var(ncid, varid, timeyear) |
call nf95_gw_var(ncid, varid, timeyear) |
364 |
lmdep = size(timeyear) |
lmdep = size(timeyear) |
365 |
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|
366 |
ALLOCATE (champ(imdep, jmdep), champtime(iim, jjm + 1, lmdep)) |
ALLOCATE(champ(imdep, jmdep), champtime(iim, jjm + 1, lmdep)) |
367 |
ALLOCATE (dlon(imdep), dlat(jmdep)) |
ALLOCATE(dlon(imdep), dlat(jmdep)) |
368 |
call NF95_INQ_VARID(ncid, 'ALBEDO', varid) |
call NF95_INQ_VARID(ncid, 'ALBEDO', varid) |
369 |
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|
370 |
DO l = 1, lmdep |
DO l = 1, lmdep |
371 |
PRINT *, "timeyear(", l, ") =", timeyear(l) |
PRINT *, "timeyear(", l, ") =", timeyear(l) |
372 |
call NF95_GET_VAR(ncid, varid, champ, start=(/1, 1, l/)) |
call NF95_GET_VAR(ncid, varid, champ, start=[1, 1, l]) |
373 |
CALL conf_dat2d(dlon_ini, dlat_ini, dlon, dlat, champ) |
CALL conf_dat2d(dlon_ini, dlat_ini, dlon, dlat, champ) |
374 |
CALL inter_barxy(dlon, dlat(:jmdep-1), champ, rlonu(:iim), rlatv, & |
CALL inter_barxy(dlon, dlat(:jmdep-1), champ, rlonu(:iim), rlatv, & |
375 |
champtime(:, :, l)) |
champtime(:, :, l)) |
377 |
|
|
378 |
call NF95_CLOSE(ncid) |
call NF95_CLOSE(ncid) |
379 |
|
|
|
deallocate(dlon_ini, dlat_ini) |
|
380 |
allocate(yder(lmdep)) |
allocate(yder(lmdep)) |
381 |
|
|
382 |
! interpolation temporelle |
! interpolation temporelle |
389 |
ENDDO |
ENDDO |
390 |
ENDDO |
ENDDO |
391 |
ENDDO |
ENDDO |
|
deallocate(timeyear) |
|
392 |
|
|
393 |
champan(iim + 1, :, :) = champan(1, :, :) |
champan(iim + 1, :, :) = champan(1, :, :) |
|
forall (k = 1:360) phy_alb(:, k) = pack(champan(:, :, k), dyn_phy) |
|
394 |
|
|
395 |
DO k = 1, 360 |
DO k = 1, 360 |
396 |
DO i = 1, klon |
call NF95_PUT_VAR(ncid_limit, id_ALB, pack(champan(:, :, k), dyn_phy), & |
397 |
phy_bil(i, k) = 0.0 |
start=[1, k]) |
398 |
ENDDO |
end DO |
|
ENDDO |
|
|
|
|
|
PRINT *, 'Ecriture du fichier limit' |
|
|
|
|
|
call NF95_CREATE("limit.nc", NF90_CLOBBER, nid) |
|
|
|
|
|
ierr = NF90_PUT_ATT(nid, NF90_GLOBAL, "title", & |
|
|
"Fichier conditions aux limites") |
|
|
call NF95_DEF_DIM (nid, "points_physiques", klon, ndim) |
|
|
call NF95_DEF_DIM (nid, "time", NF90_UNLIMITED, ntim) |
|
|
|
|
|
dims(1) = ndim |
|
|
dims(2) = ntim |
|
|
|
|
|
ierr = NF90_DEF_VAR (nid, "TEMPS", NF90_FLOAT, ntim, id_tim) |
|
|
ierr = NF90_PUT_ATT (nid, id_tim, "title", "Jour dans l annee") |
|
|
ierr = NF90_DEF_VAR (nid, "FOCE", NF90_FLOAT, dims, id_FOCE) |
|
|
ierr = NF90_PUT_ATT (nid, id_FOCE, "title", "Fraction ocean") |
|
399 |
|
|
400 |
ierr = NF90_DEF_VAR (nid, "FSIC", NF90_FLOAT, dims, id_FSIC) |
phy_bil = 0. |
401 |
ierr = NF90_PUT_ATT (nid, id_FSIC, "title", "Fraction glace de mer") |
call NF95_PUT_VAR(ncid_limit, id_BILS, phy_bil) |
|
|
|
|
ierr = NF90_DEF_VAR (nid, "FTER", NF90_FLOAT, dims, id_FTER) |
|
|
ierr = NF90_PUT_ATT (nid, id_FTER, "title", "Fraction terre") |
|
|
|
|
|
ierr = NF90_DEF_VAR (nid, "FLIC", NF90_FLOAT, dims, id_FLIC) |
|
|
ierr = NF90_PUT_ATT (nid, id_FLIC, "title", "Fraction land ice") |
|
|
|
|
|
ierr = NF90_DEF_VAR (nid, "SST", NF90_FLOAT, dims, id_SST) |
|
|
ierr = NF90_PUT_ATT (nid, id_SST, "title", & |
|
|
"Temperature superficielle de la mer") |
|
|
ierr = NF90_DEF_VAR (nid, "BILS", NF90_FLOAT, dims, id_BILS) |
|
|
ierr = NF90_PUT_ATT (nid, id_BILS, "title", & |
|
|
"Reference flux de chaleur au sol") |
|
|
ierr = NF90_DEF_VAR (nid, "ALB", NF90_FLOAT, dims, id_ALB) |
|
|
ierr = NF90_PUT_ATT (nid, id_ALB, "title", "Albedo a la surface") |
|
|
ierr = NF90_DEF_VAR (nid, "RUG", NF90_FLOAT, dims, id_RUG) |
|
|
ierr = NF90_PUT_ATT (nid, id_RUG, "title", "Rugosite") |
|
|
|
|
|
call NF95_ENDDEF(nid) |
|
|
|
|
|
DO k = 1, 360 |
|
|
debut(1) = 1 |
|
|
debut(2) = k |
|
|
|
|
|
ierr = NF90_PUT_VAR(nid, id_tim, REAL(k), (/k/)) |
|
|
ierr = NF90_PUT_VAR(nid, id_FOCE, pctsrf_t(:, is_oce, k), debut) |
|
|
ierr = NF90_PUT_VAR (nid, id_FSIC, pctsrf_t(:, is_sic, k), debut) |
|
|
ierr = NF90_PUT_VAR (nid, id_FTER, pctsrf_t(:, is_ter, k), debut) |
|
|
ierr = NF90_PUT_VAR (nid, id_FLIC, pctsrf_t(:, is_lic, k), debut) |
|
|
ierr = NF90_PUT_VAR (nid, id_SST, phy_sst(:, k), debut) |
|
|
ierr = NF90_PUT_VAR (nid, id_BILS, phy_bil(:, k), debut) |
|
|
ierr = NF90_PUT_VAR (nid, id_ALB, phy_alb(:, k), debut) |
|
|
ierr = NF90_PUT_VAR (nid, id_RUG, phy_rug(:, k), debut) |
|
|
ENDDO |
|
402 |
|
|
403 |
call NF95_CLOSE(nid) |
call NF95_CLOSE(ncid_limit) |
404 |
|
|
405 |
END SUBROUTINE limit |
END SUBROUTINE limit |
406 |
|
|