1 |
SUBROUTINE phyredem(fichnom, rlat,rlon,pctsrf,tsol,tsoil, & |
module phyredem_m |
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tslab,seaice,qsurf,qsol,snow,albedo,alblw,evap,rain_fall,snow_fall, & |
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solsw,sollw,fder,radsol,frugs,agesno,zmea,zstd,zsig,zgam,zthe,zpic, & |
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zval, t_ancien,q_ancien,rnebcon,ratqs,clwcon,run_off_lic_0) |
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! From phylmd/phyredem.F,v 1.3 2005/05/25 13:10:09 |
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! Auteur(s) Z.X. Li (LMD/CNRS) date: 19930818 |
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! Objet: Ecriture de l'etat de démarrage ou redémarrage pour la physique |
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USE indicesol, ONLY : is_lic, is_oce, is_sic, is_ter, nbsrf |
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USE dimphy, ONLY : klev, klon, zmasq |
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USE dimsoil, ONLY : nsoilmx |
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USE temps, ONLY : itau_phy |
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USE netcdf95, ONLY : nf95_create, nf95_put_att |
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USE netcdf, ONLY : nf90_clobber, nf90_global |
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2 |
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3 |
IMPLICIT NONE |
IMPLICIT NONE |
4 |
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5 |
INCLUDE 'netcdf.inc' |
contains |
6 |
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7 |
CHARACTER(len=*) fichnom |
SUBROUTINE phyredem(fichnom, pctsrf, tsol, tsoil, tslab, seaice, qsurf, & |
8 |
REAL, INTENT (IN) :: rlat(klon), rlon(klon) |
qsol, snow, albedo, evap, rain_fall, snow_fall, solsw, sollw, & |
9 |
REAL :: tsol(klon,nbsrf) |
fder, radsol, frugs, agesno, zmea, zstd, zsig, zgam, zthe, zpic, zval, & |
10 |
REAL :: tsoil(klon,nsoilmx,nbsrf) |
t_ancien, q_ancien, rnebcon, ratqs, clwcon, run_off_lic_0, sig1, w01) |
11 |
!IM "slab" ocean |
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12 |
REAL :: tslab(klon), seaice(klon) !IM "slab" ocean |
! From phylmd/phyredem.F, version 1.3, 2005/05/25 13:10:09 |
13 |
REAL :: qsurf(klon,nbsrf) |
! Author: Z. X. Li (LMD/CNRS) |
14 |
REAL :: qsol(klon) |
! Date: 1993/08/18 |
15 |
REAL :: snow(klon,nbsrf) |
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16 |
REAL :: albedo(klon,nbsrf) |
! Objet : \'ecriture de l'\'etat de d\'emarrage ou red\'emarrage |
17 |
!IM BEG |
! pour la physique |
18 |
REAL :: alblw(klon,nbsrf) |
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19 |
!IM END |
USE dimphy, ONLY: klev, klon, zmasq |
20 |
REAL :: evap(klon,nbsrf) |
USE dimsoil, ONLY: nsoilmx |
21 |
REAL :: rain_fall(klon) |
USE indicesol, ONLY: is_lic, is_oce, is_sic, is_ter, nbsrf |
22 |
REAL :: snow_fall(klon) |
USE netcdf, ONLY: nf90_clobber, nf90_global, nf90_float |
23 |
REAL :: solsw(klon) |
USE netcdf95, ONLY: nf95_create, nf95_put_att, nf95_def_dim, & |
24 |
REAL :: sollw(klon) |
nf95_def_var, nf95_enddef, nf95_put_var, nf95_close |
25 |
REAL :: fder(klon) |
use phyetat0_m, only: rlat, rlon |
26 |
REAL :: radsol(klon) |
USE temps, ONLY: itau_phy |
27 |
REAL :: frugs(klon,nbsrf) |
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28 |
REAL :: agesno(klon,nbsrf) |
CHARACTER(len=*), INTENT(IN):: fichnom |
29 |
REAL :: zmea(klon) |
REAL, INTENT(IN):: pctsrf(:, :) ! (klon, nbsrf) |
30 |
REAL, intent(in):: zstd(klon) |
REAL, INTENT(IN):: tsol(:, :) ! (klon, nbsrf) |
31 |
REAL, intent(in):: zsig(klon) |
REAL, INTENT(IN):: tsoil(:, :, :) ! (klon, nsoilmx, nbsrf) |
32 |
REAL :: zgam(klon) |
REAL, INTENT(IN):: tslab(:), seaice(:) ! (klon) slab ocean |
33 |
REAL :: zthe(klon) |
REAL, INTENT(IN):: qsurf(:, :) ! (klon, nbsrf) |
34 |
REAL :: zpic(klon) |
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35 |
REAL :: zval(klon) |
REAL, intent(in):: qsol(:) ! (klon) |
36 |
REAL :: pctsrf(klon,nbsrf) |
! column-density of water in soil, in kg m-2 |
37 |
REAL :: t_ancien(klon,klev), q_ancien(klon,klev) |
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38 |
REAL :: clwcon(klon,klev), rnebcon(klon,klev), ratqs(klon,klev) |
REAL, INTENT(IN):: snow(klon, nbsrf) |
39 |
REAL :: run_off_lic_0(klon) |
REAL, INTENT(IN):: albedo(klon, nbsrf) |
40 |
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REAL, INTENT(IN):: evap(klon, nbsrf) |
41 |
INTEGER :: nid, nvarid, idim2, idim3 |
REAL, INTENT(IN):: rain_fall(klon) |
42 |
INTEGER :: ierr |
REAL, INTENT(IN):: snow_fall(klon) |
43 |
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REAL, INTENT(IN):: solsw(klon) |
44 |
INTEGER :: isoil, nsrf |
REAL, INTENT(IN):: sollw(klon) |
45 |
CHARACTER (7) :: str7 |
REAL, INTENT(IN):: fder(klon) |
46 |
CHARACTER (2) :: str2 |
REAL, INTENT(IN):: radsol(klon) |
47 |
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REAL, INTENT(IN):: frugs(klon, nbsrf) |
48 |
!------------------------------------------------------------ |
REAL, INTENT(IN):: agesno(klon, nbsrf) |
49 |
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REAL, INTENT(IN):: zmea(klon) |
50 |
PRINT *, 'Call sequence information: phyredem' |
REAL, intent(in):: zstd(klon) |
51 |
CALL nf95_create(fichnom,nf90_clobber,nid) |
REAL, intent(in):: zsig(klon) |
52 |
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REAL, intent(in):: zgam(klon) |
53 |
call nf95_put_att(nid, nf90_global, 'title', 'Fichier redémarrage physique') |
REAL, intent(in):: zthe(klon) |
54 |
call nf95_put_att(nid, nf90_global, "itau_phy", itau_phy) |
REAL, intent(in):: zpic(klon) |
55 |
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REAL, intent(in):: zval(klon) |
56 |
ierr = nf_def_dim(nid,'points_physiques',klon,idim2) |
REAL, intent(in):: t_ancien(klon, klev), q_ancien(klon, klev) |
57 |
ierr = nf_def_dim(nid,'horizon_vertical',klon*klev,idim3) |
REAL, intent(in):: rnebcon(klon, klev), ratqs(klon, klev) |
58 |
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REAL, intent(in):: clwcon(klon, klev) |
59 |
ierr = nf_def_var(nid,'longitude',nf_float,1,idim2,nvarid) |
REAL, intent(in):: run_off_lic_0(klon) |
60 |
ierr = nf_put_att_text(nid,nvarid,'title',32, & |
real, intent(in):: sig1(klon, klev) ! section adiabatic updraft |
61 |
'Longitudes de la grille physique') |
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62 |
ierr = nf_enddef(nid) |
real, intent(in):: w01(klon, klev) |
63 |
ierr = nf_put_var_real(nid,nvarid,rlon) |
! vertical velocity within adiabatic updraft |
64 |
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65 |
ierr = nf_redef(nid) |
! Local: |
66 |
ierr = nf_def_var(nid,'latitude',nf_float,1,idim2,nvarid) |
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67 |
ierr = nf_put_att_text(nid,nvarid,'title',31, & |
INTEGER ncid, idim2, idim3, dimid_nbsrf, dimid_nsoilmx |
68 |
'Latitudes de la grille physique') |
integer varid, varid_run_off_lic_0, varid_sig1, varid_w01, varid_rlon |
69 |
ierr = nf_enddef(nid) |
integer varid_rlat, varid_zmasq, varid_fter, varid_flic, varid_foce |
70 |
ierr = nf_put_var_real(nid,nvarid,rlat) |
integer varid_fsic, varid_ts, varid_tsoil, varid_tslab, varid_SEAICE |
71 |
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integer varid_qs, varid_QSOL, varid_albe, varid_evap, varid_snow |
72 |
! PB ajout du masque terre/mer |
integer varid_rads, varid_solsw, varid_sollw, varid_fder, varid_rain_f |
73 |
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integer varid_snow_f, varid_rug, varid_agesno, varid_zmea, varid_zstd |
74 |
ierr = nf_redef(nid) |
integer varid_zsig, varid_zgam, varid_zthe, varid_zpic, varid_zval |
75 |
ierr = nf_def_var(nid,'masque',nf_float,1,idim2,nvarid) |
integer varid_tancien, varid_qancien, varid_rugmer, varid_clwcon |
76 |
ierr = nf_put_att_text(nid,nvarid,'title',16,'masque terre mer') |
integer varid_rnebcon, varid_ratqs |
77 |
ierr = nf_enddef(nid) |
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78 |
ierr = nf_put_var_real(nid,nvarid,zmasq) |
!------------------------------------------------------------ |
79 |
! BP ajout des fraction de chaque sous-surface |
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80 |
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PRINT *, 'Call sequence information: phyredem' |
81 |
! 1. fraction de terre |
CALL nf95_create(fichnom, nf90_clobber, ncid) |
82 |
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83 |
ierr = nf_redef(nid) |
call nf95_put_att(ncid, nf90_global, 'title', & |
84 |
ierr = nf_def_var(nid,'FTER',nf_float,1,idim2,nvarid) |
'start file for the physics code') |
85 |
ierr = nf_put_att_text(nid,nvarid,'title',21,'fraction de continent') |
call nf95_put_att(ncid, nf90_global, "itau_phy", itau_phy) |
86 |
ierr = nf_enddef(nid) |
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87 |
ierr = nf_put_var_real(nid,nvarid,pctsrf(1:klon,is_ter)) |
call nf95_def_dim(ncid, 'points_physiques', klon, idim2) |
88 |
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call nf95_def_dim(ncid, 'klev', klev, idim3) |
89 |
! 2. Fraction de glace de terre |
call nf95_def_dim(ncid, 'nbsrf', nbsrf, dimid_nbsrf) |
90 |
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call nf95_def_dim(ncid, 'nsoilmx', nsoilmx, dimid_nsoilmx) |
91 |
ierr = nf_redef(nid) |
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92 |
ierr = nf_def_var(nid,'FLIC',nf_float,1,idim2,nvarid) |
call nf95_def_var(ncid, 'longitude', nf90_float, idim2, varid_rlon) |
93 |
ierr = nf_put_att_text(nid,nvarid,'title',24,'fraction glace de terre') |
call nf95_def_var(ncid, 'latitude', nf90_float, idim2, varid_rlat) |
94 |
ierr = nf_enddef(nid) |
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95 |
ierr = nf_put_var_real(nid,nvarid,pctsrf(1:klon,is_lic)) |
call nf95_def_var(ncid, 'masque', nf90_float, idim2, varid_zmasq) |
96 |
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call nf95_put_att(ncid, varid_zmasq, 'title', 'masque terre mer') |
97 |
! 3. fraction ocean |
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98 |
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! Fractions de chaque sous-surface |
99 |
ierr = nf_redef(nid) |
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100 |
ierr = nf_def_var(nid,'FOCE',nf_float,1,idim2,nvarid) |
call nf95_def_var(ncid, 'FTER', nf90_float, idim2, varid_fter) |
101 |
ierr = nf_put_att_text(nid,nvarid,'title',14,'fraction ocean') |
call nf95_put_att(ncid, varid_fter, 'title', 'fraction de continent') |
102 |
ierr = nf_enddef(nid) |
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103 |
ierr = nf_put_var_real(nid,nvarid,pctsrf(1:klon,is_oce)) |
call nf95_def_var(ncid, 'FLIC', nf90_float, idim2, varid_flic) |
104 |
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call nf95_put_att(ncid, varid_flic, 'title', 'fraction glace de terre') |
105 |
! 4. Fraction glace de mer |
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106 |
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call nf95_def_var(ncid, 'FOCE', nf90_float, idim2, varid_foce) |
107 |
ierr = nf_redef(nid) |
call nf95_put_att(ncid, varid_foce, 'title', 'fraction ocean') |
108 |
ierr = nf_def_var(nid,'FSIC',nf_float,1,idim2,nvarid) |
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109 |
ierr = nf_put_att_text(nid,nvarid,'title',18,'fraction glace mer') |
call nf95_def_var(ncid, 'FSIC', nf90_float, idim2, varid_fsic) |
110 |
ierr = nf_enddef(nid) |
call nf95_put_att(ncid, varid_fsic, 'title', 'fraction glace mer') |
111 |
ierr = nf_put_var_real(nid,nvarid,pctsrf(1:klon,is_sic)) |
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112 |
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call nf95_def_var(ncid, 'TS', nf90_float, (/idim2, dimid_nbsrf/), varid_ts) |
113 |
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call nf95_put_att(ncid, varid_ts, 'title', 'surface temperature') |
114 |
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115 |
DO nsrf = 1, nbsrf |
call nf95_def_var(ncid, 'Tsoil', nf90_float, (/idim2, dimid_nsoilmx, & |
116 |
IF (nsrf<=99) THEN |
dimid_nbsrf/), varid_tsoil) |
117 |
WRITE (str2,'(i2.2)') nsrf |
call nf95_put_att(ncid, varid_tsoil, 'title', 'soil temperature') |
118 |
ierr = nf_redef(nid) |
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119 |
ierr = nf_def_var(nid,'TS'//str2,nf_float,1,idim2,nvarid) |
call nf95_def_var(ncid, 'TSLAB', nf90_float, idim2, varid_tslab) |
120 |
ierr = nf_put_att_text(nid,nvarid,'title',28, & |
call nf95_put_att(ncid, varid_tslab, 'title', & |
121 |
'Temperature de surface No.'//str2) |
'Ecart de la SST (pour slab-ocean)') |
122 |
ierr = nf_enddef(nid) |
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123 |
ELSE |
call nf95_def_var(ncid, 'SEAICE', nf90_float, idim2, varid_SEAICE) |
124 |
PRINT *, 'Trop de sous-mailles' |
call nf95_put_att(ncid, varid_SEAICE, 'title', & |
125 |
STOP 1 |
'Glace de mer kg/m2 (pour slab-ocean)') |
126 |
END IF |
|
127 |
ierr = nf_put_var_real(nid,nvarid,tsol(1,nsrf)) |
call nf95_def_var(ncid, 'QS', nf90_float, (/idim2, dimid_nbsrf/), varid_qs) |
128 |
END DO |
call nf95_put_att(ncid, varid, 'title', 'Humidite de surface') |
129 |
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130 |
DO nsrf = 1, nbsrf |
call nf95_def_var(ncid, 'QSOL', nf90_float, idim2, varid_QSOL) |
131 |
DO isoil = 1, nsoilmx |
call nf95_put_att(ncid, varid_QSOL, 'title', 'Eau dans le sol (mm)') |
132 |
IF (isoil<=99 .AND. nsrf<=99) THEN |
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133 |
WRITE (str7,'(i2.2,"srf",i2.2)') isoil, nsrf |
call nf95_def_var(ncid, 'ALBE', nf90_float, (/idim2, dimid_nbsrf/), & |
134 |
ierr = nf_redef(nid) |
varid_albe) |
135 |
ierr = nf_def_var(nid,'Tsoil'//str7,nf_float,1,idim2,nvarid) |
call nf95_put_att(ncid, varid_albe, 'title', 'albedo de surface') |
136 |
ierr = nf_put_att_text(nid,nvarid,'title',29, & |
|
137 |
'Temperature du sol No.'//str7) |
call nf95_def_var(ncid, 'EVAP', nf90_float, (/idim2, dimid_nbsrf/), & |
138 |
ierr = nf_enddef(nid) |
varid_evap) |
139 |
ELSE |
call nf95_put_att(ncid, varid_evap, 'title', 'Evaporation de surface') |
140 |
PRINT *, 'Trop de couches' |
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141 |
STOP 1 |
call nf95_def_var(ncid, 'SNOW', nf90_float, (/idim2, dimid_nbsrf/), & |
142 |
END IF |
varid_snow) |
143 |
ierr = nf_put_var_real(nid,nvarid,tsoil(1,isoil,nsrf)) |
call nf95_put_att(ncid, varid_snow, 'title', 'Neige de surface') |
144 |
END DO |
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145 |
END DO |
call nf95_def_var(ncid, 'RADS', nf90_float, idim2, varid_rads) |
146 |
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call nf95_put_att(ncid, varid_rads, 'title', & |
147 |
!IM "slab" ocean |
'Rayonnement net a la surface') |
148 |
ierr = nf_redef(nid) |
|
149 |
ierr = nf_def_var(nid,'TSLAB',nf_float,1,idim2,nvarid) |
call nf95_def_var(ncid, 'solsw', nf90_float, idim2, varid_solsw) |
150 |
ierr = nf_put_att_text(nid,nvarid,'title',33, & |
call nf95_put_att(ncid, varid_solsw, 'title', & |
151 |
'Ecart de la SST (pour slab-ocean)') |
'Rayonnement solaire a la surface') |
152 |
ierr = nf_enddef(nid) |
|
153 |
ierr = nf_put_var_real(nid,nvarid,tslab) |
call nf95_def_var(ncid, 'sollw', nf90_float, idim2, varid_sollw) |
154 |
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call nf95_put_att(ncid, varid_sollw, 'title', & |
155 |
ierr = nf_redef(nid) |
'Rayonnement IF a la surface') |
156 |
ierr = nf_def_var(nid,'SEAICE',nf_float,1,idim2,nvarid) |
|
157 |
ierr = nf_put_att_text(nid,nvarid,'title',33, & |
call nf95_def_var(ncid, 'fder', nf90_float, idim2, varid_fder) |
158 |
'Glace de mer kg/m2 (pour slab-ocean)') |
call nf95_put_att(ncid, varid_fder, 'title', 'Derive de flux') |
159 |
ierr = nf_enddef(nid) |
|
160 |
ierr = nf_put_var_real(nid,nvarid,seaice) |
call nf95_def_var(ncid, 'rain_f', nf90_float, idim2, varid_rain_f) |
161 |
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call nf95_put_att(ncid, varid_rain_f, 'title', 'precipitation liquide') |
162 |
DO nsrf = 1, nbsrf |
|
163 |
IF (nsrf<=99) THEN |
call nf95_def_var(ncid, 'snow_f', nf90_float, idim2, varid_snow_f) |
164 |
WRITE (str2,'(i2.2)') nsrf |
call nf95_put_att(ncid, varid_snow_f, 'title', 'precipitation solide') |
165 |
ierr = nf_redef(nid) |
|
166 |
ierr = nf_def_var(nid,'QS'//str2,nf_float,1,idim2,nvarid) |
call nf95_def_var(ncid, 'RUG', nf90_float, (/idim2, dimid_nbsrf/), & |
167 |
ierr = nf_put_att_text(nid,nvarid,'title',25, & |
varid_rug) |
168 |
'Humidite de surface No.'//str2) |
call nf95_put_att(ncid, varid_rug, 'title', 'rugosite de surface') |
169 |
ierr = nf_enddef(nid) |
|
170 |
ELSE |
call nf95_def_var(ncid, 'AGESNO', nf90_float, (/idim2, dimid_nbsrf/), & |
171 |
PRINT *, 'Trop de sous-mailles' |
varid_agesno) |
172 |
STOP 1 |
call nf95_put_att(ncid, varid_agesno, 'title', 'Age de la neige surface') |
173 |
END IF |
|
174 |
ierr = nf_put_var_real(nid,nvarid,qsurf(1,nsrf)) |
call nf95_def_var(ncid, 'ZMEA', nf90_float, idim2, varid_zmea) |
175 |
END DO |
call nf95_def_var(ncid, 'ZSTD', nf90_float, idim2, varid_zstd) |
176 |
|
call nf95_def_var(ncid, 'ZSIG', nf90_float, idim2, varid_zsig) |
177 |
ierr = nf_redef(nid) |
call nf95_def_var(ncid, 'ZGAM', nf90_float, idim2, varid_zgam) |
178 |
ierr = nf_def_var(nid,'QSOL',nf_float,1,idim2,nvarid) |
call nf95_def_var(ncid, 'ZTHE', nf90_float, idim2, varid_zthe) |
179 |
ierr = nf_put_att_text(nid,nvarid,'title',20,'Eau dans le sol (mm)') |
call nf95_def_var(ncid, 'ZPIC', nf90_float, idim2, varid_zpic) |
180 |
ierr = nf_enddef(nid) |
call nf95_def_var(ncid, 'ZVAL', nf90_float, idim2, varid_zval) |
181 |
ierr = nf_put_var_real(nid,nvarid,qsol) |
call nf95_def_var(ncid, 'TANCIEN', nf90_float, (/idim2, idim3/), & |
182 |
|
varid_tancien) |
183 |
DO nsrf = 1, nbsrf |
call nf95_def_var(ncid, 'QANCIEN', nf90_float, (/idim2, idim3/), & |
184 |
IF (nsrf<=99) THEN |
varid_qancien) |
185 |
WRITE (str2,'(i2.2)') nsrf |
|
186 |
ierr = nf_redef(nid) |
call nf95_def_var(ncid, 'RUGMER', nf90_float, idim2, varid_rugmer) |
187 |
ierr = nf_def_var(nid,'ALBE'//str2,nf_float,1,idim2,nvarid) |
call nf95_put_att(ncid, varid_rugmer, 'title', & |
188 |
ierr = nf_put_att_text(nid,nvarid,'title',23, & |
'Longueur de rugosite sur mer') |
189 |
'albedo de surface No.'//str2) |
|
190 |
ierr = nf_enddef(nid) |
call nf95_def_var(ncid, 'CLWCON', nf90_float, idim2, varid_clwcon) |
191 |
ELSE |
call nf95_put_att(ncid, varid_clwcon, 'title', 'Eau liquide convective') |
192 |
PRINT *, 'Trop de sous-mailles' |
|
193 |
STOP 1 |
call nf95_def_var(ncid, 'RNEBCON', nf90_float, idim2, varid_rnebcon) |
194 |
END IF |
call nf95_put_att(ncid, varid_rnebcon, 'title', 'Nebulosite convective') |
195 |
ierr = nf_put_var_real(nid,nvarid,albedo(1,nsrf)) |
|
196 |
END DO |
call nf95_def_var(ncid, 'RATQS', nf90_float, idim2, varid_ratqs) |
197 |
|
call nf95_put_att(ncid, varid_ratqs, 'title', 'Ratqs') |
198 |
!IM BEG albedo LW |
|
199 |
DO nsrf = 1, nbsrf |
call nf95_def_var(ncid, 'RUNOFFLIC0', nf90_float, idim2, & |
200 |
IF (nsrf<=99) THEN |
varid_run_off_lic_0) |
201 |
WRITE (str2,'(i2.2)') nsrf |
call nf95_put_att(ncid, varid_run_off_lic_0, 'title', 'Runofflic0') |
202 |
ierr = nf_redef(nid) |
|
203 |
ierr = nf_def_var(nid,'ALBLW'//str2,nf_float,1,idim2,nvarid) |
call nf95_def_var(ncid, 'sig1', nf90_float, (/idim2, idim3/), varid_sig1) |
204 |
ierr = nf_put_att_text(nid,nvarid,'title',23, & |
call nf95_put_att(ncid, varid_sig1, 'long_name', & |
205 |
'albedo LW de surface No.'//str2) |
'section adiabatic updraft') |
206 |
ierr = nf_enddef(nid) |
|
207 |
ELSE |
call nf95_def_var(ncid, 'w01', nf90_float, (/idim2, idim3/), varid_w01) |
208 |
PRINT *, 'Trop de sous-mailles' |
call nf95_put_att(ncid, varid_w01, 'long_name', & |
209 |
STOP 1 |
'vertical velocity within adiabatic updraft') |
210 |
END IF |
|
211 |
ierr = nf_put_var_real(nid,nvarid,alblw(1,nsrf)) |
call nf95_enddef(ncid) |
212 |
END DO |
|
213 |
!IM END albedo LW |
call nf95_put_var(ncid, varid_rlon, rlon) |
214 |
|
call nf95_put_var(ncid, varid_rlat, rlat) |
215 |
DO nsrf = 1, nbsrf |
call nf95_put_var(ncid, varid_zmasq, zmasq) |
216 |
IF (nsrf<=99) THEN |
call nf95_put_var(ncid, varid_fter, pctsrf(:, is_ter)) |
217 |
WRITE (str2,'(i2.2)') nsrf |
call nf95_put_var(ncid, varid_flic, pctsrf(:, is_lic)) |
218 |
ierr = nf_redef(nid) |
call nf95_put_var(ncid, varid_foce, pctsrf(:, is_oce)) |
219 |
ierr = nf_def_var(nid,'EVAP'//str2,nf_float,1,idim2,nvarid) |
call nf95_put_var(ncid, varid_fsic, pctsrf(:, is_sic)) |
220 |
ierr = nf_put_att_text(nid,nvarid,'title',28, & |
call nf95_put_var(ncid, varid_ts, tsol) |
221 |
'Evaporation de surface No.'//str2) |
call nf95_put_var(ncid, varid_tsoil, tsoil) |
222 |
ierr = nf_enddef(nid) |
call nf95_put_var(ncid, varid_tslab, tslab) |
223 |
ELSE |
call nf95_put_var(ncid, varid_SEAICE, seaice) |
224 |
PRINT *, 'Trop de sous-mailles' |
call nf95_put_var(ncid, varid_qs, qsurf) |
225 |
STOP 1 |
call nf95_put_var(ncid, varid_QSOL, qsol) |
226 |
END IF |
call nf95_put_var(ncid, varid_albe, albedo) |
227 |
ierr = nf_put_var_real(nid,nvarid,evap(1,nsrf)) |
call nf95_put_var(ncid, varid_evap, evap) |
228 |
END DO |
call nf95_put_var(ncid, varid_snow, snow) |
229 |
|
call nf95_put_var(ncid, varid_rads, radsol) |
230 |
|
call nf95_put_var(ncid, varid_solsw, solsw) |
231 |
DO nsrf = 1, nbsrf |
call nf95_put_var(ncid, varid_sollw, sollw) |
232 |
IF (nsrf<=99) THEN |
call nf95_put_var(ncid, varid_fder, fder) |
233 |
WRITE (str2,'(i2.2)') nsrf |
call nf95_put_var(ncid, varid_rain_f, rain_fall) |
234 |
ierr = nf_redef(nid) |
call nf95_put_var(ncid, varid_snow_f, snow_fall) |
235 |
ierr = nf_def_var(nid,'SNOW'//str2,nf_float,1,idim2,nvarid) |
call nf95_put_var(ncid, varid_rug, frugs) |
236 |
ierr = nf_put_att_text(nid,nvarid,'title',22, & |
call nf95_put_var(ncid, varid_agesno, agesno) |
237 |
'Neige de surface No.'//str2) |
call nf95_put_var(ncid, varid_zmea, zmea) |
238 |
ierr = nf_enddef(nid) |
call nf95_put_var(ncid, varid_zstd, zstd) |
239 |
ELSE |
call nf95_put_var(ncid, varid_zsig, zsig) |
240 |
PRINT *, 'Trop de sous-mailles' |
call nf95_put_var(ncid, varid_zgam, zgam) |
241 |
STOP 1 |
call nf95_put_var(ncid, varid_zthe, zthe) |
242 |
END IF |
call nf95_put_var(ncid, varid_zpic, zpic) |
243 |
ierr = nf_put_var_real(nid,nvarid,snow(1,nsrf)) |
call nf95_put_var(ncid, varid_zval, zval) |
244 |
END DO |
call nf95_put_var(ncid, varid_tancien, t_ancien) |
245 |
|
call nf95_put_var(ncid, varid_qancien, q_ancien) |
246 |
|
call nf95_put_var(ncid, varid_rugmer, frugs(:, is_oce)) |
247 |
ierr = nf_redef(nid) |
call nf95_put_var(ncid, varid_clwcon, clwcon(:, 1)) |
248 |
ierr = nf_def_var(nid,'RADS',nf_float,1,idim2,nvarid) |
call nf95_put_var(ncid, varid_rnebcon, rnebcon(:, 1)) |
249 |
ierr = nf_put_att_text(nid,nvarid,'title',28, & |
call nf95_put_var(ncid, varid_ratqs, ratqs(:, 1)) |
250 |
'Rayonnement net a la surface') |
call nf95_put_var(ncid, varid_run_off_lic_0, run_off_lic_0) |
251 |
ierr = nf_enddef(nid) |
call nf95_put_var(ncid, varid_sig1, sig1) |
252 |
ierr = nf_put_var_real(nid,nvarid,radsol) |
call nf95_put_var(ncid, varid_w01, w01) |
|
|
|
|
ierr = nf_redef(nid) |
|
|
ierr = nf_def_var(nid,'solsw',nf_float,1,idim2,nvarid) |
|
|
ierr = nf_put_att_text(nid,nvarid,'title',32, & |
|
|
'Rayonnement solaire a la surface') |
|
|
ierr = nf_enddef(nid) |
|
|
ierr = nf_put_var_real(nid,nvarid,solsw) |
|
|
|
|
|
ierr = nf_redef(nid) |
|
|
ierr = nf_def_var(nid,'sollw',nf_float,1,idim2,nvarid) |
|
|
ierr = nf_put_att_text(nid,nvarid,'title',27, & |
|
|
'Rayonnement IF a la surface') |
|
|
ierr = nf_enddef(nid) |
|
|
ierr = nf_put_var_real(nid,nvarid,sollw) |
|
|
|
|
|
ierr = nf_redef(nid) |
|
|
ierr = nf_def_var(nid,'fder',nf_float,1,idim2,nvarid) |
|
|
ierr = nf_put_att_text(nid,nvarid,'title',14,'Derive de flux') |
|
|
ierr = nf_enddef(nid) |
|
|
ierr = nf_put_var_real(nid,nvarid,fder) |
|
|
|
|
|
ierr = nf_redef(nid) |
|
|
ierr = nf_def_var(nid,'rain_f',nf_float,1,idim2,nvarid) |
|
|
ierr = nf_put_att_text(nid,nvarid,'title',21,'precipitation liquide') |
|
|
ierr = nf_enddef(nid) |
|
|
ierr = nf_put_var_real(nid,nvarid,rain_fall) |
|
|
|
|
|
ierr = nf_redef(nid) |
|
|
ierr = nf_def_var(nid,'snow_f',nf_float,1,idim2,nvarid) |
|
|
ierr = nf_put_att_text(nid,nvarid,'title',20,'precipitation solide') |
|
|
ierr = nf_enddef(nid) |
|
|
ierr = nf_put_var_real(nid,nvarid,snow_fall) |
|
|
|
|
|
DO nsrf = 1, nbsrf |
|
|
IF (nsrf<=99) THEN |
|
|
WRITE (str2,'(i2.2)') nsrf |
|
|
ierr = nf_redef(nid) |
|
|
ierr = nf_def_var(nid,'RUG'//str2,nf_float,1,idim2,nvarid) |
|
|
ierr = nf_put_att_text(nid,nvarid,'title',23, & |
|
|
'rugosite de surface No.'//str2) |
|
|
ierr = nf_enddef(nid) |
|
|
ELSE |
|
|
PRINT *, 'Trop de sous-mailles' |
|
|
STOP 1 |
|
|
END IF |
|
|
ierr = nf_put_var_real(nid,nvarid,frugs(1,nsrf)) |
|
|
END DO |
|
|
|
|
|
DO nsrf = 1, nbsrf |
|
|
IF (nsrf<=99) THEN |
|
|
WRITE (str2,'(i2.2)') nsrf |
|
|
ierr = nf_redef(nid) |
|
|
ierr = nf_def_var(nid,'AGESNO'//str2,nf_float,1,idim2,nvarid) |
|
|
ierr = nf_put_att_text(nid,nvarid,'title',15, & |
|
|
'Age de la neige surface No.'//str2) |
|
|
ierr = nf_enddef(nid) |
|
|
ELSE |
|
|
PRINT *, 'Trop de sous-mailles' |
|
|
STOP 1 |
|
|
END IF |
|
|
ierr = nf_put_var_real(nid,nvarid,agesno(1,nsrf)) |
|
|
END DO |
|
|
|
|
|
ierr = nf_redef(nid) |
|
|
ierr = nf_def_var(nid,'ZMEA',nf_float,1,idim2,nvarid) |
|
|
ierr = nf_enddef(nid) |
|
|
ierr = nf_put_var_real(nid,nvarid,zmea) |
|
|
|
|
|
ierr = nf_redef(nid) |
|
|
ierr = nf_def_var(nid,'ZSTD',nf_float,1,idim2,nvarid) |
|
|
ierr = nf_enddef(nid) |
|
|
ierr = nf_put_var_real(nid,nvarid,zstd) |
|
|
ierr = nf_redef(nid) |
|
|
ierr = nf_def_var(nid,'ZSIG',nf_float,1,idim2,nvarid) |
|
|
ierr = nf_enddef(nid) |
|
|
ierr = nf_put_var_real(nid,nvarid,zsig) |
|
|
ierr = nf_redef(nid) |
|
|
ierr = nf_def_var(nid,'ZGAM',nf_float,1,idim2,nvarid) |
|
|
ierr = nf_enddef(nid) |
|
|
ierr = nf_put_var_real(nid,nvarid,zgam) |
|
|
ierr = nf_redef(nid) |
|
|
ierr = nf_def_var(nid,'ZTHE',nf_float,1,idim2,nvarid) |
|
|
ierr = nf_enddef(nid) |
|
|
ierr = nf_put_var_real(nid,nvarid,zthe) |
|
|
ierr = nf_redef(nid) |
|
|
ierr = nf_def_var(nid,'ZPIC',nf_float,1,idim2,nvarid) |
|
|
ierr = nf_enddef(nid) |
|
|
ierr = nf_put_var_real(nid,nvarid,zpic) |
|
|
ierr = nf_redef(nid) |
|
|
ierr = nf_def_var(nid,'ZVAL',nf_float,1,idim2,nvarid) |
|
|
ierr = nf_enddef(nid) |
|
|
ierr = nf_put_var_real(nid,nvarid,zval) |
|
|
|
|
|
ierr = nf_redef(nid) |
|
|
ierr = nf_def_var(nid,'TANCIEN',nf_float,1,idim3,nvarid) |
|
|
ierr = nf_enddef(nid) |
|
|
ierr = nf_put_var_real(nid,nvarid,t_ancien) |
|
|
|
|
|
ierr = nf_redef(nid) |
|
|
ierr = nf_def_var(nid,'QANCIEN',nf_float,1,idim3,nvarid) |
|
|
ierr = nf_enddef(nid) |
|
|
ierr = nf_put_var_real(nid,nvarid,q_ancien) |
|
|
|
|
|
ierr = nf_redef(nid) |
|
|
ierr = nf_def_var(nid,'RUGMER',nf_float,1,idim2,nvarid) |
|
|
ierr = nf_put_att_text(nid,nvarid,'title',28, & |
|
|
'Longueur de rugosite sur mer') |
|
|
ierr = nf_enddef(nid) |
|
|
ierr = nf_put_var_real(nid,nvarid,frugs(1,is_oce)) |
|
|
|
|
|
ierr = nf_redef(nid) |
|
|
ierr = nf_def_var(nid,'CLWCON',nf_float,1,idim2,nvarid) |
|
|
ierr = nf_put_att_text(nid,nvarid,'title',28,'Eau liquide convective') |
|
|
ierr = nf_enddef(nid) |
|
|
ierr = nf_put_var_real(nid,nvarid,clwcon) |
|
|
|
|
|
ierr = nf_redef(nid) |
|
|
ierr = nf_def_var(nid,'RNEBCON',nf_float,1,idim2,nvarid) |
|
|
ierr = nf_put_att_text(nid,nvarid,'title',28,'Nebulosite convective') |
|
|
ierr = nf_enddef(nid) |
|
|
ierr = nf_put_var_real(nid,nvarid,rnebcon) |
|
|
|
|
|
ierr = nf_redef(nid) |
|
|
ierr = nf_def_var(nid,'RATQS',nf_float,1,idim2,nvarid) |
|
|
ierr = nf_put_att_text(nid,nvarid,'title',5,'Ratqs') |
|
|
ierr = nf_enddef(nid) |
|
|
ierr = nf_put_var_real(nid,nvarid,ratqs) |
|
|
|
|
|
! run_off_lic_0 |
|
|
|
|
|
ierr = nf_redef(nid) |
|
|
ierr = nf_def_var(nid,'RUNOFFLIC0',nf_float,1,idim2,nvarid) |
|
|
ierr = nf_put_att_text(nid,nvarid,'title',10,'Runofflic0') |
|
|
ierr = nf_enddef(nid) |
|
|
ierr = nf_put_var_real(nid,nvarid,run_off_lic_0) |
|
253 |
|
|
254 |
|
call nf95_close(ncid) |
255 |
|
|
256 |
ierr = nf_close(nid) |
END SUBROUTINE phyredem |
257 |
|
|
258 |
END SUBROUTINE phyredem |
end module phyredem_m |