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trunk/libf/dyn3d/etat0.f90 revision 25 by guez, Fri Mar 5 16:43:45 2010 UTC trunk/dyn3d/etat0.f revision 313 by guez, Mon Dec 10 15:54:30 2018 UTC
# Line 1  Line 1 
1  module etat0_mod  module etat0_m
   
   use indicesol, only: nbsrf  
   use dimphy, only: klon  
2    
3    IMPLICIT NONE    IMPLICIT NONE
4    
   REAL pctsrf(klon, nbsrf)  
   ! ("pctsrf(i, :)" is the composition of the surface at horizontal  
   !  position "i")  
   
   private nbsrf, klon  
   
5  contains  contains
6    
7    SUBROUTINE etat0    SUBROUTINE etat0(phis, pctsrf)
   
     ! From "etat0_netcdf.F", version 1.3 2005/05/25 13:10:09  
   
     ! This subroutine creates "mask".  
8    
9      USE ioipsl, only: flinget, flinclo, flinopen_nozoom, flininfo, histclo      ! From "etat0_netcdf.F", version 1.3, 2005/05/25 13:10:09
10    
11      USE start_init_orog_m, only: start_init_orog, mask, phis      use caldyn0_m, only: caldyn0
12      use start_init_phys_m, only: qsol_2d      use comconst, only: cpp, kappa, iniconst
13      use startdyn, only: start_inter_3d, start_init_dyn      use comgeom, only: aire_2d, apoln, apols, cu_2d, cv_2d, inigeom
14      use dimens_m, only: iim, jjm, llm, nqmx      use conf_gcm_m, only: nday
15      use paramet_m, only: ip1jm, ip1jmp1      use dimensions, only: iim, jjm, llm, nqmx
16      use comconst, only: dtvr, daysec, cpp, kappa, pi      use dimphy, only: klon
     use comdissnew, only: lstardis, nitergdiv, nitergrot, niterh, &  
          tetagdiv, tetagrot, tetatemp  
     use indicesol, only: is_oce, is_sic, is_ter, is_lic, epsfra  
     use comvert, only: ap, bp, preff, pa  
     use dimphy, only: zmasq  
     use conf_gcm_m, only: day_step, iphysiq, dayref, anneeref  
     use comgeom, only: rlatu, rlonv, rlonu, rlatv, aire_2d, apoln, apols, &  
          cu_2d, cv_2d  
     use serre, only: alphax  
17      use dimsoil, only: nsoilmx      use dimsoil, only: nsoilmx
18      use temps, only: itau_dyn, itau_phy, annee_ref, day_ref, dt      use disvert_m, only: ap, bp, preff, disvert
19      use grid_atob, only: grille_m      use dynetat0_m, only: rlatu, rlatv, rlonu, rlonv, fyhyp, fxhyp
20      use grid_change, only: init_dyn_phy, dyn_phy      use dynetat0_chosen_m, only: day_ref
21      use q_sat_m, only: q_sat      use dynredem0_m, only: dynredem0
22        use dynredem1_m, only: dynredem1
23      use exner_hyb_m, only: exner_hyb      use exner_hyb_m, only: exner_hyb
24        use geopot_m, only: geopot
25        use grille_m_m, only: grille_m
26        use grid_change, only: init_dyn_phy, dyn_phy
27        use indicesol, only: is_oce, is_sic, is_ter, is_lic, epsfra, nbsrf
28      use iniadvtrac_m, only: iniadvtrac      use iniadvtrac_m, only: iniadvtrac
29      use pressure_var, only: pls, p3d      use inifilr_m, only: inifilr
30      use dynredem0_m, only: dynredem0      use massdair_m, only: massdair
31        use netcdf, only: nf90_nowrite
32        use netcdf95, only: nf95_close, nf95_get_var, nf95_gw_var, nf95_put_var, &
33             nf95_inq_varid, nf95_open
34        use nr_util, only: pi, assert
35        use phyetat0_m, only: zmasq, phyetat0_new
36        use phyredem0_m, only: phyredem0, ncid_restartphy
37        use phyredem_m, only: phyredem
38        use q_sat_m, only: q_sat
39      use regr_lat_time_coefoz_m, only: regr_lat_time_coefoz      use regr_lat_time_coefoz_m, only: regr_lat_time_coefoz
40      use regr_pr_o3_m, only: regr_pr_o3      use regr_pr_o3_m, only: regr_pr_o3
41      use phyredem_m, only: phyredem      use startdyn, only: start_init_dyn
42      use caldyn0_m, only: caldyn0      USE start_init_orog_m, only: start_init_orog
43      use inigeom_m, only: inigeom      use start_init_phys_m, only: start_init_phys
44        use start_inter_3d_m, only: start_inter_3d
45        use test_disvert_m, only: test_disvert
46    
47        REAL, intent(out):: phis(:, :) ! (iim + 1, jjm + 1)
48        ! surface geopotential, in m2 s-2
49    
50      ! Variables local to the procedure:      REAL, intent(out):: pctsrf(:, :) ! (klon, nbsrf)
51        ! "pctsrf(i, :)" is the composition of the surface at horizontal
52        ! position "i".
53    
54      REAL latfi(klon), lonfi(klon)      ! Local:
     ! (latitude and longitude of a point of the scalar grid identified  
     ! by a simple index, in °)  
55    
56      REAL, dimension(iim + 1, jjm + 1, llm):: uvent, t3d, tpot      REAL, dimension(iim + 1, jjm + 1, llm):: ucov, t3d, teta
57      REAL vvent(iim + 1, jjm, llm)      REAL vcov(iim + 1, jjm, llm)
58    
59      REAL q3d(iim + 1, jjm + 1, llm, nqmx)      REAL q(iim + 1, jjm + 1, llm, nqmx)
60      ! (mass fractions of trace species      ! (mass fractions of trace species
61      ! "q3d(i, j, l)" is at longitude "rlonv(i)", latitude "rlatu(j)"      ! "q(i, j, l)" is at longitude "rlonv(i)", latitude "rlatu(j)"
62      ! and pressure level "pls(i, j, l)".)      ! and pressure level "pls(i, j, l)".)
63    
64      real qsat(iim + 1, jjm + 1, llm) ! mass fraction of saturating water vapor      real qsat(iim + 1, jjm + 1, llm) ! mass fraction of saturating water vapor
65      REAL tsol(klon), qsol(klon), sn(klon)      REAL qsolsrf(klon, nbsrf), snsrf(klon, nbsrf)
66      REAL tsolsrf(klon, nbsrf), qsolsrf(klon, nbsrf), snsrf(klon, nbsrf)      REAL albe(klon, nbsrf)
     REAL albe(klon, nbsrf), evap(klon, nbsrf)  
     REAL alblw(klon, nbsrf)  
67      REAL tsoil(klon, nsoilmx, nbsrf)      REAL tsoil(klon, nsoilmx, nbsrf)
68      REAL radsol(klon), rain_fall(klon), snow_fall(klon)      REAL null_array(klon)
69      REAL solsw(klon), sollw(klon), fder(klon)      REAL solsw(klon), sollw(klon)
70      !IM "slab" ocean      !IM "slab" ocean
     REAL tslab(klon)  
     real seaice(klon) ! kg m-2  
71      REAL frugs(klon, nbsrf), agesno(klon, nbsrf)      REAL frugs(klon, nbsrf), agesno(klon, nbsrf)
72      REAL rugmer(klon)      REAL rugmer(klon)
73      real, dimension(iim + 1, jjm + 1):: relief, zstd_2d, zsig_2d, zgam_2d      real, dimension(iim + 1, jjm + 1):: zmea_2d, zstd_2d, zsig_2d, zgam_2d
74      real, dimension(iim + 1, jjm + 1):: zthe_2d, zpic_2d, zval_2d      real, dimension(iim + 1, jjm + 1):: zthe_2d, zpic_2d, zval_2d
75      real, dimension(iim + 1, jjm + 1):: tsol_2d, psol      real, dimension(iim + 1, jjm + 1):: tsol_2d, qsol_2d, ps
76      REAL zmea(klon), zstd(klon)      REAL zmea(klon), zstd(klon)
77      REAL zsig(klon), zgam(klon)      REAL zsig(klon), zgam(klon)
78      REAL zthe(klon)      REAL zthe(klon)
79      REAL zpic(klon), zval(klon)      REAL zpic(klon), zval(klon)
80      REAL t_ancien(klon, llm), q_ancien(klon, llm)      !      REAL t_ancien(klon, llm), q_ancien(klon, llm)
     REAL run_off_lic_0(klon)  
81      real clwcon(klon, llm), rnebcon(klon, llm), ratqs(klon, llm)      real clwcon(klon, llm), rnebcon(klon, llm), ratqs(klon, llm)
82      ! déclarations pour lecture glace de mer  
83      INTEGER iml_lic, jml_lic, llm_tmp, ttm_tmp      ! D\'eclarations pour lecture glace de mer :
84      INTEGER itaul(1), fid      INTEGER iml_lic, jml_lic
85      REAL lev(1), date      INTEGER ncid, varid
     REAL, ALLOCATABLE:: lon_lic(:, :), lat_lic(:, :)  
86      REAL, ALLOCATABLE:: dlon_lic(:), dlat_lic(:)      REAL, ALLOCATABLE:: dlon_lic(:), dlat_lic(:)
87      REAL, ALLOCATABLE:: fraclic(:, :) ! fraction land ice      REAL, ALLOCATABLE:: fraclic(:, :) ! fraction land ice
88      REAL flic_tmp(iim + 1, jjm + 1) !fraction land ice temporary      REAL flic_tmp(iim + 1, jjm + 1) ! fraction land ice temporary
89    
90      INTEGER l, ji      INTEGER l, ji
91    
92      REAL pk(iim + 1, jjm + 1, llm) ! fonction d'Exner aux milieux des couches      REAL pk(iim + 1, jjm + 1, llm) ! fonction d'Exner aux milieux des couches
93      real pks(iim + 1, jjm + 1)      real pks(iim + 1, jjm + 1)
   
94      REAL masse(iim + 1, jjm + 1, llm)      REAL masse(iim + 1, jjm + 1, llm)
95      REAL phi(ip1jmp1, llm)      REAL phi(iim + 1, jjm + 1, llm)
96      REAL pbaru(ip1jmp1, llm), pbarv(ip1jm, llm)      real sig1(klon, llm) ! section adiabatic updraft
97      REAL w(ip1jmp1, llm)      real w01(klon, llm) ! vertical velocity within adiabatic updraft
98      REAL phystep  
99        real pls(iim + 1, jjm + 1, llm)
100        ! (pressure at mid-layer of LMDZ grid, in Pa)
101        ! "pls(i, j, l)" is at longitude "rlonv(i)", latitude "rlatu(j)",
102        ! for layer "l")
103    
104        REAL p3d(iim + 1, jjm + 1, llm+1) ! pressure at layer interfaces, in Pa
105        ! ("p3d(i, j, l)" is at longitude "rlonv(i)", latitude "rlatu(j)",
106        ! for interface "l")
107    
108      !---------------------------------      !---------------------------------
109    
110      print *, "Call sequence information: etat0"      print *, "Call sequence information: etat0"
111    
112      ! Construct a grid:      CALL iniconst
113    
114      dtvr = daysec / real(day_step)      ! Construct a grid:
     print *, 'dtvr = ', dtvr  
115    
116      pa = 5e4      CALL disvert
117      CALL iniconst      call test_disvert
118        CALL fyhyp
119        CALL fxhyp
120      CALL inigeom      CALL inigeom
121      CALL inifilr      CALL inifilr
122        call start_init_orog(phis, zmea_2d, zstd_2d, zsig_2d, zgam_2d, zthe_2d, &
123      latfi(1) = 90.           zpic_2d, zval_2d) ! also compute "mask"
     latfi(2:klon-1) = pack(spread(rlatu(2:jjm), 1, iim), .true.) * 180. / pi  
     ! (with conversion to degrees)  
     latfi(klon) = - 90.  
   
     lonfi(1) = 0.  
     lonfi(2:klon-1) = pack(spread(rlonv(:iim), 2, jjm - 1), .true.) * 180. / pi  
     ! (with conversion to degrees)  
     lonfi(klon) = 0.  
   
     call start_init_orog(relief, zstd_2d, zsig_2d, zgam_2d, zthe_2d, zpic_2d, &  
          zval_2d) ! also compute "mask" and "phis"  
124      call init_dyn_phy ! define the mask "dyn_phy" for distinct grid points      call init_dyn_phy ! define the mask "dyn_phy" for distinct grid points
125      zmasq = pack(mask, dyn_phy)      call phyetat0_new
     PRINT *, 'Masque construit'  
126    
127      CALL start_init_dyn(tsol_2d, psol) ! also compute "qsol_2d"      call start_init_phys(tsol_2d, qsol_2d)
128        CALL start_init_dyn(tsol_2d, phis, ps)
129    
130      ! Compute pressure on intermediate levels:      ! Compute pressure on intermediate levels:
131      forall(l = 1: llm + 1) p3d(:, :, l) = ap(l) + bp(l) * psol      forall(l = 1: llm + 1) p3d(:, :, l) = ap(l) + bp(l) * ps
132      CALL exner_hyb(psol, p3d, pks, pk)      CALL exner_hyb(ps, p3d, pks, pk)
133      IF (MINVAL(pk) == MAXVAL(pk)) stop '"pk" should not be constant'      call assert(MINVAL(pk) /= MAXVAL(pk), '"pk" should not be constant')
134    
135      pls(:, :, :) = preff * (pk(:, :, :) / cpp)**(1. / kappa)      pls = preff * (pk / cpp)**(1. / kappa)
136      PRINT *, "minval(pls(:, :, :)) = ", minval(pls(:, :, :))      PRINT *, "minval(pls) = ", minval(pls)
137      print *, "maxval(pls(:, :, :)) = ", maxval(pls(:, :, :))      print *, "maxval(pls) = ", maxval(pls)
138    
139      call start_inter_3d('U', rlonv, rlatv, pls, uvent)      call start_inter_3d('U', rlonv, rlatv, pls, ucov)
140      forall (l = 1: llm) uvent(:iim, :, l) = uvent(:iim, :, l) * cu_2d(:iim, :)      forall (l = 1: llm) ucov(:iim, :, l) = ucov(:iim, :, l) * cu_2d(:iim, :)
141      uvent(iim+1, :, :) = uvent(1, :, :)      ucov(iim+1, :, :) = ucov(1, :, :)
142    
143      call start_inter_3d('V', rlonu, rlatu(:jjm), pls(:, :jjm, :), vvent)      call start_inter_3d('V', rlonu, rlatu(:jjm), pls(:, :jjm, :), vcov)
144      forall (l = 1: llm) vvent(:iim, :, l) = vvent(:iim, :, l) * cv_2d(:iim, :)      forall (l = 1: llm) vcov(:iim, :, l) = vcov(:iim, :, l) * cv_2d(:iim, :)
145      vvent(iim + 1, :, :) = vvent(1, :, :)      vcov(iim + 1, :, :) = vcov(1, :, :)
146    
147      call start_inter_3d('TEMP', rlonu, rlatv, pls, t3d)      call start_inter_3d('TEMP', rlonu, rlatv, pls, t3d)
148      PRINT *,  'minval(t3d(:, :, :)) = ', minval(t3d(:, :, :))      PRINT *, 'minval(t3d) = ', minval(t3d)
149      print *, "maxval(t3d(:, :, :)) = ", maxval(t3d(:, :, :))      print *, "maxval(t3d) = ", maxval(t3d)
150    
151      tpot(:iim, :, :) = t3d(:iim, :, :) * cpp / pk(:iim, :, :)      teta(:iim, :, :) = t3d(:iim, :, :) * cpp / pk(:iim, :, :)
152      tpot(iim + 1, :, :) = tpot(1, :, :)      teta(iim + 1, :, :) = teta(1, :, :)
153      DO l=1, llm      DO l = 1, llm
154         tpot(:, 1, l) = SUM(aire_2d(:, 1) * tpot(:, 1, l)) / apoln         teta(:, 1, l) = SUM(aire_2d(:, 1) * teta(:, 1, l)) / apoln
155         tpot(:, jjm + 1, l) = SUM(aire_2d(:, jjm + 1) * tpot(:, jjm + 1, l)) &         teta(:, jjm + 1, l) = SUM(aire_2d(:, jjm + 1) * teta(:, jjm + 1, l)) &
156              / apols              / apols
157      ENDDO      ENDDO
158    
159      ! Calcul de l'humidité à saturation :      ! Calcul de l'humidit\'e \`a saturation :
160      qsat(:, :, :) = q_sat(t3d, pls)      qsat = q_sat(t3d, pls)
161      PRINT *, "minval(qsat(:, :, :)) = ", minval(qsat(:, :, :))      PRINT *, "minval(qsat) = ", minval(qsat)
162      print *, "maxval(qsat(:, :, :)) = ", maxval(qsat(:, :, :))      print *, "maxval(qsat) = ", maxval(qsat)
163      IF (MINVAL(qsat) == MAXVAL(qsat)) stop '"qsat" should not be constant'      IF (MINVAL(qsat) == MAXVAL(qsat)) stop '"qsat" should not be constant'
164    
165      ! Water vapor:      ! Water vapor:
166      call start_inter_3d('R', rlonu, rlatv, pls, q3d(:, :, :, 1))      call start_inter_3d('R', rlonu, rlatv, pls, q(:, :, :, 1))
167      q3d(:, :, :, 1) = 0.01 * q3d(:, :, :, 1) * qsat      q(:, :, :, 1) = 0.01 * q(:, :, :, 1) * qsat
168      WHERE (q3d(:, :, :, 1) < 0.) q3d(:, :, :, 1) = 1E-10      WHERE (q(:, :, :, 1) < 0.) q(:, :, :, 1) = 1E-10
169      DO l = 1, llm      DO l = 1, llm
170         q3d(:, 1, l, 1) = SUM(aire_2d(:, 1) * q3d(:, 1, l, 1)) / apoln         q(:, 1, l, 1) = SUM(aire_2d(:, 1) * q(:, 1, l, 1)) / apoln
171         q3d(:, jjm + 1, l, 1) &         q(:, jjm + 1, l, 1) &
172              = SUM(aire_2d(:, jjm + 1) * q3d(:, jjm + 1, l, 1)) / apols              = SUM(aire_2d(:, jjm + 1) * q(:, jjm + 1, l, 1)) / apols
173      ENDDO      ENDDO
174    
175      q3d(:, :, :, 2:4) = 0. ! liquid water, radon and lead      q(:, :, :, 2:4) = 0. ! liquid water, radon and lead
176    
177      if (nqmx >= 5) then      if (nqmx >= 5) then
178         ! Ozone:         ! Ozone:
179         call regr_lat_time_coefoz         call regr_lat_time_coefoz
180         call regr_pr_o3(q3d(:, :, :, 5))         call regr_pr_o3(p3d, q(:, :, :, 5))
181         ! Convert from mole fraction to mass fraction:         ! Convert from mole fraction to mass fraction:
182         q3d(:, :, :, 5) = q3d(:, :, :, 5)  * 48. / 29.         q(:, :, :, 5) = q(:, :, :, 5) * 48. / 29.
183      end if      end if
184    
185      tsol = pack(tsol_2d, dyn_phy)      null_array = 0.
     qsol = pack(qsol_2d, dyn_phy)  
     sn = 0. ! snow  
     radsol = 0.  
     tslab = 0. ! IM "slab" ocean  
     seaice = 0.  
186      rugmer = 0.001      rugmer = 0.001
187      zmea = pack(relief, dyn_phy)      zmea = pack(zmea_2d, dyn_phy)
188      zstd = pack(zstd_2d, dyn_phy)      zstd = pack(zstd_2d, dyn_phy)
189      zsig = pack(zsig_2d, dyn_phy)      zsig = pack(zsig_2d, dyn_phy)
190      zgam = pack(zgam_2d, dyn_phy)      zgam = pack(zgam_2d, dyn_phy)
# Line 210  contains Line 192  contains
192      zpic = pack(zpic_2d, dyn_phy)      zpic = pack(zpic_2d, dyn_phy)
193      zval = pack(zval_2d, dyn_phy)      zval = pack(zval_2d, dyn_phy)
194    
195      ! On initialise les sous-surfaces:      ! On initialise les sous-surfaces.
196      ! Lecture du fichier glace de terre pour fixer la fraction de terre      ! Lecture du fichier glace de terre pour fixer la fraction de terre
197      ! et de glace de terre:      ! et de glace de terre :
198      CALL flininfo("landiceref.nc", iml_lic, jml_lic, llm_tmp, &  
199           ttm_tmp, fid)      call nf95_open("landiceref.nc", nf90_nowrite, ncid)
200      ALLOCATE(lat_lic(iml_lic, jml_lic))  
201      ALLOCATE(lon_lic(iml_lic, jml_lic))      call nf95_inq_varid(ncid, 'longitude', varid)
202      ALLOCATE(dlon_lic(iml_lic))      call nf95_gw_var(ncid, varid, dlon_lic)
203      ALLOCATE(dlat_lic(jml_lic))      iml_lic = size(dlon_lic)
204    
205        call nf95_inq_varid(ncid, 'latitude', varid)
206        call nf95_gw_var(ncid, varid, dlat_lic)
207        jml_lic = size(dlat_lic)
208    
209        call nf95_inq_varid(ncid, 'landice', varid)
210      ALLOCATE(fraclic(iml_lic, jml_lic))      ALLOCATE(fraclic(iml_lic, jml_lic))
211      CALL flinopen_nozoom("landiceref.nc", iml_lic, jml_lic, &      call nf95_get_var(ncid, varid, fraclic)
          llm_tmp, lon_lic, lat_lic, lev, ttm_tmp, itaul, date, dt,  &  
          fid)  
     CALL flinget(fid, 'landice', iml_lic, jml_lic, llm_tmp, ttm_tmp &  
          , 1, 1, fraclic)  
     CALL flinclo(fid)  
212    
213      ! Interpolation sur la grille T du modèle :      call nf95_close(ncid)
214      PRINT *, 'Dimensions de "landice"'  
215        ! Interpolation sur la grille T du mod\`ele :
216        PRINT *, 'Dimensions de "landiceref.nc"'
217      print *, "iml_lic = ", iml_lic      print *, "iml_lic = ", iml_lic
218      print *, "jml_lic = ", jml_lic      print *, "jml_lic = ", jml_lic
219    
220      ! Si les coordonnées sont en degrés, on les transforme :      ! Si les coordonn\'ees sont en degr\'es, on les transforme :
221      IF (MAXVAL( lon_lic ) > pi)  THEN      IF (MAXVAL(dlon_lic) > pi) THEN
222         lon_lic = lon_lic * pi / 180.         dlon_lic = dlon_lic * pi / 180.
223      ENDIF      ENDIF
224      IF (maxval( lat_lic ) > pi) THEN      IF (maxval(dlat_lic) > pi) THEN
225         lat_lic = lat_lic * pi/ 180.         dlat_lic = dlat_lic * pi/ 180.
226      ENDIF      ENDIF
227    
     dlon_lic = lon_lic(:, 1)  
     dlat_lic = lat_lic(1, :)  
   
228      flic_tmp(:iim, :) = grille_m(dlon_lic, dlat_lic, fraclic, rlonv(:iim), &      flic_tmp(:iim, :) = grille_m(dlon_lic, dlat_lic, fraclic, rlonv(:iim), &
229           rlatu)           rlatu)
230      flic_tmp(iim + 1, :) = flic_tmp(1, :)      flic_tmp(iim + 1, :) = flic_tmp(1, :)
231    
232      ! Passage sur la grille physique      ! Passage sur la grille physique :
233      pctsrf = 0.      pctsrf = 0.
234      pctsrf(:, is_lic) = pack(flic_tmp, dyn_phy)      pctsrf(:, is_lic) = pack(flic_tmp, dyn_phy)
235      ! Adéquation avec le maque terre/mer      
236      WHERE (pctsrf(:, is_lic) < EPSFRA ) pctsrf(:, is_lic) = 0.      ! Ad\'equation avec le maque terre/mer :
237        WHERE (pctsrf(:, is_lic) < EPSFRA) pctsrf(:, is_lic) = 0.
238      WHERE (zmasq < EPSFRA) pctsrf(:, is_lic) = 0.      WHERE (zmasq < EPSFRA) pctsrf(:, is_lic) = 0.
239      pctsrf(:, is_ter) = zmasq      where (zmasq <= EPSFRA) pctsrf(:, is_ter) = zmasq
240      where (zmasq > EPSFRA)      where (zmasq > EPSFRA)
241         where (pctsrf(:, is_lic) >= zmasq)         where (pctsrf(:, is_lic) >= zmasq)
242            pctsrf(:, is_lic) = zmasq            pctsrf(:, is_lic) = zmasq
# Line 267  contains Line 250  contains
250         end where         end where
251      end where      end where
252    
253      ! Sous-surface océan et glace de mer (pour démarrer on met glace      ! Sous-surface oc\'ean et glace de mer (pour d\'emarrer on met glace
254      ! de mer à 0) :      ! de mer \`a 0) :
255      pctsrf(:, is_oce) = 1. - zmasq      pctsrf(:, is_oce) = 1. - zmasq
256      WHERE (pctsrf(:, is_oce) < EPSFRA) pctsrf(:, is_oce) = 0.      WHERE (pctsrf(:, is_oce) < EPSFRA) pctsrf(:, is_oce) = 0.
257    
258      ! Vérification que somme des sous-surfaces vaut 1:      ! V\'erification que la somme des sous-surfaces vaut 1 :
259      ji = count(abs(sum(pctsrf, dim = 2) - 1.) > EPSFRA)      ji = count(abs(sum(pctsrf, dim = 2) - 1.) > EPSFRA)
260      IF (ji /= 0) then      IF (ji /= 0) then
261         PRINT *, 'Problème répartition sous maille pour ', ji, 'points'         PRINT *, 'Bad surface percentages for ', ji, 'points'
262      end IF      end IF
263    
264      ! Calcul intermédiaire:      ! Calcul interm\'ediaire :
265      CALL massdair(p3d, masse)      CALL massdair(p3d, masse)
266    
267      print *, 'ALPHAX = ', alphax      forall (l = 1:llm)
   
     forall  (l = 1:llm)  
268         masse(:, 1, l) = SUM(aire_2d(:iim, 1) * masse(:iim, 1, l)) / apoln         masse(:, 1, l) = SUM(aire_2d(:iim, 1) * masse(:iim, 1, l)) / apoln
269         masse(:, jjm + 1, l) = &         masse(:, jjm + 1, l) = &
270              SUM(aire_2d(:iim, jjm + 1) * masse(:iim, jjm + 1, l)) / apols              SUM(aire_2d(:iim, jjm + 1) * masse(:iim, jjm + 1, l)) / apols
271      END forall      END forall
272    
     ! Initialisation pour traceurs:  
273      call iniadvtrac      call iniadvtrac
274      ! Ecriture:      CALL geopot(teta, pk , pks, phis, phi)
275      CALL inidissip(lstardis, nitergdiv, nitergrot, niterh, tetagdiv, &      CALL caldyn0(ucov, vcov, teta, ps, pk, phis, phi)
276           tetagrot, tetatemp)      CALL dynredem0(day_ref, phis)
277      itau_dyn = 0      CALL dynredem1(vcov, ucov, teta, q, masse, ps, itau = 0)
     itau_phy = 0  
     day_ref = dayref  
     annee_ref = anneeref  
   
     CALL geopot(ip1jmp1, tpot, pk , pks,  phis, phi)  
     CALL caldyn0(uvent, vvent, tpot, psol, masse, pk, phis, phi, w, pbaru, &  
          pbarv)  
     CALL dynredem0("start.nc", dayref, phis)  
     CALL dynredem1("start.nc", vvent, uvent, tpot, q3d, masse, psol)  
   
     ! Ecriture état initial physique:  
     print *, "iphysiq = ", iphysiq  
     phystep   = dtvr * REAL(iphysiq)  
     print *, 'phystep = ', phystep  
278    
279      ! Initialisations :      ! Initialisations :
280      tsolsrf(:, is_ter) = tsol      snsrf = 0.
     tsolsrf(:, is_lic) = tsol  
     tsolsrf(:, is_oce) = tsol  
     tsolsrf(:, is_sic) = tsol  
     snsrf(:, is_ter) = sn  
     snsrf(:, is_lic) = sn  
     snsrf(:, is_oce) = sn  
     snsrf(:, is_sic) = sn  
281      albe(:, is_ter) = 0.08      albe(:, is_ter) = 0.08
282      albe(:, is_lic) = 0.6      albe(:, is_lic) = 0.6
283      albe(:, is_oce) = 0.5      albe(:, is_oce) = 0.5
284      albe(:, is_sic) = 0.6      albe(:, is_sic) = 0.6
285      alblw = albe      qsolsrf = 150.
286      evap = 0.      tsoil = spread(spread(pack(tsol_2d, dyn_phy), 2, nsoilmx), 3, nbsrf)
     qsolsrf(:, is_ter) = 150.  
     qsolsrf(:, is_lic) = 150.  
     qsolsrf(:, is_oce) = 150.  
     qsolsrf(:, is_sic) = 150.  
     tsoil = spread(spread(tsol, 2, nsoilmx), 3, nbsrf)  
     rain_fall = 0.  
     snow_fall = 0.  
287      solsw = 165.      solsw = 165.
288      sollw = -53.      sollw = -53.
289      t_ancien = 273.15      t_ancien = 273.15
290      q_ancien = 0.      q_ancien = 0.
291      agesno = 0.      agesno = 0.
     !IM "slab" ocean  
     tslab = tsolsrf(:, is_oce)  
     seaice = 0.  
292    
293      frugs(:, is_oce) = rugmer      frugs(:, is_oce) = rugmer
294      frugs(:, is_ter) = MAX(1.e-05, zstd * zsig / 2)      frugs(:, is_ter) = MAX(1e-5, zstd * zsig / 2)
295      frugs(:, is_lic) = MAX(1.e-05, zstd * zsig / 2)      frugs(:, is_lic) = MAX(1e-5, zstd * zsig / 2)
296      frugs(:, is_sic) = 0.001      frugs(:, is_sic) = 0.001
     fder = 0.  
297      clwcon = 0.      clwcon = 0.
298      rnebcon = 0.      rnebcon = 0.
299      ratqs = 0.      ratqs = 0.
300      run_off_lic_0 = 0.      sig1 = 0.
301        w01 = 0.
302    
303        nday = 0 ! side effect
304        call phyredem0
305    
306        call nf95_inq_varid(ncid_restartphy, "trs", varid)
307        call nf95_put_var(ncid_restartphy, varid, null_array)
308    
309      call phyredem("startphy.nc", latfi, lonfi, pctsrf, &      call phyredem(pctsrf, tsoil(:, 1, :), tsoil, qsolsrf, &
310           tsolsrf, tsoil, tslab, seaice, qsolsrf, qsol, snsrf, albe, alblw, &           pack(qsol_2d, dyn_phy), snsrf, albe, null_array, null_array, solsw, &
311           evap, rain_fall, snow_fall, solsw, sollw, fder, radsol, frugs, &           sollw, null_array, null_array, frugs, agesno, zmea, zstd, zsig, zgam, &
312           agesno, zmea, zstd, zsig, zgam, zthe, zpic, zval, &           zthe, zpic, zval, t_ancien, q_ancien, rnebcon, ratqs, clwcon, &
313           t_ancien, q_ancien, rnebcon, ratqs, clwcon, run_off_lic_0)           null_array, sig1, w01)
     CALL histclo  
314    
315    END SUBROUTINE etat0    END SUBROUTINE etat0
316    
317  end module etat0_mod  end module etat0_m
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