| 1 |
module etat0_mod |
module etat0_m |
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use indicesol, only: nbsrf |
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use dimphy, only: klon |
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| 2 |
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| 3 |
IMPLICIT NONE |
IMPLICIT NONE |
| 4 |
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REAL pctsrf(klon, nbsrf) |
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! ("pctsrf(i, :)" is the composition of the surface at horizontal |
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! position "i") |
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private nbsrf, klon |
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| 5 |
contains |
contains |
| 6 |
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| 7 |
SUBROUTINE etat0 |
SUBROUTINE etat0(phis, pctsrf) |
| 8 |
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| 9 |
! From "etat0_netcdf.F", version 1.3 2005/05/25 13:10:09 |
! From "etat0_netcdf.F", version 1.3, 2005/05/25 13:10:09 |
| 10 |
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| 11 |
use caldyn0_m, only: caldyn0 |
use caldyn0_m, only: caldyn0 |
| 12 |
use comconst, only: dtvr, daysec, cpp, kappa |
use comconst, only: cpp, kappa, iniconst |
| 13 |
use comgeom, only: rlatu, rlonv, rlonu, rlatv, aire_2d, apoln, apols, & |
use comgeom, only: aire_2d, apoln, apols, cu_2d, cv_2d, inigeom |
| 14 |
cu_2d, cv_2d |
use conf_gcm_m, only: nday |
| 15 |
use conf_gcm_m, only: day_step, iphysiq, dayref, anneeref |
use dimensions, only: iim, jjm, llm, nqmx |
| 16 |
use dimens_m, only: iim, jjm, llm, nqmx |
use dimphy, only: klon |
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use dimphy, only: zmasq |
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| 17 |
use dimsoil, only: nsoilmx |
use dimsoil, only: nsoilmx |
| 18 |
use disvert_m, only: ap, bp, preff, pa |
use disvert_m, only: ap, bp, preff, disvert |
| 19 |
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use dynetat0_m, only: rlatu, rlatv, rlonu, rlonv, fyhyp, fxhyp |
| 20 |
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use dynetat0_chosen_m, only: day_ref |
| 21 |
use dynredem0_m, only: dynredem0 |
use dynredem0_m, only: dynredem0 |
| 22 |
use dynredem1_m, only: dynredem1 |
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 |
use geopot_m, only: geopot |
| 25 |
use grid_atob, only: grille_m |
use grille_m_m, only: grille_m |
| 26 |
use grid_change, only: init_dyn_phy, dyn_phy |
use grid_change, only: init_dyn_phy, dyn_phy |
| 27 |
use histclo_m, only: histclo |
use indicesol, only: is_oce, is_sic, is_ter, is_lic, epsfra, nbsrf |
| 28 |
use indicesol, only: is_oce, is_sic, is_ter, is_lic, epsfra |
use infotrac_init_m, only: infotrac_init |
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use iniadvtrac_m, only: iniadvtrac |
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use inidissip_m, only: inidissip |
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| 29 |
use inifilr_m, only: inifilr |
use inifilr_m, only: inifilr |
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use inigeom_m, only: inigeom |
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| 30 |
use massdair_m, only: massdair |
use massdair_m, only: massdair |
| 31 |
use netcdf, only: nf90_nowrite |
use netcdf, only: nf90_nowrite |
| 32 |
use netcdf95, only: nf95_close, nf95_get_var, nf95_gw_var, & |
use netcdf95, only: nf95_close, nf95_get_var, nf95_gw_var, nf95_put_var, & |
| 33 |
nf95_inq_varid, nf95_open |
nf95_inq_varid, nf95_open |
| 34 |
use nr_util, only: pi |
use nr_util, only: pi, assert |
| 35 |
use paramet_m, only: ip1jm, ip1jmp1 |
use phyetat0_m, only: masque, phyetat0_new |
| 36 |
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use phyredem0_m, only: phyredem0, ncid_restartphy |
| 37 |
use phyredem_m, only: phyredem |
use phyredem_m, only: phyredem |
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use pressure_var, only: pls, p3d |
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| 38 |
use q_sat_m, only: q_sat |
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 |
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use serre, only: alphax |
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| 41 |
use startdyn, only: start_init_dyn |
use startdyn, only: start_init_dyn |
| 42 |
USE start_init_orog_m, only: start_init_orog, mask, phis |
USE start_init_orog_m, only: start_init_orog |
| 43 |
use start_init_phys_m, only: start_init_phys |
use start_init_phys_m, only: start_init_phys |
| 44 |
use start_inter_3d_m, only: start_inter_3d |
use start_inter_3d_m, only: start_inter_3d |
| 45 |
use temps, only: itau_phy, annee_ref, day_ref |
use test_disvert_m, only: test_disvert |
| 46 |
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| 47 |
! Variables local to the procedure: |
REAL, intent(out):: phis(:, :) ! (iim + 1, jjm + 1) |
| 48 |
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! surface geopotential, in m2 s-2 |
| 49 |
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| 50 |
REAL latfi(klon), lonfi(klon) |
REAL, intent(out):: pctsrf(:, :) ! (klon, nbsrf) |
| 51 |
! (latitude and longitude of a point of the scalar grid identified |
! "pctsrf(i, :)" is the composition of the surface at horizontal |
| 52 |
! by a simple index, in °) |
! position "i". |
| 53 |
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| 54 |
REAL, dimension(iim + 1, jjm + 1, llm):: ucov, t3d, tpot |
! Local: |
| 55 |
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| 56 |
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REAL, dimension(iim + 1, jjm + 1, llm):: ucov, t3d, teta |
| 57 |
REAL vcov(iim + 1, jjm, llm) |
REAL vcov(iim + 1, jjm, llm) |
| 58 |
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| 59 |
REAL q(iim + 1, jjm + 1, llm, nqmx) |
REAL q(iim + 1, jjm + 1, llm, nqmx) |
| 62 |
! and pressure level "pls(i, j, l)".) |
! and pressure level "pls(i, j, l)".) |
| 63 |
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| 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) |
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REAL albe(klon, nbsrf), evap(klon, nbsrf) |
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REAL alblw(klon, nbsrf) |
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| 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 |
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REAL tslab(klon) |
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real seaice(klon) ! kg m-2 |
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| 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, qsol_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) |
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REAL run_off_lic_0(klon) |
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| 81 |
real clwcon(klon, llm), rnebcon(klon, llm), ratqs(klon, llm) |
real clwcon(klon, llm), rnebcon(klon, llm), ratqs(klon, llm) |
| 82 |
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| 83 |
! Déclarations pour lecture glace de mer : |
! D\'eclarations pour lecture glace de mer : |
| 84 |
INTEGER iml_lic, jml_lic |
INTEGER iml_lic, jml_lic |
| 85 |
INTEGER ncid, varid |
INTEGER ncid, varid |
| 86 |
REAL, pointer:: dlon_lic(:), dlat_lic(:) |
REAL, ALLOCATABLE:: dlon_lic(:), dlat_lic(:) |
| 87 |
REAL, ALLOCATABLE:: fraclic(:, :) ! fraction land ice |
REAL, ALLOCATABLE:: landice(:, :) ! 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 |
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| 90 |
INTEGER l, ji |
INTEGER l, ji |
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| 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) |
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| 94 |
REAL masse(iim + 1, jjm + 1, llm) |
REAL masse(iim + 1, jjm + 1, llm) |
| 95 |
REAL phi(iim + 1, jjm + 1, 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 |
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| 99 |
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real pls(iim + 1, jjm + 1, llm) |
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! (pressure at mid-layer of LMDZ grid, in Pa) |
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! "pls(i, j, l)" is at longitude "rlonv(i)", latitude "rlatu(j)", |
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! for layer "l") |
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| 104 |
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REAL p3d(iim + 1, jjm + 1, llm+1) ! pressure at layer interfaces, in Pa |
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! ("p3d(i, j, l)" is at longitude "rlonv(i)", latitude "rlatu(j)", |
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! for interface "l") |
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!--------------------------------- |
!--------------------------------- |
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| 110 |
print *, "Call sequence information: etat0" |
print *, "Call sequence information: etat0" |
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| 112 |
dtvr = daysec / real(day_step) |
CALL iniconst |
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print *, 'dtvr = ', dtvr |
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| 114 |
! Construct a grid: |
! Construct a grid: |
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| 116 |
pa = 5e4 |
CALL disvert |
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CALL iniconst |
call test_disvert |
| 118 |
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CALL fyhyp |
| 119 |
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CALL fxhyp |
| 120 |
CALL inigeom |
CALL inigeom |
| 121 |
CALL inifilr |
CALL inifilr |
| 122 |
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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" |
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latfi(2:klon-1) = pack(spread(rlatu(2:jjm), 1, iim), .true.) * 180. / pi |
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! (with conversion to degrees) |
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latfi(klon) = - 90. |
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lonfi(1) = 0. |
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lonfi(2:klon-1) = pack(spread(rlonv(:iim), 2, jjm - 1), .true.) * 180. / pi |
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! (with conversion to degrees) |
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lonfi(klon) = 0. |
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call start_init_orog(relief, zstd_2d, zsig_2d, zgam_2d, zthe_2d, zpic_2d, & |
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zval_2d) ! also compute "mask" and "phis" |
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| 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 |
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PRINT *, 'Masque construit' |
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| 126 |
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| 127 |
call start_init_phys(tsol_2d, qsol_2d) |
call start_init_phys(tsol_2d, qsol_2d) |
| 128 |
CALL start_init_dyn(tsol_2d, psol) |
CALL start_init_dyn(tsol_2d, phis, ps) |
| 129 |
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| 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)) then |
call assert(MINVAL(pk) /= MAXVAL(pk), '"pk" should not be constant') |
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print *, '"pk" should not be constant' |
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stop 1 |
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end IF |
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| 135 |
pls = preff * (pk / cpp)**(1. / kappa) |
pls = preff * (pk / cpp)**(1. / kappa) |
| 136 |
PRINT *, "minval(pls) = ", minval(pls) |
PRINT *, "minval(pls) = ", minval(pls) |
| 145 |
vcov(iim + 1, :, :) = vcov(1, :, :) |
vcov(iim + 1, :, :) = vcov(1, :, :) |
| 146 |
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| 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 |
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| 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 |
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| 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) |
| 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(q(:, :, :, 5)) |
call regr_pr_o3(p3d, q(:, :, :, 5)) |
| 181 |
! Convert from mole fraction to mass fraction: |
! Convert from mole fraction to mass fraction: |
| 182 |
q(:, :, :, 5) = q(:, :, :, 5) * 48. / 29. |
q(:, :, :, 5) = q(:, :, :, 5) * 48. / 29. |
| 183 |
end if |
end if |
| 184 |
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| 185 |
tsol = pack(tsol_2d, dyn_phy) |
null_array = 0. |
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qsol = pack(qsol_2d, dyn_phy) |
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sn = 0. ! snow |
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radsol = 0. |
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tslab = 0. ! IM "slab" ocean |
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seaice = 0. |
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| 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) |
| 207 |
jml_lic = size(dlat_lic) |
jml_lic = size(dlat_lic) |
| 208 |
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| 209 |
call nf95_inq_varid(ncid, 'landice', varid) |
call nf95_inq_varid(ncid, 'landice', varid) |
| 210 |
ALLOCATE(fraclic(iml_lic, jml_lic)) |
ALLOCATE(landice(iml_lic, jml_lic)) |
| 211 |
call nf95_get_var(ncid, varid, fraclic) |
call nf95_get_var(ncid, varid, landice) |
| 212 |
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| 213 |
call nf95_close(ncid) |
call nf95_close(ncid) |
| 214 |
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| 215 |
! Interpolation sur la grille T du modèle : |
! Interpolation sur la grille T du mod\`ele : |
| 216 |
PRINT *, 'Dimensions de "landiceref.nc"' |
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 |
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| 220 |
! Si les coordonnées sont en degrés, on les transforme : |
! Si les coordonn\'ees sont en degr\'es, on les transforme : |
| 221 |
IF (MAXVAL( dlon_lic ) > pi) THEN |
IF (MAXVAL(dlon_lic) > pi) THEN |
| 222 |
dlon_lic = dlon_lic * pi / 180. |
dlon_lic = dlon_lic * pi / 180. |
| 223 |
ENDIF |
ENDIF |
| 224 |
IF (maxval( dlat_lic ) > pi) THEN |
IF (maxval(dlat_lic) > pi) THEN |
| 225 |
dlat_lic = dlat_lic * pi/ 180. |
dlat_lic = dlat_lic * pi/ 180. |
| 226 |
ENDIF |
ENDIF |
| 227 |
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| 228 |
flic_tmp(:iim, :) = grille_m(dlon_lic, dlat_lic, fraclic, rlonv(:iim), & |
flic_tmp(:iim, :) = grille_m(dlon_lic, dlat_lic, landice, rlonv(:iim), & |
| 229 |
rlatu) |
rlatu) |
| 230 |
flic_tmp(iim + 1, :) = flic_tmp(1, :) |
flic_tmp(iim + 1, :) = flic_tmp(1, :) |
| 231 |
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| 232 |
deallocate(dlon_lic, dlat_lic) ! pointers |
! Passage sur la grille physique : |
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! 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 (zmasq < EPSFRA) pctsrf(:, is_lic) = 0. |
WHERE (pctsrf(:, is_lic) < EPSFRA) pctsrf(:, is_lic) = 0. |
| 238 |
pctsrf(:, is_ter) = zmasq |
WHERE (masque < EPSFRA) pctsrf(:, is_lic) = 0. |
| 239 |
where (zmasq > EPSFRA) |
where (masque <= EPSFRA) pctsrf(:, is_ter) = masque |
| 240 |
where (pctsrf(:, is_lic) >= zmasq) |
where (masque > EPSFRA) |
| 241 |
pctsrf(:, is_lic) = zmasq |
where (pctsrf(:, is_lic) >= masque) |
| 242 |
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pctsrf(:, is_lic) = masque |
| 243 |
pctsrf(:, is_ter) = 0. |
pctsrf(:, is_ter) = 0. |
| 244 |
elsewhere |
elsewhere |
| 245 |
pctsrf(:, is_ter) = zmasq - pctsrf(:, is_lic) |
pctsrf(:, is_ter) = masque - pctsrf(:, is_lic) |
| 246 |
where (pctsrf(:, is_ter) < EPSFRA) |
where (pctsrf(:, is_ter) < EPSFRA) |
| 247 |
pctsrf(:, is_ter) = 0. |
pctsrf(:, is_ter) = 0. |
| 248 |
pctsrf(:, is_lic) = zmasq |
pctsrf(:, is_lic) = masque |
| 249 |
end where |
end where |
| 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. - masque |
| 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 |
|
|
| 273 |
! Initialisation pour traceurs: |
call infotrac_init |
| 274 |
call iniadvtrac |
CALL geopot(teta, pk , pks, phis, phi) |
| 275 |
CALL inidissip |
CALL caldyn0(ucov, vcov, teta, ps, pk, phis, phi) |
| 276 |
itau_phy = 0 |
CALL dynredem0(day_ref, phis) |
| 277 |
day_ref = dayref |
CALL dynredem1(vcov, ucov, teta, q, masse, ps, itau = 0) |
|
annee_ref = anneeref |
|
|
|
|
|
CALL geopot(tpot, pk , pks, phis, phi) |
|
|
CALL caldyn0(ucov, vcov, tpot, psol, masse, pk, phis, phi, w, pbaru, & |
|
|
pbarv) |
|
|
CALL dynredem0("start.nc", dayref, phis) |
|
|
CALL dynredem1("start.nc", vcov, ucov, tpot, q, masse, psol, itau=0) |
|
|
|
|
|
! 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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