24 |
use filtreg_m, only: filtreg |
use filtreg_m, only: filtreg |
25 |
USE guide_m, ONLY: guide |
USE guide_m, ONLY: guide |
26 |
use inidissip_m, only: idissip |
use inidissip_m, only: idissip |
27 |
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use integrd_m, only: integrd |
28 |
USE logic, ONLY: iflag_phys, ok_guide |
USE logic, ONLY: iflag_phys, ok_guide |
29 |
USE paramet_m, ONLY: ip1jmp1 |
USE paramet_m, ONLY: ip1jmp1 |
30 |
USE pression_m, ONLY: pression |
USE pression_m, ONLY: pression |
32 |
USE temps, ONLY: itau_dyn |
USE temps, ONLY: itau_dyn |
33 |
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34 |
! Variables dynamiques: |
! Variables dynamiques: |
35 |
REAL vcov((iim + 1) * jjm, llm), ucov(ip1jmp1, llm) ! vents covariants |
REAL, intent(inout):: vcov((iim + 1) * jjm, llm) ! vent covariant |
36 |
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REAL, intent(inout):: ucov(ip1jmp1, llm) ! vent covariant |
37 |
REAL, intent(inout):: teta(iim + 1, jjm + 1, llm) ! potential temperature |
REAL, intent(inout):: teta(iim + 1, jjm + 1, llm) ! potential temperature |
38 |
REAL ps(iim + 1, jjm + 1) ! pression au sol, en Pa |
REAL ps(iim + 1, jjm + 1) ! pression au sol, en Pa |
39 |
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91 |
! cree par la dissipation |
! cree par la dissipation |
92 |
REAL dtetaecdt(iim + 1, jjm + 1, llm) |
REAL dtetaecdt(iim + 1, jjm + 1, llm) |
93 |
REAL vcont((iim + 1) * jjm, llm), ucont(ip1jmp1, llm) |
REAL vcont((iim + 1) * jjm, llm), ucont(ip1jmp1, llm) |
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logical forward, leapf |
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REAL dt |
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94 |
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95 |
!--------------------------------------------------- |
!--------------------------------------------------- |
96 |
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108 |
CALL exner_hyb(ps, p3d, pks, pk, pkf) |
CALL exner_hyb(ps, p3d, pks, pk, pkf) |
109 |
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110 |
! Début de l'integration temporelle : |
! Début de l'integration temporelle : |
111 |
outer_loop:do i = 1, itaufin / iperiod |
period_loop:do i = 1, itaufin / iperiod |
112 |
! {itau is a multiple of iperiod} |
! {"itau" is a multiple of "iperiod"} |
113 |
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114 |
! 1. Matsuno forward: |
! 1. Matsuno forward: |
115 |
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137 |
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138 |
! integrations dynamique et traceurs: |
! integrations dynamique et traceurs: |
139 |
CALL integrd(2, vcovm1, ucovm1, tetam1, psm1, massem1, dv, du, dteta, & |
CALL integrd(2, vcovm1, ucovm1, tetam1, psm1, massem1, dv, du, dteta, & |
140 |
dq, dp, vcov, ucov, teta, q, ps, masse, phis, finvmaold, .false., & |
dp, vcov, ucov, teta, q, ps, masse, finvmaold, .false., & |
141 |
dtvr) |
dtvr) |
142 |
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143 |
CALL pression(ip1jmp1, ap, bp, ps, p3d) |
CALL pression(ip1jmp1, ap, bp, ps, p3d) |
160 |
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161 |
! integrations dynamique et traceurs: |
! integrations dynamique et traceurs: |
162 |
CALL integrd(2, vcovm1, ucovm1, tetam1, psm1, massem1, dv, du, dteta, & |
CALL integrd(2, vcovm1, ucovm1, tetam1, psm1, massem1, dv, du, dteta, & |
163 |
dq, dp, vcov, ucov, teta, q, ps, masse, phis, finvmaold, .false., & |
dp, vcov, ucov, teta, q, ps, masse, finvmaold, .false., & |
164 |
dtvr) |
dtvr) |
165 |
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166 |
CALL pression(ip1jmp1, ap, bp, ps, p3d) |
CALL pression(ip1jmp1, ap, bp, ps, p3d) |
168 |
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169 |
! 3. Leapfrog: |
! 3. Leapfrog: |
170 |
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171 |
do j = 1, iperiod - 1 |
leapfrog_loop: do j = 1, iperiod - 1 |
172 |
! Calcul des tendances dynamiques: |
! Calcul des tendances dynamiques: |
173 |
CALL geopot(ip1jmp1, teta, pk, pks, phis, phi) |
CALL geopot(ip1jmp1, teta, pk, pks, phis, phi) |
174 |
CALL caldyn(itau, ucov, vcov, teta, ps, masse, pk, pkf, phis, phi, & |
CALL caldyn(itau, ucov, vcov, teta, ps, masse, pk, pkf, phis, phi, & |
183 |
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184 |
! integrations dynamique et traceurs: |
! integrations dynamique et traceurs: |
185 |
CALL integrd(2, vcovm1, ucovm1, tetam1, psm1, massem1, dv, du, & |
CALL integrd(2, vcovm1, ucovm1, tetam1, psm1, massem1, dv, du, & |
186 |
dteta, dq, dp, vcov, ucov, teta, q, ps, masse, phis, & |
dteta, dp, vcov, ucov, teta, q, ps, masse, & |
187 |
finvmaold, .true., 2 * dtvr) |
finvmaold, .true., 2 * dtvr) |
188 |
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189 |
IF (MOD(itau + 1, iphysiq) == 0 .AND. iflag_phys /= 0) THEN |
IF (MOD(itau + 1, iphysiq) == 0 .AND. iflag_phys /= 0) THEN |
228 |
dtetadis=dtetadis + dtetaecdt |
dtetadis=dtetadis + dtetaecdt |
229 |
teta=teta + dtetadis |
teta=teta + dtetadis |
230 |
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231 |
! Calcul de la valeur moyenne unique de h aux pôles |
! Calcul de la valeur moyenne aux pôles : |
232 |
forall (l = 1: llm) |
forall (l = 1: llm) |
233 |
teta(:, 1, l) = SUM(aire_2d(:iim, 1) * teta(:iim, 1, l)) & |
teta(:, 1, l) = SUM(aire_2d(:iim, 1) * teta(:iim, 1, l)) & |
234 |
/ apoln |
/ apoln |
256 |
call bilan_dyn(2, dtvr * iperiod, dtvr * day_step * periodav, & |
call bilan_dyn(2, dtvr * iperiod, dtvr * day_step * periodav, & |
257 |
ps, masse, pk, pbaru, pbarv, teta, phi, ucov, vcov, q) |
ps, masse, pk, pbaru, pbarv, teta, phi, ucov, vcov, q) |
258 |
ENDIF |
ENDIF |
259 |
end do |
end do leapfrog_loop |
260 |
end do outer_loop |
end do period_loop |
261 |
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262 |
! {itau == itaufin} |
! {itau == itaufin} |
263 |
CALL dynredem1("restart.nc", vcov, ucov, teta, q, masse, ps, & |
CALL dynredem1("restart.nc", vcov, ucov, teta, q, masse, ps, & |
264 |
itau=itau_dyn+itaufin) |
itau=itau_dyn+itaufin) |
265 |
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vcovm1 = vcov |
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ucovm1 = ucov |
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tetam1 = teta |
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massem1 = masse |
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psm1 = ps |
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finvmaold = masse |
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CALL filtreg(finvmaold, jjm + 1, llm, - 2, 2, .TRUE., 1) |
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266 |
! Calcul des tendances dynamiques: |
! Calcul des tendances dynamiques: |
267 |
CALL geopot(ip1jmp1, teta, pk, pks, phis, phi) |
CALL geopot(ip1jmp1, teta, pk, pks, phis, phi) |
268 |
CALL caldyn(itaufin, ucov, vcov, teta, ps, masse, pk, pkf, phis, phi, & |
CALL caldyn(itaufin, ucov, vcov, teta, ps, masse, pk, pkf, phis, phi, & |
269 |
MOD(itaufin, iconser) == 0, du, dv, dteta, dp, w, pbaru, pbarv, & |
MOD(itaufin, iconser) == 0, du, dv, dteta, dp, w, pbaru, pbarv, & |
270 |
time + iday - day_ini) |
time + iday - day_ini) |
271 |
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! Calcul des tendances advection des traceurs (dont l'humidité) |
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CALL caladvtrac(q, pbaru, pbarv, p3d, masse, dq, teta, pk) |
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! Stokage du flux de masse pour traceurs off-line: |
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IF (offline) CALL fluxstokenc(pbaru, pbarv, masse, teta, phi, phis, dtvr, & |
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itaufin) |
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272 |
END SUBROUTINE leapfrog |
END SUBROUTINE leapfrog |
273 |
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274 |
end module leapfrog_m |
end module leapfrog_m |