/[lmdze]/trunk/Sources/dyn3d/leapfrog.f
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Annotation of /trunk/Sources/dyn3d/leapfrog.f

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Revision 161 - (hide annotations)
Fri Jul 24 14:27:59 2015 UTC (8 years, 10 months ago) by guez
File size: 8467 byte(s) 
rlon[uv] and rlat[uv] are already in start.nc.

Just encapsulated covcont in a module.

finvmaold was not used in leapfrog. Downgraded it from dummy argument
to local variable of SUBROUTINE integrd.

Simplified handling of mass in integrd: down from five 3-dimensional
arrays (masse, massem1, finvmaold, massescr and finvmasse) to three
(masse, massem1, finvmaold).
1 guez 3 module leapfrog_m
2    
3     IMPLICIT NONE
4    
5     contains
6    
7 guez 128 SUBROUTINE leapfrog(ucov, vcov, teta, ps, masse, phis, q)
8 guez 3
9 guez 67 ! From dyn3d/leapfrog.F, version 1.6, 2005/04/13 08:58:34 revision 616
10 guez 27 ! Authors: P. Le Van, L. Fairhead, F. Hourdin
11 guez 3
12 guez 129 ! Intégration temporelle du modèle : Matsuno-leapfrog scheme.
13    
14 guez 37 use addfi_m, only: addfi
15 guez 40 use bilan_dyn_m, only: bilan_dyn
16     use caladvtrac_m, only: caladvtrac
17 guez 43 use caldyn_m, only: caldyn
18 guez 26 USE calfis_m, ONLY: calfis
19 guez 103 USE comconst, ONLY: daysec, dtvr
20 guez 29 USE comgeom, ONLY: aire_2d, apoln, apols
21 guez 161 use covcont_m, only: covcont
22 guez 66 USE disvert_m, ONLY: ap, bp
23 guez 57 USE conf_gcm_m, ONLY: day_step, iconser, iperiod, iphysiq, nday, offline, &
24 guez 115 iflag_phys, iecri
25     USE conf_guide_m, ONLY: ok_guide
26 guez 29 USE dimens_m, ONLY: iim, jjm, llm, nqmx
27 guez 47 use dissip_m, only: dissip
28 guez 26 USE dynetat0_m, ONLY: day_ini
29 guez 27 use dynredem1_m, only: dynredem1
30 guez 26 USE exner_hyb_m, ONLY: exner_hyb
31 guez 137 use filtreg_scal_m, only: filtreg_scal
32 guez 69 use fluxstokenc_m, only: fluxstokenc
33 guez 43 use geopot_m, only: geopot
34 guez 26 USE guide_m, ONLY: guide
35     use inidissip_m, only: idissip
36 guez 32 use integrd_m, only: integrd
37 guez 55 use nr_util, only: assert
38 guez 26 USE pressure_var, ONLY: p3d
39 guez 28 USE temps, ONLY: itau_dyn
40 guez 56 use writedynav_m, only: writedynav
41 guez 69 use writehist_m, only: writehist
42 guez 3
43 guez 10 ! Variables dynamiques:
44 guez 55 REAL, intent(inout):: ucov(:, :, :) ! (iim + 1, jjm + 1, llm) vent covariant
45     REAL, intent(inout):: vcov(:, :, :) ! (iim + 1, jjm, llm) ! vent covariant
46 guez 43
47     REAL, intent(inout):: teta(:, :, :) ! (iim + 1, jjm + 1, llm)
48     ! potential temperature
49    
50 guez 45 REAL, intent(inout):: ps(:, :) ! (iim + 1, jjm + 1) pression au sol, en Pa
51 guez 70 REAL, intent(inout):: masse(:, :, :) ! (iim + 1, jjm + 1, llm) masse d'air
52 guez 69 REAL, intent(in):: phis(:, :) ! (iim + 1, jjm + 1) surface geopotential
53 guez 40
54     REAL, intent(inout):: q(:, :, :, :) ! (iim + 1, jjm + 1, llm, nqmx)
55     ! mass fractions of advected fields
56    
57 guez 91 ! Local:
58 guez 10
59     ! Variables dynamiques:
60    
61 guez 70 REAL pks(iim + 1, jjm + 1) ! exner au sol
62 guez 29 REAL pk(iim + 1, jjm + 1, llm) ! exner au milieu des couches
63 guez 90 REAL pkf(iim + 1, jjm + 1, llm) ! exner filtr\'e au milieu des couches
64 guez 47 REAL phi(iim + 1, jjm + 1, llm) ! geopotential
65 guez 91 REAL w(iim + 1, jjm + 1, llm) ! vitesse verticale
66 guez 3
67 guez 55 ! Variables dynamiques intermediaire pour le transport
68     ! Flux de masse :
69 guez 91 REAL pbaru(iim + 1, jjm + 1, llm), pbarv(iim + 1, jjm, llm)
70 guez 3
71 guez 56 ! Variables dynamiques au pas - 1
72 guez 55 REAL vcovm1(iim + 1, jjm, llm), ucovm1(iim + 1, jjm + 1, llm)
73 guez 29 REAL tetam1(iim + 1, jjm + 1, llm), psm1(iim + 1, jjm + 1)
74 guez 67 REAL massem1(iim + 1, jjm + 1, llm)
75 guez 3
76 guez 56 ! Tendances dynamiques
77 guez 88 REAL dv((iim + 1) * jjm, llm), dudyn(iim + 1, jjm + 1, llm)
78 guez 71 REAL dteta(iim + 1, jjm + 1, llm)
79 guez 55 real dp((iim + 1) * (jjm + 1))
80 guez 3
81 guez 56 ! Tendances de la dissipation :
82 guez 55 REAL dvdis(iim + 1, jjm, llm), dudis(iim + 1, jjm + 1, llm)
83 guez 29 REAL dtetadis(iim + 1, jjm + 1, llm)
84 guez 3
85 guez 56 ! Tendances physiques
86 guez 91 REAL dvfi(iim + 1, jjm, llm), dufi(iim + 1, jjm + 1, llm)
87     REAL dtetafi(iim + 1, jjm + 1, llm), dqfi(iim + 1, jjm + 1, llm, nqmx)
88 guez 3
89 guez 56 ! Variables pour le fichier histoire
90 guez 22 INTEGER itau ! index of the time step of the dynamics, starts at 0
91 guez 27 INTEGER itaufin
92 guez 33 INTEGER l
93 guez 3
94 guez 90 ! Variables test conservation \'energie
95 guez 29 REAL ecin(iim + 1, jjm + 1, llm), ecin0(iim + 1, jjm + 1, llm)
96 guez 43
97 guez 55 REAL vcont((iim + 1) * jjm, llm), ucont((iim + 1) * (jjm + 1), llm)
98 guez 33 logical leapf
99 guez 91 real dt ! time step, in s
100 guez 3
101     !---------------------------------------------------
102    
103     print *, "Call sequence information: leapfrog"
104 guez 55 call assert(shape(ucov) == (/iim + 1, jjm + 1, llm/), "leapfrog")
105 guez 3
106     itaufin = nday * day_step
107 guez 62 ! "day_step" is a multiple of "iperiod", therefore so is "itaufin".
108 guez 30
109 guez 3 ! On initialise la pression et la fonction d'Exner :
110 guez 37 forall (l = 1: llm + 1) p3d(:, :, l) = ap(l) + bp(l) * ps
111 guez 137 CALL exner_hyb(ps, p3d, pks, pk)
112     pkf = pk
113     CALL filtreg_scal(pkf, direct = .true., intensive = .true.)
114 guez 3
115 guez 40 time_integration: do itau = 0, itaufin - 1
116 guez 33 leapf = mod(itau, iperiod) /= 0
117     if (leapf) then
118     dt = 2 * dtvr
119     else
120     ! Matsuno
121     dt = dtvr
122 guez 108 if (ok_guide) call guide(itau, ucov, vcov, teta, q(:, :, :, 1), ps)
123 guez 33 vcovm1 = vcov
124     ucovm1 = ucov
125     tetam1 = teta
126     massem1 = masse
127     psm1 = ps
128     end if
129 guez 30
130     ! Calcul des tendances dynamiques:
131 guez 70 CALL geopot(teta, pk, pks, phis, phi)
132 guez 30 CALL caldyn(itau, ucov, vcov, teta, ps, masse, pk, pkf, phis, phi, &
133 guez 128 dudyn, dv, dteta, dp, w, pbaru, pbarv, &
134 guez 78 conser = MOD(itau, iconser) == 0)
135 guez 30
136 guez 71 CALL caladvtrac(q, pbaru, pbarv, p3d, masse, teta, pk)
137 guez 33
138 guez 30 ! Stokage du flux de masse pour traceurs offline:
139     IF (offline) CALL fluxstokenc(pbaru, pbarv, masse, teta, phi, phis, &
140     dtvr, itau)
141    
142 guez 90 ! Int\'egrations dynamique et traceurs:
143 guez 47 CALL integrd(vcovm1, ucovm1, tetam1, psm1, massem1, dv, dudyn, dteta, &
144 guez 161 dp, vcov, ucov, teta, q(:, :, :, :2), ps, masse, dt, leapf)
145 guez 30
146 guez 97 forall (l = 1: llm + 1) p3d(:, :, l) = ap(l) + bp(l) * ps
147 guez 137 CALL exner_hyb(ps, p3d, pks, pk)
148     pkf = pk
149     CALL filtreg_scal(pkf, direct = .true., intensive = .true.)
150 guez 97
151 guez 33 if (.not. leapf) then
152     ! Matsuno backward
153 guez 27 ! Calcul des tendances dynamiques:
154 guez 70 CALL geopot(teta, pk, pks, phis, phi)
155 guez 33 CALL caldyn(itau + 1, ucov, vcov, teta, ps, masse, pk, pkf, phis, &
156 guez 128 phi, dudyn, dv, dteta, dp, w, pbaru, pbarv, conser = .false.)
157 guez 3
158     ! integrations dynamique et traceurs:
159 guez 47 CALL integrd(vcovm1, ucovm1, tetam1, psm1, massem1, dv, dudyn, &
160 guez 161 dteta, dp, vcov, ucov, teta, q(:, :, :, :2), ps, masse, dtvr, &
161     leapf=.false.)
162 guez 97
163     forall (l = 1: llm + 1) p3d(:, :, l) = ap(l) + bp(l) * ps
164 guez 137 CALL exner_hyb(ps, p3d, pks, pk)
165     pkf = pk
166     CALL filtreg_scal(pkf, direct = .true., intensive = .true.)
167 guez 33 end if
168 guez 3
169 guez 33 IF (MOD(itau + 1, iphysiq) == 0 .AND. iflag_phys /= 0) THEN
170 guez 154 CALL calfis(ucov, vcov, teta, q, pk, phis, phi, w, dufi, dvfi, &
171     dtetafi, dqfi, dayvrai = itau / day_step + day_ini, &
172     time = REAL(mod(itau, day_step)) / day_step, &
173 guez 128 lafin = itau + 1 == itaufin)
174 guez 3
175 guez 91 CALL addfi(ucov, vcov, teta, q, dufi, dvfi, dtetafi, dqfi)
176 guez 33 ENDIF
177 guez 3
178 guez 33 IF (MOD(itau + 1, idissip) == 0) THEN
179 guez 90 ! Dissipation horizontale et verticale des petites \'echelles
180 guez 3
181 guez 90 ! calcul de l'\'energie cin\'etique avant dissipation
182 guez 33 call covcont(llm, ucov, vcov, ucont, vcont)
183     call enercin(vcov, ucov, vcont, ucont, ecin0)
184 guez 3
185 guez 33 ! dissipation
186     CALL dissip(vcov, ucov, teta, p3d, dvdis, dudis, dtetadis)
187 guez 55 ucov = ucov + dudis
188     vcov = vcov + dvdis
189 guez 3
190 guez 90 ! On ajoute la tendance due \`a la transformation \'energie
191     ! cin\'etique en \'energie thermique par la dissipation
192 guez 33 call covcont(llm, ucov, vcov, ucont, vcont)
193     call enercin(vcov, ucov, vcont, ucont, ecin)
194 guez 56 dtetadis = dtetadis + (ecin0 - ecin) / pk
195 guez 55 teta = teta + dtetadis
196 guez 3
197 guez 90 ! Calcul de la valeur moyenne aux p\^oles :
198 guez 33 forall (l = 1: llm)
199     teta(:, 1, l) = SUM(aire_2d(:iim, 1) * teta(:iim, 1, l)) &
200     / apoln
201     teta(:, jjm + 1, l) = SUM(aire_2d(:iim, jjm+1) &
202     * teta(:iim, jjm + 1, l)) / apols
203     END forall
204     END IF
205 guez 3
206 guez 33 IF (MOD(itau + 1, iperiod) == 0) THEN
207 guez 90 ! \'Ecriture du fichier histoire moyenne:
208 guez 61 CALL writedynav(vcov, ucov, teta, pk, phi, q, masse, ps, phis, &
209     time = itau + 1)
210 guez 40 call bilan_dyn(ps, masse, pk, pbaru, pbarv, teta, phi, ucov, vcov, &
211 guez 57 q(:, :, :, 1))
212 guez 33 ENDIF
213 guez 68
214     IF (MOD(itau + 1, iecri * day_step) == 0) THEN
215 guez 70 CALL geopot(teta, pk, pks, phis, phi)
216 guez 138 CALL writehist(itau, vcov, ucov, teta, phi, masse, ps)
217 guez 68 END IF
218 guez 40 end do time_integration
219 guez 3
220 guez 157 CALL dynredem1(vcov, ucov, teta, q, masse, ps, itau = itau_dyn + itaufin)
221 guez 30
222     ! Calcul des tendances dynamiques:
223 guez 70 CALL geopot(teta, pk, pks, phis, phi)
224 guez 30 CALL caldyn(itaufin, ucov, vcov, teta, ps, masse, pk, pkf, phis, phi, &
225 guez 128 dudyn, dv, dteta, dp, w, pbaru, pbarv, &
226 guez 67 conser = MOD(itaufin, iconser) == 0)
227 guez 56
228 guez 3 END SUBROUTINE leapfrog
229    
230     end module leapfrog_m
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