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integrd.F @ 6

Last change on this file since 6 was 2, checked in by lmdz, 25 years ago
Initial revision
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1	SUBROUTINE integrd
2	$ ( iadv, nq,vcovm1,ucovm1,tetam1,psm1,massem1,
3	$ dv,du,dteta,dq,dp,vcov,ucov,teta,q,ps,masse,phis,finvmaold )
4
5	IMPLICIT NONE
6
7
8	c=======================================================================
9	c
10	c Auteur: P. Le Van
11	c -------
12	c
13	c objet:
14	c ------
15	c
16	c Incrementation des tendances dynamiques
17	c
18	c=======================================================================
19	c-----------------------------------------------------------------------
20	c Declarations:
21	c -------------
22
23	#include "dimensions.h"
24	#include "paramet.h"
25	#include "comconst.h"
26	#include "comgeom.h"
27	#include "comvert.h"
28	#include "logic.h"
29	#include "temps.h"
30	#include "serre.h"
31
32	c Arguments:
33	c ----------
34
35	INTEGER iadv(nqmx),nq
36
37	REAL vcov(ip1jm,llm),ucov(ip1jmp1,llm),teta(ip1jmp1,llm)
38	REAL q(ip1jmp1,llm,nq)
39	REAL ps(ip1jmp1),masse(ip1jmp1,llm),phis(ip1jmp1)
40
41	REAL vcovm1(ip1jm,llm),ucovm1(ip1jmp1,llm)
42	REAL tetam1(ip1jmp1,llm),psm1(ip1jmp1),massem1(ip1jmp1,llm)
43
44	REAL dv(ip1jm,llm),du(ip1jmp1,llm)
45	REAL dteta(ip1jmp1,llm),dp(ip1jmp1)
46	REAL dq(ip1jmp1,llm,nq), finvmaold(ip1jmp1,llm)
47
48	c Local:
49	c ------
50
51	REAL vscr( ip1jm ),uscr( ip1jmp1 ),hscr( ip1jmp1 ),pscr(ip1jmp1)
52	REAL massescr( ip1jmp1,llm ), finvmasse(ip1jmp1,llm)
53	REAL p(ip1jmp1,llmp1)
54	REAL tpn,tps,tppn(iim),tpps(iim)
55	REAL qpn,qps,qppn(iim),qpps(iim)
56	REAL deltap( ip1jmp1,llm )
57
58	INTEGER l,ij,iq
59
60	EXTERNAL filtreg,massdair,pression
61	EXTERNAL SCOPY
62	REAL SSUM
63	EXTERNAL SSUM
64
65	c-----------------------------------------------------------------------
66
67	DO l = 1,llm
68	DO ij = 1,iip1
69	ucov( ij , l) = 0.
70	ucov( ij +ip1jm, l) = 0.
71	uscr( ij ) = 0.
72	uscr( ij +ip1jm ) = 0.
73	ENDDO
74	ENDDO
75
76
77	c ............ integration de ps ..............
78
79	CALL SCOPY(ip1jmp1*llm, masse, 1, massescr, 1)
80
81	DO 2 ij = 1,ip1jmp1
82	pscr (ij) = ps(ij)
83	ps (ij) = psm1(ij) + dt * dp(ij)
84	2 CONTINUE
85	c
86	DO ij = 1,ip1jmp1
87	IF( ps(ij).LT.0. ) THEN
88	PRINT*,' Au point ij = ',ij, ' , pression sol neg. ', ps(ij)
89	STOP' dans integrd'
90	ENDIF
91	ENDDO
92	c
93	IF( alphax.NE.0. ) THEN
94	DO ij = 1, iim
95	tppn(ij) = aire( ij ) * ps( ij )
96	tpps(ij) = aire(ij+ip1jm) * ps(ij+ip1jm)
97	ENDDO
98	tpn = SSUM(iim,tppn,1)/apoln
99	tps = SSUM(iim,tpps,1)/apols
100	DO ij = 1, iip1
101	ps( ij ) = tpn
102	ps(ij+ip1jm) = tps
103	ENDDO
104	ENDIF
105	c
106	c ... Calcul de la nouvelle masse d'air au dernier temps integre t+1 ...
107	c
108	CALL pression ( ip1jmp1, ap, bp, ps, p )
109	CALL massdair ( p , masse )
110
111	CALL SCOPY( ijp1llm , masse, 1, finvmasse, 1 )
112	CALL filtreg( finvmasse, jjp1, llm, -2, 2, .TRUE., 1 )
113	c
114
115	c ............ integration de ucov, vcov, h ..............
116
117	DO 10 l = 1,llm
118
119	DO 4 ij = iip2,ip1jm
120	uscr( ij ) = ucov( ij,l )
121	ucov( ij,l ) = ucovm1( ij,l ) + dt * du( ij,l )
122	4 CONTINUE
123
124	DO 5 ij = 1,ip1jm
125	vscr( ij ) = vcov( ij,l )
126	vcov( ij,l ) = vcovm1( ij,l ) + dt * dv( ij,l )
127	5 CONTINUE
128
129	DO 6 ij = 1,ip1jmp1
130	hscr( ij ) = teta(ij,l)
131	teta ( ij,l ) = tetam1(ij,l) * massem1(ij,l) / masse(ij,l)
132	$ + dt * dteta(ij,l) / masse(ij,l)
133	6 CONTINUE
134
135	c .... Calcul de la valeur moyenne, unique aux poles pour teta ......
136	c
137	c
138	IF( alphax.NE.0. ) THEN
139	DO ij = 1, iim
140	tppn(ij) = aire( ij ) * teta( ij ,l)
141	tpps(ij) = aire(ij+ip1jm) * teta(ij+ip1jm,l)
142	ENDDO
143	tpn = SSUM(iim,tppn,1)/apoln
144	tps = SSUM(iim,tpps,1)/apols
145
146	DO ij = 1, iip1
147	teta( ij ,l) = tpn
148	teta(ij+ip1jm,l) = tps
149	ENDDO
150	ENDIF
151	c
152
153	IF(leapf) THEN
154	CALL SCOPY ( ip1jmp1, uscr(1), 1, ucovm1(1, l), 1 )
155	CALL SCOPY ( ip1jm, vscr(1), 1, vcovm1(1, l), 1 )
156	CALL SCOPY ( ip1jmp1, hscr(1), 1, tetam1(1, l), 1 )
157	END IF
158
159	10 CONTINUE
160
161
162	c
163	c ....... integration de q ......
164	c
165	IF( iadv(1).NE.3.AND.iadv(2).NE.3 ) THEN
166	c
167	IF( forward. OR . leapf ) THEN
168	DO iq = 1,2
169	DO l = 1,llm
170	DO ij = 1,ip1jmp1
171	q(ij,l,iq) = ( q(ij,l,iq)finvmaold(ij,l) + dtvr dq(ij,l,iq) )/
172	$ finvmasse(ij,l)
173	ENDDO
174	ENDDO
175	ENDDO
176	ELSE
177	DO iq = 1,2
178	DO l = 1,llm
179	DO ij = 1,ip1jmp1
180	q( ij,l,iq ) = q( ij,l,iq ) * finvmaold(ij,l) / finvmasse(ij,l)
181	ENDDO
182	ENDDO
183	ENDDO
184
185	END IF
186	c
187	ENDIF
188
189	DO l = 1, llm
190	DO ij = 1, ip1jmp1
191	deltap(ij,l) = p(ij,l) - p(ij,l+1)
192	ENDDO
193	ENDDO
194
195	CALL qminimum( q, nq, deltap )
196	c
197	c ..... Calcul de la valeur moyenne, unique aux poles pour q .....
198	c
199	IF( alphax.NE.0. ) THEN
200
201	DO iq = 1, nq
202	DO l = 1, llm
203
204	DO ij = 1, iim
205	qppn(ij) = aire( ij ) * q( ij ,l,iq)
206	qpps(ij) = aire(ij+ip1jm) * q(ij+ip1jm,l,iq)
207	ENDDO
208	qpn = SSUM(iim,qppn,1)/apoln
209	qps = SSUM(iim,qpps,1)/apols
210
211	DO ij = 1, iip1
212	q( ij ,l,iq) = qpn
213	q(ij+ip1jm,l,iq) = qps
214	ENDDO
215
216	ENDDO
217	ENDDO
218
219	ENDIF
220
221	CALL SCOPY( ijp1llm , finvmasse, 1, finvmaold, 1 )
222	c
223	c
224	c ..... FIN de l'integration de q .......
225
226	15 continue
227
228	c .................................................................
229
230
231	IF( leapf ) THEN
232	CALL SCOPY ( ip1jmp1 , pscr , 1, psm1 , 1 )
233	CALL SCOPY ( ip1jmp1*llm, massescr, 1, massem1, 1 )
234	END IF
235
236	RETURN
237	END

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