source: LMDZ6/branches/Amaury_dev/libf/phylmd/borne_var_surf.F90 @ 5411

Last change on this file since 5411 was 5153, checked in by abarral, 5 months ago

Revert FCTTRE to INCLUDE to assess impact of inlining

File size: 4.7 KB
Line 
1SUBROUTINE borne_var_surf(klon, klev, nbsrf, &
2        iflag_bug_t2m_stab_ipslcm61, &
3        t1, q1, u1, v1, &
4        ftsol, qsurf, pctsrf, paprs, &
5        t2m, q2m, u10m, v10m, &
6        zt2m_cor, zq2m_cor, zu10m_cor, zv10m_cor, &
7        zrh2m_cor, zqsat2m_cor)
8
9  USE lmdz_yoethf
10
11  USE lmdz_yomcst
12
13  IMPLICIT NONE
14 INCLUDE "FCTTRE.h"
15
16  !==================================================================
17  ! Declarations
18  !==================================================================
19
20  ! arguments
21  INTEGER klon, klev, nbsrf, iflag_bug_t2m_stab_ipslcm61
22  REAL, DIMENSION(klon), INTENT(IN) :: t1, q1, u1, v1
23  REAL, DIMENSION(klon, nbsrf), INTENT(IN) :: t2m, q2m, u10m, v10m
24  REAL, DIMENSION(klon, nbsrf), INTENT(IN) :: ftsol, pctsrf
25  REAL, DIMENSION(klon, klev + 1), INTENT(IN) :: paprs
26  REAL, DIMENSION(klon), INTENT(IN) :: qsurf
27  REAL, DIMENSION (klon), INTENT(OUT) :: zt2m_cor, zq2m_cor, zu10m_cor, zv10m_cor
28  REAL, DIMENSION (klon), INTENT(OUT) :: zrh2m_cor, zqsat2m_cor
29
30  ! local
31  INTEGER i, nsrf
32  REAL, DIMENSION (klon, nbsrf) :: t2m_cor, q2m_cor, u10m_cor, v10m_cor
33  REAL :: zx_qs1, zcor1, zdelta1
34  !==================================================================
35  ! Correction of sub surface variables
36  !==================================================================
37
38  zrh2m_cor = 0.
39  zqsat2m_cor = 0.
40
41  DO nsrf = 1, nbsrf
42    DO i = 1, klon
43      t2m_cor(i, nsrf) = t2m(i, nsrf)
44      q2m_cor(i, nsrf) = q2m(i, nsrf)
45      u10m_cor(i, nsrf) = u10m(i, nsrf)
46      v10m_cor(i, nsrf) = v10m(i, nsrf)
47      IF(iflag_bug_t2m_stab_ipslcm61==-2.AND.q2m(i, nsrf)<0.) THEN
48        t2m_cor(i, nsrf) = MIN(t2m(i, nsrf), MAX(t1(i), ftsol(i, nsrf)))
49        t2m_cor(i, nsrf) = MAX(t2m_cor(i, nsrf), MIN(t1(i), ftsol(i, nsrf)))
50        q2m_cor(i, nsrf) = MIN(q2m(i, nsrf), MAX(q1(i), qsurf(i)))
51        q2m_cor(i, nsrf) = MAX(q2m_cor(i, nsrf), MIN(q1(i), qsurf(i)))
52        q2m_cor(i, nsrf) = MAX(q2m_cor(i, nsrf), 0.)
53        u10m_cor(i, nsrf) = SIGN(MIN(ABS(u1(i)), ABS(u10m(i, nsrf))), u1(i))
54        v10m_cor(i, nsrf) = SIGN(MIN(ABS(v1(i)), ABS(v10m(i, nsrf))), v1(i))
55      ELSEIF(iflag_bug_t2m_stab_ipslcm61==-1.AND.(ftsol(i, nsrf)<=t1(i).OR.q2m(i, nsrf)<0.)) THEN
56        t2m_cor(i, nsrf) = MIN(t2m(i, nsrf), MAX(t1(i), ftsol(i, nsrf)))
57        t2m_cor(i, nsrf) = MAX(t2m_cor(i, nsrf), MIN(t1(i), ftsol(i, nsrf)))
58        q2m_cor(i, nsrf) = MIN(q2m(i, nsrf), MAX(q1(i), qsurf(i)))
59        q2m_cor(i, nsrf) = MAX(q2m_cor(i, nsrf), MIN(q1(i), qsurf(i)))
60        q2m_cor(i, nsrf) = MAX(q2m_cor(i, nsrf), 0.)
61        u10m_cor(i, nsrf) = SIGN(MIN(ABS(u1(i)), ABS(u10m(i, nsrf))), u1(i))
62        v10m_cor(i, nsrf) = SIGN(MIN(ABS(v1(i)), ABS(v10m(i, nsrf))), v1(i))
63      ELSEIF(iflag_bug_t2m_stab_ipslcm61==1.AND.ftsol(i, nsrf)<=t1(i)) THEN
64        t2m_cor(i, nsrf) = MIN(t2m(i, nsrf), MAX(t1(i), ftsol(i, nsrf)))
65        t2m_cor(i, nsrf) = MAX(t2m_cor(i, nsrf), MIN(t1(i), ftsol(i, nsrf)))
66        q2m_cor(i, nsrf) = MIN(q2m(i, nsrf), MAX(q1(i), qsurf(i)))
67        q2m_cor(i, nsrf) = MAX(q2m_cor(i, nsrf), MIN(q1(i), qsurf(i)))
68        q2m_cor(i, nsrf) = MAX(q2m_cor(i, nsrf), 0.)
69        u10m_cor(i, nsrf) = SIGN(MIN(ABS(u1(i)), ABS(u10m(i, nsrf))), u1(i))
70        v10m_cor(i, nsrf) = SIGN(MIN(ABS(v1(i)), ABS(v10m(i, nsrf))), v1(i))
71      ELSEIF(iflag_bug_t2m_stab_ipslcm61==0) THEN
72        t2m_cor(i, nsrf) = MIN(t2m(i, nsrf), MAX(t1(i), ftsol(i, nsrf)))
73        t2m_cor(i, nsrf) = MAX(t2m_cor(i, nsrf), MIN(t1(i), ftsol(i, nsrf)))
74        q2m_cor(i, nsrf) = MIN(q2m(i, nsrf), MAX(q1(i), qsurf(i)))
75        q2m_cor(i, nsrf) = MAX(q2m_cor(i, nsrf), MIN(q1(i), qsurf(i)))
76        q2m_cor(i, nsrf) = MAX(q2m_cor(i, nsrf), 0.)
77        u10m_cor(i, nsrf) = SIGN(MIN(ABS(u1(i)), ABS(u10m(i, nsrf))), u1(i))
78        v10m_cor(i, nsrf) = SIGN(MIN(ABS(v1(i)), ABS(v10m(i, nsrf))), v1(i))
79      ENDIF
80      !!!
81      zdelta1 = MAX(0., SIGN(1., rtt - t2m_cor(i, nsrf)))
82      zx_qs1 = r2es * FOEEW(t2m_cor(i, nsrf), zdelta1) / paprs(i, 1)
83      zx_qs1 = MIN(0.5, zx_qs1)
84      zcor1 = 1. / (1. - RETV * zx_qs1)
85      zx_qs1 = zx_qs1 * zcor1
86      zrh2m_cor(i) = zrh2m_cor(i) + q2m_cor(i, nsrf) / zx_qs1 * pctsrf(i, nsrf)
87      zqsat2m_cor(i) = zqsat2m_cor(i) + zx_qs1 * pctsrf(i, nsrf)
88      !!!
89    ENDDO
90  ENDDO
91
92  !==================================================================
93  ! Agregation of sub surfaces
94  !==================================================================
95
96  zt2m_cor = 0.
97  zq2m_cor = 0.
98  zu10m_cor = 0.
99  zv10m_cor = 0.
100  DO nsrf = 1, nbsrf
101    DO i = 1, klon
102      zt2m_cor(i) = zt2m_cor(i) + t2m_cor(i, nsrf) * pctsrf(i, nsrf)
103      zq2m_cor(i) = zq2m_cor(i) + q2m_cor(i, nsrf) * pctsrf(i, nsrf)
104      zu10m_cor(i) = zu10m_cor(i) + u10m_cor(i, nsrf) * pctsrf(i, nsrf)
105      zv10m_cor(i) = zv10m_cor(i) + v10m_cor(i, nsrf) * pctsrf(i, nsrf)
106    ENDDO
107  ENDDO
108
109  RETURN
110END
111
112
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