/[lmdze]/trunk/Sources/dyn3d/Dissipation/gradiv2.f
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Contents of /trunk/Sources/dyn3d/Dissipation/gradiv2.f

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Revision 137 - (show annotations)
Wed May 6 15:51:03 2015 UTC (9 years ago) by guez
File size: 1992 byte(s) 
Removed unused argument missval in ma_fucoll_r[1-3]1, ma_fufill_r[1-3]1.

Split filtreg into two procedures: filtreg_scal and filtreg_v. I did
not like the test on the extent of the argument and there was no
common code between the two cases: jjm and jjm + 1. Also, it is
simpler now to just remove the argument "direct" from filtreg_v instead
of allowing it and then stopping the program if it is false.

Removed the computation of pkf in reanalyse2nat, was not used.

As a consequence of the split of filtreg, had to extract the
computation of pkf out of exner_hyb. This is clearer anyway because we
want to be able to call exner_hyb with any size in the first two
dimensions (as in test_disvert). But at the same time exner_hyb
required particular sizes for the computation of pkf. It was
awkward. The only computation of pkf is now in leapfrog.
1 module gradiv2_m
2
3 IMPLICIT NONE
4
5 contains
6
7 SUBROUTINE gradiv2(xcov, ycov, ld, gdx, gdy, cdivu)
8
9 ! From LMDZ4/libf/dyn3d/gradiv2.F, version 1.1.1.1 2004/05/19 12:53:07
10 ! P. Le Van
11 ! Calcul du gradient de la divergence du vecteur v.
12
13 USE comgeom, ONLY: cuvscvgam1, cvuscugam1, unsair_gam1, unsapolnga1, &
14 unsapolsga1
15 USE dimens_m, ONLY: iim, jjm
16 use divergf_m, only: divergf
17 USE filtreg_scal_m, ONLY: filtreg_scal
18 use grad_m, only: grad
19 use laplacien_m, only: laplacien
20 use nr_util, only: assert_eq, assert
21
22 ! Composantes covariantes de v :
23 REAL, intent(in):: xcov(:, :, :) ! (iim + 1, jjm + 1, klevel)
24 REAL, intent(in):: ycov(:, :, :) ! (iim + 1, jjm, klevel)
25
26 integer, intent(in):: ld
27 REAL, intent(out):: gdx(:, :, :) ! (iim + 1, jjm + 1, klevel)
28 REAL, intent(out):: gdy(:, :, :) ! (iim + 1, jjm, klevel)
29 real, intent(in):: cdivu
30
31 ! Variables locales :
32 REAL nugrads, div(iim + 1, jjm + 1, size(xcov, 3))
33 INTEGER iter, klevel
34
35 !--------------------------------------------------------------
36
37 call assert((/size(xcov, 1), size(ycov, 1), size(gdx, 1), size(gdy, 1)/) &
38 == iim + 1, "gradiv2 iim")
39 call assert((/size(xcov, 2) - 1, size(ycov, 2), size(gdx, 2) - 1, &
40 size(gdy, 2)/) == jjm, "gradiv2 iim")
41 klevel = assert_eq(size(xcov, 3), size(ycov, 3), size(gdx, 3), &
42 size(gdy, 3), "gradiv2 klevel")
43
44 CALL divergf(klevel, xcov, ycov, div)
45
46 IF (ld > 1) THEN
47 CALL laplacien(klevel, div)
48
49 ! Itération de l'opérateur laplacien_gam
50 DO iter = 1, ld - 2
51 CALL laplacien_gam(klevel, cuvscvgam1, cvuscugam1, unsair_gam1, &
52 unsapolnga1, unsapolsga1, div, div)
53 END DO
54 ENDIF
55
56 CALL filtreg_scal(div, direct = .true., intensive = .true.)
57 CALL grad(klevel, div, gdx, gdy)
58 nugrads = (-1.)**ld * cdivu
59
60 gdx = gdx * nugrads
61 gdy = gdy * nugrads
62
63 END SUBROUTINE gradiv2
64
65 end module gradiv2_m
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