source: trunk/LMDZ.COMMON/libf/dyn3d_common/massbarxy.F90 @ 3552

Last change on this file since 3552 was 1523, checked in by emillour, 9 years ago

All models: More updates to make planetary codes (+Earth) setups converge.

  • in dyn3d_common:
  • convmas.F => convmas.F90
  • enercin.F => enercin.F90
  • flumass.F => flumass.F90
  • massbar.F => massbar.F90
  • tourpot.F => tourpot.F90
  • vitvert.F => vitvert.F90
  • in misc:
  • move "q_sat" from "dyn3d_common" to "misc" (in Earth model, it is also called by the physics)
  • move "write_field" from "dyn3d_common" to "misc"(may be called from physics or dynamics and depends on neither).
  • in phy_common:
  • move "write_field_phy" here since it may be called from any physics package)
  • add module "regular_lonlat_mod" to store global information on lon-lat grid
  • in dynlonlat_phylonlat/phy*:
  • turn "iniphysiq.F90" into module "iniphysiq_mod.F90" (and of course adapt gcm.F[90] and 1D models accordingly)

EM

File size: 1.1 KB
Line 
1SUBROUTINE massbarxy(masse,massebxy)
2!
3!-------------------------------------------------------------------------------
4! Authors: P. Le Van , Fr. Hourdin.
5!-------------------------------------------------------------------------------
6! Purpose: Compute air mass mean along X and Y in each cell.
7! See iniconst for more details.
8  IMPLICIT NONE
9  include "dimensions.h"
10  include "paramet.h"
11  include "comgeom.h"
12!===============================================================================
13! Arguments:
14  REAL, INTENT(IN)  :: masse   (ip1jmp1,llm)
15  REAL, INTENT(OUT) :: massebxy(ip1jm  ,llm)
16!===============================================================================
17! Local variables:
18  INTEGER :: ij, l
19!===============================================================================
20  DO l=1,llm
21    DO ij=1,ip1jm-1
22      massebxy(ij,l)=masse(ij     ,l)*alpha2(ij     ) + &
23                     masse(ij+1   ,l)*alpha3(ij+1   ) + &
24                     masse(ij+iip1,l)*alpha1(ij+iip1) + &
25                     masse(ij+iip2,l)*alpha4(ij+iip2)
26    END DO
27    DO ij=iip1,ip1jm,iip1; massebxy(ij,l)=massebxy(ij-iim,l); END DO
28  END DO
29
30END SUBROUTINE massbarxy
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