! !$Header$ ! MODULE mod_phys_lmdz_mpi_transfert INTERFACE bcast_mpi MODULE PROCEDURE bcast_mpi_c, & bcast_mpi_i,bcast_mpi_i1,bcast_mpi_i2,bcast_mpi_i3,bcast_mpi_i4, & bcast_mpi_r,bcast_mpi_r1,bcast_mpi_r2,bcast_mpi_r3,bcast_mpi_r4, & bcast_mpi_l,bcast_mpi_l1,bcast_mpi_l2,bcast_mpi_l3,bcast_mpi_l4 END INTERFACE INTERFACE scatter_mpi MODULE PROCEDURE scatter_mpi_i,scatter_mpi_i1,scatter_mpi_i2,scatter_mpi_i3, & scatter_mpi_r,scatter_mpi_r1,scatter_mpi_r2,scatter_mpi_r3, & scatter_mpi_l,scatter_mpi_l1,scatter_mpi_l2,scatter_mpi_l3 END INTERFACE INTERFACE gather_mpi MODULE PROCEDURE gather_mpi_i,gather_mpi_i1,gather_mpi_i2,gather_mpi_i3, & gather_mpi_r,gather_mpi_r1,gather_mpi_r2,gather_mpi_r3, & gather_mpi_l,gather_mpi_l1,gather_mpi_l2,gather_mpi_l3 END INTERFACE INTERFACE scatter2D_mpi MODULE PROCEDURE scatter2D_mpi_i,scatter2D_mpi_i1,scatter2D_mpi_i2,scatter2D_mpi_i3, & scatter2D_mpi_r,scatter2D_mpi_r1,scatter2D_mpi_r2,scatter2D_mpi_r3, & scatter2D_mpi_l,scatter2D_mpi_l1,scatter2D_mpi_l2,scatter2D_mpi_l3 END INTERFACE INTERFACE gather2D_mpi MODULE PROCEDURE gather2D_mpi_i,gather2D_mpi_i1,gather2D_mpi_i2,gather2D_mpi_i3, & gather2D_mpi_r,gather2D_mpi_r1,gather2D_mpi_r2,gather2D_mpi_r3, & gather2D_mpi_l,gather2D_mpi_l1,gather2D_mpi_l2,gather2D_mpi_l3 END INTERFACE INTERFACE reduce_sum_mpi MODULE PROCEDURE reduce_sum_mpi_i,reduce_sum_mpi_i1,reduce_sum_mpi_i2,reduce_sum_mpi_i3,reduce_sum_mpi_i4, & reduce_sum_mpi_r,reduce_sum_mpi_r1,reduce_sum_mpi_r2,reduce_sum_mpi_r3,reduce_sum_mpi_r4 END INTERFACE INTERFACE grid1dTo2d_mpi MODULE PROCEDURE grid1dTo2d_mpi_i,grid1dTo2d_mpi_i1,grid1dTo2d_mpi_i2,grid1dTo2d_mpi_i3, & grid1dTo2d_mpi_r,grid1dTo2d_mpi_r1,grid1dTo2d_mpi_r2,grid1dTo2d_mpi_r3, & grid1dTo2d_mpi_l,grid1dTo2d_mpi_l1,grid1dTo2d_mpi_l2,grid1dTo2d_mpi_l3 END INTERFACE INTERFACE grid2dTo1d_mpi MODULE PROCEDURE grid2dTo1d_mpi_i,grid2dTo1d_mpi_i1,grid2dTo1d_mpi_i2,grid2dTo1d_mpi_i3, & grid2dTo1d_mpi_r,grid2dTo1d_mpi_r1,grid2dTo1d_mpi_r2,grid2dTo1d_mpi_r3, & grid2dTo1d_mpi_l,grid2dTo1d_mpi_l1,grid2dTo1d_mpi_l2,grid2dTo1d_mpi_l3 END INTERFACE CONTAINS !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!! !! Definition des Broadcast --> 4D !! !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!! !! -- Les chaine de charactère -- !! SUBROUTINE bcast_mpi_c(var1) IMPLICIT NONE CHARACTER(LEN=*),INTENT(INOUT) :: Var1 CALL bcast_mpi_cgen(Var1,len(Var1)) END SUBROUTINE bcast_mpi_c !! -- Les entiers -- !! SUBROUTINE bcast_mpi_i(var) USE mod_phys_lmdz_mpi_data, ONLY : is_mpi_root IMPLICIT NONE INTEGER,INTENT(INOUT) :: Var INTEGER :: var_tmp(1) IF (is_mpi_root) var_tmp(1)=var CALL bcast_mpi_igen(Var_tmp,1) var=var_tmp(1) END SUBROUTINE bcast_mpi_i SUBROUTINE bcast_mpi_i1(var) IMPLICIT NONE INTEGER,INTENT(INOUT) :: Var(:) CALL bcast_mpi_igen(Var,size(Var)) END SUBROUTINE bcast_mpi_i1 SUBROUTINE bcast_mpi_i2(var) IMPLICIT NONE INTEGER,INTENT(INOUT) :: Var(:,:) CALL bcast_mpi_igen(Var,size(Var)) END SUBROUTINE bcast_mpi_i2 SUBROUTINE bcast_mpi_i3(var) IMPLICIT NONE INTEGER,INTENT(INOUT) :: Var(:,:,:) CALL bcast_mpi_igen(Var,size(Var)) END SUBROUTINE bcast_mpi_i3 SUBROUTINE bcast_mpi_i4(var) IMPLICIT NONE INTEGER,INTENT(INOUT) :: Var(:,:,:,:) CALL bcast_mpi_igen(Var,size(Var)) END SUBROUTINE bcast_mpi_i4 !! -- Les reels -- !! SUBROUTINE bcast_mpi_r(var) USE mod_phys_lmdz_mpi_data, ONLY : is_mpi_root IMPLICIT NONE REAL,INTENT(INOUT) :: Var REAL :: var_tmp(1) IF (is_mpi_root) var_tmp(1)=var CALL bcast_mpi_rgen(Var_tmp,1) var=var_tmp(1) END SUBROUTINE bcast_mpi_r SUBROUTINE bcast_mpi_r1(var) IMPLICIT NONE REAL,INTENT(INOUT) :: Var(:) CALL bcast_mpi_rgen(Var,size(Var)) END SUBROUTINE bcast_mpi_r1 SUBROUTINE bcast_mpi_r2(var) IMPLICIT NONE REAL,INTENT(INOUT) :: Var(:,:) CALL bcast_mpi_rgen(Var,size(Var)) END SUBROUTINE bcast_mpi_r2 SUBROUTINE bcast_mpi_r3(var) IMPLICIT NONE REAL,INTENT(INOUT) :: Var(:,:,:) CALL bcast_mpi_rgen(Var,size(Var)) END SUBROUTINE bcast_mpi_r3 SUBROUTINE bcast_mpi_r4(var) IMPLICIT NONE REAL,INTENT(INOUT) :: Var(:,:,:,:) CALL bcast_mpi_rgen(Var,size(Var)) END SUBROUTINE bcast_mpi_r4 !! -- Les booleans -- !! SUBROUTINE bcast_mpi_l(var) USE mod_phys_lmdz_mpi_data, ONLY : is_mpi_root IMPLICIT NONE LOGICAL,INTENT(INOUT) :: Var LOGICAL :: var_tmp(1) IF (is_mpi_root) var_tmp(1)=var CALL bcast_mpi_lgen(Var_tmp,1) var=var_tmp(1) END SUBROUTINE bcast_mpi_l SUBROUTINE bcast_mpi_l1(var) IMPLICIT NONE LOGICAL,INTENT(INOUT) :: Var(:) CALL bcast_mpi_lgen(Var,size(Var)) END SUBROUTINE bcast_mpi_l1 SUBROUTINE bcast_mpi_l2(var) IMPLICIT NONE LOGICAL,INTENT(INOUT) :: Var(:,:) CALL bcast_mpi_lgen(Var,size(Var)) END SUBROUTINE bcast_mpi_l2 SUBROUTINE bcast_mpi_l3(var) IMPLICIT NONE LOGICAL,INTENT(INOUT) :: Var(:,:,:) CALL bcast_mpi_lgen(Var,size(Var)) END SUBROUTINE bcast_mpi_l3 SUBROUTINE bcast_mpi_l4(var) IMPLICIT NONE LOGICAL,INTENT(INOUT) :: Var(:,:,:,:) CALL bcast_mpi_lgen(Var,size(Var)) END SUBROUTINE bcast_mpi_l4 !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!! !! Definition des Scatter --> 4D !! !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!! SUBROUTINE scatter_mpi_i(VarIn, VarOut) USE mod_phys_lmdz_mpi_data, ONLY : is_mpi_root IMPLICIT NONE INTEGER,INTENT(IN),DIMENSION(:) :: VarIn INTEGER,INTENT(OUT),DIMENSION(:) :: VarOut CALL scatter_mpi_igen(VarIn,Varout,1) END SUBROUTINE scatter_mpi_i SUBROUTINE scatter_mpi_i1(VarIn, VarOut) USE mod_phys_lmdz_mpi_data, ONLY : is_mpi_root IMPLICIT NONE INTEGER,INTENT(IN),DIMENSION(:,:) :: VarIn INTEGER,INTENT(OUT),DIMENSION(:,:) :: VarOut CALL scatter_mpi_igen(VarIn,Varout,Size(VarOut,2)) END SUBROUTINE scatter_mpi_i1 SUBROUTINE scatter_mpi_i2(VarIn, VarOut) USE mod_phys_lmdz_mpi_data, ONLY : is_mpi_root IMPLICIT NONE INTEGER,INTENT(IN),DIMENSION(:,:,:) :: VarIn INTEGER,INTENT(OUT),DIMENSION(:,:,:) :: VarOut CALL scatter_mpi_igen(VarIn,Varout,Size(VarOut,2)*Size(VarOut,3)) END SUBROUTINE scatter_mpi_i2 SUBROUTINE scatter_mpi_i3(VarIn, VarOut) USE mod_phys_lmdz_mpi_data, ONLY : is_mpi_root IMPLICIT NONE INTEGER,INTENT(IN),DIMENSION(:,:,:,:) :: VarIn INTEGER,INTENT(OUT),DIMENSION(:,:,:,:) :: VarOut CALL scatter_mpi_igen(VarIn,Varout,Size(VarOut,2)*Size(VarOut,3)*Size(VarOut,4)) END SUBROUTINE scatter_mpi_i3 SUBROUTINE scatter_mpi_r(VarIn, VarOut) USE mod_phys_lmdz_mpi_data, ONLY : is_mpi_root IMPLICIT NONE REAL,INTENT(IN),DIMENSION(:) :: VarIn REAL,INTENT(OUT),DIMENSION(:) :: VarOut CALL scatter_mpi_rgen(VarIn,Varout,1) END SUBROUTINE scatter_mpi_r SUBROUTINE scatter_mpi_r1(VarIn, VarOut) USE mod_phys_lmdz_mpi_data, ONLY : is_mpi_root IMPLICIT NONE REAL,INTENT(IN),DIMENSION(:,:) :: VarIn REAL,INTENT(OUT),DIMENSION(:,:) :: VarOut CALL scatter_mpi_rgen(VarIn,Varout,Size(VarOut,2)) END SUBROUTINE scatter_mpi_r1 SUBROUTINE scatter_mpi_r2(VarIn, VarOut) USE mod_phys_lmdz_mpi_data, ONLY : is_mpi_root IMPLICIT NONE REAL,INTENT(IN),DIMENSION(:,:,:) :: VarIn REAL,INTENT(OUT),DIMENSION(:,:,:) :: VarOut CALL scatter_mpi_rgen(VarIn,Varout,Size(VarOut,2)*Size(VarOut,3)) END SUBROUTINE scatter_mpi_r2 SUBROUTINE scatter_mpi_r3(VarIn, VarOut) USE mod_phys_lmdz_mpi_data, ONLY : is_mpi_root IMPLICIT NONE REAL,INTENT(IN),DIMENSION(:,:,:,:) :: VarIn REAL,INTENT(OUT),DIMENSION(:,:,:,:) :: VarOut CALL scatter_mpi_rgen(VarIn,Varout,Size(VarOut,2)*Size(VarOut,3)*Size(VarOut,4)) END SUBROUTINE scatter_mpi_r3 SUBROUTINE scatter_mpi_l(VarIn, VarOut) USE mod_phys_lmdz_mpi_data, ONLY : is_mpi_root IMPLICIT NONE LOGICAL,INTENT(IN),DIMENSION(:) :: VarIn LOGICAL,INTENT(OUT),DIMENSION(:) :: VarOut CALL scatter_mpi_lgen(VarIn,Varout,1) END SUBROUTINE scatter_mpi_l SUBROUTINE scatter_mpi_l1(VarIn, VarOut) USE mod_phys_lmdz_mpi_data, ONLY : is_mpi_root IMPLICIT NONE LOGICAL,INTENT(IN),DIMENSION(:,:) :: VarIn LOGICAL,INTENT(OUT),DIMENSION(:,:) :: VarOut CALL scatter_mpi_lgen(VarIn,Varout,Size(VarOut,2)) END SUBROUTINE scatter_mpi_l1 SUBROUTINE scatter_mpi_l2(VarIn, VarOut) USE mod_phys_lmdz_mpi_data, ONLY : is_mpi_root IMPLICIT NONE LOGICAL,INTENT(IN),DIMENSION(:,:,:) :: VarIn LOGICAL,INTENT(OUT),DIMENSION(:,:,:) :: VarOut CALL scatter_mpi_lgen(VarIn,Varout,Size(VarOut,2)*Size(VarOut,3)) END SUBROUTINE scatter_mpi_l2 SUBROUTINE scatter_mpi_l3(VarIn, VarOut) USE mod_phys_lmdz_mpi_data, ONLY : is_mpi_root IMPLICIT NONE LOGICAL,INTENT(IN),DIMENSION(:,:,:,:) :: VarIn LOGICAL,INTENT(OUT),DIMENSION(:,:,:,:) :: VarOut CALL scatter_mpi_lgen(VarIn,Varout,Size(VarOut,2)*Size(VarOut,3)*Size(VarOut,4)) END SUBROUTINE scatter_mpi_l3 !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!! !! Definition des Gather --> 4D !! !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!! !!!!! --> Les entiers SUBROUTINE gather_mpi_i(VarIn, VarOut) USE mod_phys_lmdz_mpi_data, ONLY : is_mpi_root IMPLICIT NONE INTEGER,INTENT(IN),DIMENSION(:) :: VarIn INTEGER,INTENT(OUT),DIMENSION(:) :: VarOut CALL gather_mpi_igen(VarIn,VarOut,1) END SUBROUTINE gather_mpi_i !!!!! SUBROUTINE gather_mpi_i1(VarIn, VarOut) USE mod_phys_lmdz_mpi_data, ONLY : is_mpi_root IMPLICIT NONE INTEGER,INTENT(IN),DIMENSION(:,:) :: VarIn INTEGER,INTENT(OUT),DIMENSION(:,:) :: VarOut CALL gather_mpi_igen(VarIn,VarOut,Size(VarIn,2)) END SUBROUTINE gather_mpi_i1 !!!!! SUBROUTINE gather_mpi_i2(VarIn, VarOut) USE mod_phys_lmdz_mpi_data, ONLY : is_mpi_root IMPLICIT NONE INTEGER,INTENT(IN),DIMENSION(:,:,:) :: VarIn INTEGER,INTENT(OUT),DIMENSION(:,:,:) :: VarOut CALL gather_mpi_igen(VarIn,VarOut,Size(VarIn,2)*Size(VarIn,3)) END SUBROUTINE gather_mpi_i2 !!!!! SUBROUTINE gather_mpi_i3(VarIn, VarOut) USE mod_phys_lmdz_mpi_data, ONLY : is_mpi_root IMPLICIT NONE INTEGER,INTENT(IN),DIMENSION(:,:,:,:) :: VarIn INTEGER,INTENT(OUT),DIMENSION(:,:,:,:) :: VarOut CALL gather_mpi_igen(VarIn,VarOut,Size(VarIn,2)*Size(VarIn,3)*Size(VarIn,4)) END SUBROUTINE gather_mpi_i3 !!!!! --> Les reels SUBROUTINE gather_mpi_r(VarIn, VarOut) USE mod_phys_lmdz_mpi_data, ONLY : is_mpi_root IMPLICIT NONE REAL,INTENT(IN),DIMENSION(:) :: VarIn REAL,INTENT(OUT),DIMENSION(:) :: VarOut CALL gather_mpi_rgen(VarIn,VarOut,1) END SUBROUTINE gather_mpi_r !!!!! SUBROUTINE gather_mpi_r1(VarIn, VarOut) USE mod_phys_lmdz_mpi_data, ONLY : is_mpi_root IMPLICIT NONE REAL,INTENT(IN),DIMENSION(:,:) :: VarIn REAL,INTENT(OUT),DIMENSION(:,:) :: VarOut CALL gather_mpi_rgen(VarIn,VarOut,Size(VarIn,2)) END SUBROUTINE gather_mpi_r1 !!!!! SUBROUTINE gather_mpi_r2(VarIn, VarOut) USE mod_phys_lmdz_mpi_data, ONLY : is_mpi_root IMPLICIT NONE REAL,INTENT(IN),DIMENSION(:,:,:) :: VarIn REAL,INTENT(OUT),DIMENSION(:,:,:) :: VarOut CALL gather_mpi_rgen(VarIn,VarOut,Size(VarIn,2)*Size(VarIn,3)) END SUBROUTINE gather_mpi_r2 !!!!! SUBROUTINE gather_mpi_r3(VarIn, VarOut) USE mod_phys_lmdz_mpi_data, ONLY : is_mpi_root IMPLICIT NONE REAL,INTENT(IN),DIMENSION(:,:,:,:) :: VarIn REAL,INTENT(OUT),DIMENSION(:,:,:,:) :: VarOut CALL gather_mpi_rgen(VarIn,VarOut,Size(VarIn,2)*Size(VarIn,3)*Size(VarIn,4)) END SUBROUTINE gather_mpi_r3 !!!!! --> Les booleen SUBROUTINE gather_mpi_l(VarIn, VarOut) USE mod_phys_lmdz_mpi_data, ONLY : is_mpi_root IMPLICIT NONE LOGICAL,INTENT(IN),DIMENSION(:) :: VarIn LOGICAL,INTENT(OUT),DIMENSION(:) :: VarOut CALL gather_mpi_lgen(VarIn,VarOut,1) END SUBROUTINE gather_mpi_l !!!!! SUBROUTINE gather_mpi_l1(VarIn, VarOut) USE mod_phys_lmdz_mpi_data, ONLY : is_mpi_root IMPLICIT NONE LOGICAL,INTENT(IN),DIMENSION(:,:) :: VarIn LOGICAL,INTENT(OUT),DIMENSION(:,:) :: VarOut CALL gather_mpi_lgen(VarIn,VarOut,Size(VarIn,2)) END SUBROUTINE gather_mpi_l1 !!!!! SUBROUTINE gather_mpi_l2(VarIn, VarOut) USE mod_phys_lmdz_mpi_data, ONLY : is_mpi_root IMPLICIT NONE LOGICAL,INTENT(IN),DIMENSION(:,:,:) :: VarIn LOGICAL,INTENT(OUT),DIMENSION(:,:,:) :: VarOut CALL gather_mpi_lgen(VarIn,VarOut,Size(VarIn,2)*Size(VarIn,3)) END SUBROUTINE gather_mpi_l2 !!!!! SUBROUTINE gather_mpi_l3(VarIn, VarOut) USE mod_phys_lmdz_mpi_data, ONLY : is_mpi_root IMPLICIT NONE LOGICAL,INTENT(IN),DIMENSION(:,:,:,:) :: VarIn LOGICAL,INTENT(OUT),DIMENSION(:,:,:,:) :: VarOut CALL gather_mpi_lgen(VarIn,VarOut,Size(VarIn,2)*Size(VarIn,3)*Size(VarIn,4)) END SUBROUTINE gather_mpi_l3 !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!! !! Definition des Scatter2D --> 4D !! !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!! SUBROUTINE scatter2D_mpi_i(VarIn, VarOut) USE mod_grid_phy_lmdz IMPLICIT NONE INTEGER,INTENT(IN),DIMENSION(:,:) :: VarIn INTEGER,INTENT(OUT),DIMENSION(:) :: VarOut INTEGER,DIMENSION(klon_glo) :: Var_tmp CALL grid2dTo1d_glo(VarIn,Var_tmp) CALL scatter_mpi(Var_tmp,VarOut) END SUBROUTINE scatter2D_mpi_i SUBROUTINE scatter2D_mpi_i1(VarIn, VarOut) USE mod_grid_phy_lmdz IMPLICIT NONE INTEGER,INTENT(IN),DIMENSION(:,:,:) :: VarIn INTEGER,INTENT(OUT),DIMENSION(:,:) :: VarOut INTEGER,DIMENSION(klon_glo,size(VarOut,2)) :: Var_tmp CALL grid2dTo1d_glo(VarIn,Var_tmp) CALL scatter_mpi(Var_tmp,VarOut) END SUBROUTINE scatter2D_mpi_i1 SUBROUTINE scatter2D_mpi_i2(VarIn, VarOut) USE mod_grid_phy_lmdz IMPLICIT NONE INTEGER,INTENT(IN),DIMENSION(:,:,:,:) :: VarIn INTEGER,INTENT(OUT),DIMENSION(:,:,:) :: VarOut INTEGER,DIMENSION(klon_glo,size(VarOut,2),size(VarOut,3)) :: Var_tmp CALL grid2dTo1d_glo(VarIn,Var_tmp) CALL scatter_mpi(Var_tmp,VarOut) END SUBROUTINE scatter2D_mpi_i2 SUBROUTINE scatter2D_mpi_i3(VarIn, VarOut) USE mod_grid_phy_lmdz IMPLICIT NONE INTEGER,INTENT(IN),DIMENSION(:,:,:,:,:) :: VarIn INTEGER,INTENT(OUT),DIMENSION(:,:,:,:) :: VarOut INTEGER,DIMENSION(klon_glo,size(VarOut,2),size(VarOut,3),size(VarOut,4)) :: Var_tmp CALL grid2dTo1d_glo(VarIn,Var_tmp) CALL scatter_mpi(Var_tmp,VarOut) END SUBROUTINE scatter2D_mpi_i3 SUBROUTINE scatter2D_mpi_r(VarIn, VarOut) USE mod_grid_phy_lmdz IMPLICIT NONE REAL,INTENT(IN),DIMENSION(:,:) :: VarIn REAL,INTENT(OUT),DIMENSION(:) :: VarOut REAL,DIMENSION(klon_glo) :: Var_tmp CALL grid2dTo1d_glo(VarIn,Var_tmp) CALL scatter_mpi(Var_tmp,VarOut) END SUBROUTINE scatter2D_mpi_R SUBROUTINE scatter2D_mpi_r1(VarIn, VarOut) USE mod_grid_phy_lmdz IMPLICIT NONE REAL,INTENT(IN),DIMENSION(:,:,:) :: VarIn REAL,INTENT(OUT),DIMENSION(:,:) :: VarOut REAL,DIMENSION(klon_glo,size(VarOut,2)) :: Var_tmp CALL grid2dTo1d_glo(VarIn,Var_tmp) CALL scatter_mpi(Var_tmp,VarOut) END SUBROUTINE scatter2D_mpi_r1 SUBROUTINE scatter2D_mpi_r2(VarIn, VarOut) USE mod_grid_phy_lmdz IMPLICIT NONE REAL,INTENT(IN),DIMENSION(:,:,:,:) :: VarIn REAL,INTENT(OUT),DIMENSION(:,:,:) :: VarOut REAL,DIMENSION(klon_glo,size(VarOut,2),size(VarOut,3)) :: Var_tmp CALL grid2dTo1d_glo(VarIn,Var_tmp) CALL scatter_mpi(Var_tmp,VarOut) END SUBROUTINE scatter2D_mpi_r2 SUBROUTINE scatter2D_mpi_r3(VarIn, VarOut) USE mod_grid_phy_lmdz IMPLICIT NONE REAL,INTENT(IN),DIMENSION(:,:,:,:,:) :: VarIn REAL,INTENT(OUT),DIMENSION(:,:,:,:) :: VarOut REAL,DIMENSION(klon_glo,size(VarOut,2),size(VarOut,3),size(VarOut,4)) :: Var_tmp CALL grid2dTo1d_glo(VarIn,Var_tmp) CALL scatter_mpi(Var_tmp,VarOut) END SUBROUTINE scatter2D_mpi_r3 SUBROUTINE scatter2D_mpi_l(VarIn, VarOut) USE mod_grid_phy_lmdz IMPLICIT NONE LOGICAL,INTENT(IN),DIMENSION(:,:) :: VarIn LOGICAL,INTENT(OUT),DIMENSION(:) :: VarOut LOGICAL,DIMENSION(klon_glo) :: Var_tmp CALL grid2dTo1d_glo(VarIn,Var_tmp) CALL scatter_mpi(Var_tmp,VarOut) END SUBROUTINE scatter2D_mpi_l SUBROUTINE scatter2D_mpi_l1(VarIn, VarOut) USE mod_grid_phy_lmdz IMPLICIT NONE LOGICAL,INTENT(IN),DIMENSION(:,:,:) :: VarIn LOGICAL,INTENT(OUT),DIMENSION(:,:) :: VarOut LOGICAL,DIMENSION(klon_glo,size(VarOut,2)) :: Var_tmp CALL grid2dTo1d_glo(VarIn,Var_tmp) CALL scatter_mpi(Var_tmp,VarOut) END SUBROUTINE scatter2D_mpi_l1 SUBROUTINE scatter2D_mpi_l2(VarIn, VarOut) USE mod_grid_phy_lmdz IMPLICIT NONE LOGICAL,INTENT(IN),DIMENSION(:,:,:,:) :: VarIn LOGICAL,INTENT(OUT),DIMENSION(:,:,:) :: VarOut LOGICAL, DIMENSION(klon_glo,size(VarOut,2),size(VarOut,3)) :: Var_tmp CALL grid2dTo1d_glo(VarIn,Var_tmp) CALL scatter_mpi(Var_tmp,VarOut) END SUBROUTINE scatter2D_mpi_l2 SUBROUTINE scatter2D_mpi_l3(VarIn, VarOut) USE mod_grid_phy_lmdz IMPLICIT NONE LOGICAL,INTENT(IN),DIMENSION(:,:,:,:,:) :: VarIn LOGICAL,INTENT(OUT),DIMENSION(:,:,:,:) :: VarOut LOGICAL,DIMENSION(klon_glo,size(VarOut,2),size(VarOut,3),size(VarOut,4)) :: Var_tmp CALL grid2dTo1d_glo(VarIn,Var_tmp) CALL scatter_mpi(Var_tmp,VarOut) END SUBROUTINE scatter2D_mpi_l3 !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!! !! Definition des Gather2D --> 4D !! !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!! SUBROUTINE gather2D_mpi_i(VarIn, VarOut) USE mod_grid_phy_lmdz IMPLICIT NONE INTEGER,INTENT(IN),DIMENSION(:) :: VarIn INTEGER,INTENT(OUT),DIMENSION(:,:) :: VarOut INTEGER,DIMENSION(klon_glo) :: Var_tmp CALL gather_mpi(VarIn,Var_tmp) CALL grid1dTo2d_glo(Var_tmp,VarOut) END SUBROUTINE gather2D_mpi_i SUBROUTINE gather2D_mpi_i1(VarIn, VarOut) USE mod_grid_phy_lmdz IMPLICIT NONE INTEGER,INTENT(IN),DIMENSION(:,:) :: VarIn INTEGER,INTENT(OUT),DIMENSION(:,:,:) :: VarOut INTEGER,DIMENSION(klon_glo,size(VarOut,3)) :: Var_tmp CALL gather_mpi(VarIn,Var_tmp) CALL grid1dTo2d_glo(Var_tmp,VarOut) END SUBROUTINE gather2D_mpi_i1 SUBROUTINE gather2D_mpi_i2(VarIn, VarOut) USE mod_grid_phy_lmdz IMPLICIT NONE INTEGER,INTENT(IN),DIMENSION(:,:,:) :: VarIn INTEGER,INTENT(OUT),DIMENSION(:,:,:,:) :: VarOut INTEGER,DIMENSION(klon_glo,size(VarOut,3),SIZE(VarOut,4)) :: Var_tmp CALL gather_mpi(VarIn,Var_tmp) CALL grid1dTo2d_glo(Var_tmp,VarOut) END SUBROUTINE gather2D_mpi_i2 SUBROUTINE gather2D_mpi_i3(VarIn, VarOut) USE mod_grid_phy_lmdz IMPLICIT NONE INTEGER,INTENT(IN),DIMENSION(:,:,:,:) :: VarIn INTEGER,INTENT(OUT),DIMENSION(:,:,:,:,:) :: VarOut INTEGER,DIMENSION(klon_glo,size(VarOut,3),SIZE(VarOut,4),SIZE(VarOut,5)) :: Var_tmp CALL gather_mpi(VarIn,Var_tmp) CALL grid1dTo2d_glo(Var_tmp,VarOut) END SUBROUTINE gather2D_mpi_i3 SUBROUTINE gather2D_mpi_r(VarIn, VarOut) USE mod_grid_phy_lmdz IMPLICIT NONE REAL,INTENT(IN),DIMENSION(:) :: VarIn REAL,INTENT(OUT),DIMENSION(:,:) :: VarOut REAL,DIMENSION(klon_glo) :: Var_tmp CALL gather_mpi(VarIn,Var_tmp) CALL grid1dTo2d_glo(Var_tmp,VarOut) END SUBROUTINE gather2D_mpi_r SUBROUTINE gather2D_mpi_r1(VarIn, VarOut) USE mod_grid_phy_lmdz IMPLICIT NONE REAL,INTENT(IN),DIMENSION(:,:) :: VarIn REAL,INTENT(OUT),DIMENSION(:,:,:) :: VarOut REAL,DIMENSION(klon_glo,size(VarOut,3)) :: Var_tmp CALL gather_mpi(VarIn,Var_tmp) CALL grid1dTo2d_glo(Var_tmp,VarOut) END SUBROUTINE gather2D_mpi_r1 SUBROUTINE gather2D_mpi_r2(VarIn, VarOut) USE mod_grid_phy_lmdz IMPLICIT NONE REAL,INTENT(IN),DIMENSION(:,:,:) :: VarIn REAL,INTENT(OUT),DIMENSION(:,:,:,:) :: VarOut REAL,DIMENSION(klon_glo,size(VarOut,3),SIZE(VarOut,4)) :: Var_tmp CALL gather_mpi(VarIn,Var_tmp) CALL grid1dTo2d_glo(Var_tmp,VarOut) END SUBROUTINE gather2D_mpi_r2 SUBROUTINE gather2D_mpi_r3(VarIn, VarOut) USE mod_grid_phy_lmdz IMPLICIT NONE REAL,INTENT(IN),DIMENSION(:,:,:,:) :: VarIn REAL,INTENT(OUT),DIMENSION(:,:,:,:,:) :: VarOut REAL,DIMENSION(klon_glo,size(VarOut,3),SIZE(VarOut,4),SIZE(VarOut,5)) :: Var_tmp CALL gather_mpi(VarIn,Var_tmp) CALL grid1dTo2d_glo(Var_tmp,VarOut) END SUBROUTINE gather2D_mpi_r3 SUBROUTINE gather2D_mpi_l(VarIn, VarOut) USE mod_grid_phy_lmdz IMPLICIT NONE LOGICAL,INTENT(IN),DIMENSION(:) :: VarIn LOGICAL,INTENT(OUT),DIMENSION(:,:) :: VarOut LOGICAL,DIMENSION(klon_glo) :: Var_tmp CALL gather_mpi(VarIn,Var_tmp) CALL grid1dTo2d_glo(Var_tmp,VarOut) END SUBROUTINE gather2D_mpi_l SUBROUTINE gather2D_mpi_l1(VarIn, VarOut) USE mod_grid_phy_lmdz IMPLICIT NONE LOGICAL,INTENT(IN),DIMENSION(:,:) :: VarIn LOGICAL,INTENT(OUT),DIMENSION(:,:,:) :: VarOut LOGICAL,DIMENSION(klon_glo,size(VarOut,3)) :: Var_tmp CALL gather_mpi(VarIn,Var_tmp) CALL grid1dTo2d_glo(Var_tmp,VarOut) END SUBROUTINE gather2D_mpi_l1 SUBROUTINE gather2D_mpi_l2(VarIn, VarOut) USE mod_grid_phy_lmdz IMPLICIT NONE LOGICAL,INTENT(IN),DIMENSION(:,:,:) :: VarIn LOGICAL,INTENT(OUT),DIMENSION(:,:,:,:) :: VarOut LOGICAL,DIMENSION(klon_glo,size(VarOut,3),SIZE(VarOut,4)) :: Var_tmp CALL gather_mpi(VarIn,Var_tmp) CALL grid1dTo2d_glo(Var_tmp,VarOut) END SUBROUTINE gather2D_mpi_l2 SUBROUTINE gather2D_mpi_l3(VarIn, VarOut) USE mod_grid_phy_lmdz IMPLICIT NONE LOGICAL,INTENT(IN),DIMENSION(:,:,:,:) :: VarIn LOGICAL,INTENT(OUT),DIMENSION(:,:,:,:,:) :: VarOut LOGICAL,DIMENSION(klon_glo,size(VarOut,3),SIZE(VarOut,4),SIZE(VarOut,5)) :: Var_tmp CALL gather_mpi(VarIn,Var_tmp) CALL grid1dTo2d_glo(Var_tmp,VarOut) END SUBROUTINE gather2D_mpi_l3 !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!! !! Definition des reduce_sum --> 4D !! !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!! SUBROUTINE reduce_sum_mpi_i(VarIn, VarOut) USE mod_phys_lmdz_mpi_data, ONLY : is_mpi_root IMPLICIT NONE INTEGER,INTENT(IN) :: VarIn INTEGER,INTENT(OUT) :: VarOut INTEGER :: VarIn_tmp(1) INTEGER :: VarOut_tmp(1) VarIn_tmp(1)=VarIn CALL reduce_sum_mpi_igen(VarIn_tmp,Varout_tmp,1) VarOut=VarOut_tmp(1) END SUBROUTINE reduce_sum_mpi_i SUBROUTINE reduce_sum_mpi_i1(VarIn, VarOut) USE mod_phys_lmdz_mpi_data, ONLY : is_mpi_root IMPLICIT NONE INTEGER,INTENT(IN),DIMENSION(:) :: VarIn INTEGER,INTENT(OUT),DIMENSION(:) :: VarOut CALL reduce_sum_mpi_igen(VarIn,Varout,SIZE(VarIn)) END SUBROUTINE reduce_sum_mpi_i1 SUBROUTINE reduce_sum_mpi_i2(VarIn, VarOut) USE mod_phys_lmdz_mpi_data, ONLY : is_mpi_root IMPLICIT NONE INTEGER,INTENT(IN),DIMENSION(:,:) :: VarIn INTEGER,INTENT(OUT),DIMENSION(:,:) :: VarOut CALL reduce_sum_mpi_igen(VarIn,Varout,SIZE(VarIn)) END SUBROUTINE reduce_sum_mpi_i2 SUBROUTINE reduce_sum_mpi_i3(VarIn, VarOut) USE mod_phys_lmdz_mpi_data, ONLY : is_mpi_root IMPLICIT NONE INTEGER,INTENT(IN),DIMENSION(:,:,:) :: VarIn INTEGER,INTENT(OUT),DIMENSION(:,:,:) :: VarOut CALL reduce_sum_mpi_igen(VarIn,Varout,SIZE(VarIn)) END SUBROUTINE reduce_sum_mpi_i3 SUBROUTINE reduce_sum_mpi_i4(VarIn, VarOut) USE mod_phys_lmdz_mpi_data, ONLY : is_mpi_root IMPLICIT NONE INTEGER,INTENT(IN),DIMENSION(:,:,:,:) :: VarIn INTEGER,INTENT(OUT),DIMENSION(:,:,:,:) :: VarOut CALL reduce_sum_mpi_igen(VarIn,Varout,SIZE(VarIn)) END SUBROUTINE reduce_sum_mpi_i4 SUBROUTINE reduce_sum_mpi_r(VarIn, VarOut) USE mod_phys_lmdz_mpi_data, ONLY : is_mpi_root IMPLICIT NONE REAL,INTENT(IN) :: VarIn REAL,INTENT(OUT) :: VarOut REAL :: VarIn_tmp(1) REAL :: VarOut_tmp(1) VarIn_tmp(1)=VarIn CALL reduce_sum_mpi_rgen(VarIn_tmp,Varout_tmp,1) VarOut=VarOut_tmp(1) END SUBROUTINE reduce_sum_mpi_r SUBROUTINE reduce_sum_mpi_r1(VarIn, VarOut) USE mod_phys_lmdz_mpi_data, ONLY : is_mpi_root IMPLICIT NONE REAL,INTENT(IN),DIMENSION(:) :: VarIn REAL,INTENT(OUT),DIMENSION(:) :: VarOut CALL reduce_sum_mpi_rgen(VarIn,Varout,SIZE(VarIn)) END SUBROUTINE reduce_sum_mpi_r1 SUBROUTINE reduce_sum_mpi_r2(VarIn, VarOut) USE mod_phys_lmdz_mpi_data, ONLY : is_mpi_root IMPLICIT NONE REAL,INTENT(IN),DIMENSION(:,:) :: VarIn REAL,INTENT(OUT),DIMENSION(:,:) :: VarOut CALL reduce_sum_mpi_rgen(VarIn,Varout,SIZE(VarIn)) END SUBROUTINE reduce_sum_mpi_r2 SUBROUTINE reduce_sum_mpi_r3(VarIn, VarOut) USE mod_phys_lmdz_mpi_data, ONLY : is_mpi_root IMPLICIT NONE REAL,INTENT(IN),DIMENSION(:,:,:) :: VarIn REAL,INTENT(OUT),DIMENSION(:,:,:) :: VarOut CALL reduce_sum_mpi_rgen(VarIn,Varout,SIZE(VarIn)) END SUBROUTINE reduce_sum_mpi_r3 SUBROUTINE reduce_sum_mpi_r4(VarIn, VarOut) USE mod_phys_lmdz_mpi_data, ONLY : is_mpi_root IMPLICIT NONE REAL,INTENT(IN),DIMENSION(:,:,:,:) :: VarIn REAL,INTENT(OUT),DIMENSION(:,:,:,:) :: VarOut CALL reduce_sum_mpi_rgen(VarIn,Varout,SIZE(VarIn)) END SUBROUTINE reduce_sum_mpi_r4 !!!!!!!!!!!!!!!!!!!!!!!!!!!! !! SUBROUTINE grid1dTo2d !! !!!!!!!!!!!!!!!!!!!!!!!!!!!! SUBROUTINE grid1dTo2d_mpi_i(VarIn,VarOut) IMPLICIT NONE INTEGER,INTENT(IN),DIMENSION(:) :: VarIn INTEGER,INTENT(OUT),DIMENSION(:,:) :: VarOut CALL grid1dTo2d_mpi_igen(VarIn,VarOut,1) END SUBROUTINE grid1dTo2d_mpi_i SUBROUTINE grid1dTo2d_mpi_i1(VarIn,VarOut) IMPLICIT NONE INTEGER,INTENT(IN),DIMENSION(:,:) :: VarIn INTEGER,INTENT(OUT),DIMENSION(:,:,:) :: VarOut CALL grid1dTo2d_mpi_igen(VarIn,VarOut,size(VarIn,2)) END SUBROUTINE grid1dTo2d_mpi_i1 SUBROUTINE grid1dTo2d_mpi_i2(VarIn,VarOut) IMPLICIT NONE INTEGER,INTENT(IN),DIMENSION(:,:,:) :: VarIn INTEGER,INTENT(OUT),DIMENSION(:,:,:,:) :: VarOut CALL grid1dTo2d_mpi_igen(VarIn,VarOut,size(VarIn,2)*size(VarIn,3)) END SUBROUTINE grid1dTo2d_mpi_i2 SUBROUTINE grid1dTo2d_mpi_i3(VarIn,VarOut) IMPLICIT NONE INTEGER,INTENT(IN),DIMENSION(:,:,:,:) :: VarIn INTEGER,INTENT(OUT),DIMENSION(:,:,:,:,:) :: VarOut CALL grid1dTo2d_mpi_igen(VarIn,VarOut,size(VarIn,2)*size(VarIn,3)*size(VarIn,4)) END SUBROUTINE grid1dTo2d_mpi_i3 SUBROUTINE grid1dTo2d_mpi_r(VarIn,VarOut) IMPLICIT NONE REAL,INTENT(IN),DIMENSION(:) :: VarIn REAL,INTENT(OUT),DIMENSION(:,:) :: VarOut CALL grid1dTo2d_mpi_rgen(VarIn,VarOut,1) END SUBROUTINE grid1dTo2d_mpi_r SUBROUTINE grid1dTo2d_mpi_r1(VarIn,VarOut) IMPLICIT NONE REAL,INTENT(IN),DIMENSION(:,:) :: VarIn REAL,INTENT(OUT),DIMENSION(:,:,:) :: VarOut CALL grid1dTo2d_mpi_rgen(VarIn,VarOut,size(VarIn,2)) END SUBROUTINE grid1dTo2d_mpi_r1 SUBROUTINE grid1dTo2d_mpi_r2(VarIn,VarOut) IMPLICIT NONE REAL,INTENT(IN),DIMENSION(:,:,:) :: VarIn REAL,INTENT(OUT),DIMENSION(:,:,:,:) :: VarOut CALL grid1dTo2d_mpi_rgen(VarIn,VarOut,size(VarIn,2)*size(VarIn,3)) END SUBROUTINE grid1dTo2d_mpi_r2 SUBROUTINE grid1dTo2d_mpi_r3(VarIn,VarOut) IMPLICIT NONE REAL,INTENT(IN),DIMENSION(:,:,:,:) :: VarIn REAL,INTENT(OUT),DIMENSION(:,:,:,:,:) :: VarOut CALL grid1dTo2d_mpi_rgen(VarIn,VarOut,size(VarIn,2)*size(VarIn,3)*size(VarIn,4)) END SUBROUTINE grid1dTo2d_mpi_r3 SUBROUTINE grid1dTo2d_mpi_l(VarIn,VarOut) IMPLICIT NONE LOGICAL,INTENT(IN),DIMENSION(:) :: VarIn LOGICAL,INTENT(OUT),DIMENSION(:,:) :: VarOut CALL grid1dTo2d_mpi_lgen(VarIn,VarOut,1) END SUBROUTINE grid1dTo2d_mpi_l SUBROUTINE grid1dTo2d_mpi_l1(VarIn,VarOut) IMPLICIT NONE LOGICAL,INTENT(IN),DIMENSION(:,:) :: VarIn LOGICAL,INTENT(OUT),DIMENSION(:,:,:) :: VarOut CALL grid1dTo2d_mpi_lgen(VarIn,VarOut,size(VarIn,2)) END SUBROUTINE grid1dTo2d_mpi_l1 SUBROUTINE grid1dTo2d_mpi_l2(VarIn,VarOut) IMPLICIT NONE LOGICAL,INTENT(IN),DIMENSION(:,:,:) :: VarIn LOGICAL,INTENT(OUT),DIMENSION(:,:,:,:) :: VarOut CALL grid1dTo2d_mpi_lgen(VarIn,VarOut,size(VarIn,2)*size(VarIn,3)) END SUBROUTINE grid1dTo2d_mpi_l2 SUBROUTINE grid1dTo2d_mpi_l3(VarIn,VarOut) IMPLICIT NONE LOGICAL,INTENT(IN),DIMENSION(:,:,:,:) :: VarIn LOGICAL,INTENT(OUT),DIMENSION(:,:,:,:,:) :: VarOut CALL grid1dTo2d_mpi_lgen(VarIn,VarOut,size(VarIn,2)*size(VarIn,3)*size(VarIn,4)) END SUBROUTINE grid1dTo2d_mpi_l3 SUBROUTINE grid2dTo1d_mpi_i(VarIn,VarOut) IMPLICIT NONE INTEGER,INTENT(IN),DIMENSION(:,:) :: VarIn INTEGER,INTENT(OUT),DIMENSION(:) :: VarOut CALL grid2dTo1d_mpi_igen(VarIn,VarOut,1) END SUBROUTINE grid2dTo1d_mpi_i SUBROUTINE grid2dTo1d_mpi_i1(VarIn,VarOut) IMPLICIT NONE INTEGER,INTENT(IN),DIMENSION(:,:,:) :: VarIn INTEGER,INTENT(OUT),DIMENSION(:,:) :: VarOut CALL grid2dTo1d_mpi_igen(VarIn,VarOut,size(VarIn,3)) END SUBROUTINE grid2dTo1d_mpi_i1 SUBROUTINE grid2dTo1d_mpi_i2(VarIn,VarOut) IMPLICIT NONE INTEGER,INTENT(IN),DIMENSION(:,:,:,:) :: VarIn INTEGER,INTENT(OUT),DIMENSION(:,:,:) :: VarOut CALL grid2dTo1d_mpi_igen(VarIn,VarOut,size(VarIn,3)*size(VarIn,4)) END SUBROUTINE grid2dTo1d_mpi_i2 SUBROUTINE grid2dTo1d_mpi_i3(VarIn,VarOut) IMPLICIT NONE INTEGER,INTENT(IN),DIMENSION(:,:,:,:,:) :: VarIn INTEGER,INTENT(OUT),DIMENSION(:,:,:,:) :: VarOut CALL grid2dTo1d_mpi_igen(VarIn,VarOut,size(VarIn,3)*size(VarIn,4)*size(VarIn,5)) END SUBROUTINE grid2dTo1d_mpi_i3 SUBROUTINE grid2dTo1d_mpi_r(VarIn,VarOut) IMPLICIT NONE REAL,INTENT(IN),DIMENSION(:,:) :: VarIn REAL,INTENT(OUT),DIMENSION(:) :: VarOut CALL grid2dTo1d_mpi_rgen(VarIn,VarOut,1) END SUBROUTINE grid2dTo1d_mpi_r SUBROUTINE grid2dTo1d_mpi_r1(VarIn,VarOut) IMPLICIT NONE REAL,INTENT(IN),DIMENSION(:,:,:) :: VarIn REAL,INTENT(OUT),DIMENSION(:,:) :: VarOut CALL grid2dTo1d_mpi_rgen(VarIn,VarOut,size(VarIn,3)) END SUBROUTINE grid2dTo1d_mpi_r1 SUBROUTINE grid2dTo1d_mpi_r2(VarIn,VarOut) IMPLICIT NONE REAL,INTENT(IN),DIMENSION(:,:,:,:) :: VarIn REAL,INTENT(OUT),DIMENSION(:,:,:) :: VarOut CALL grid2dTo1d_mpi_rgen(VarIn,VarOut,size(VarIn,3)*size(VarIn,4)) END SUBROUTINE grid2dTo1d_mpi_r2 SUBROUTINE grid2dTo1d_mpi_r3(VarIn,VarOut) IMPLICIT NONE REAL,INTENT(IN),DIMENSION(:,:,:,:,:) :: VarIn REAL,INTENT(OUT),DIMENSION(:,:,:,:) :: VarOut CALL grid2dTo1d_mpi_rgen(VarIn,VarOut,size(VarIn,3)*size(VarIn,4)*size(VarIn,5)) END SUBROUTINE grid2dTo1d_mpi_r3 SUBROUTINE grid2dTo1d_mpi_l(VarIn,VarOut) IMPLICIT NONE LOGICAL,INTENT(IN),DIMENSION(:,:) :: VarIn LOGICAL,INTENT(OUT),DIMENSION(:) :: VarOut CALL grid2dTo1d_mpi_lgen(VarIn,VarOut,1) END SUBROUTINE grid2dTo1d_mpi_l SUBROUTINE grid2dTo1d_mpi_l1(VarIn,VarOut) IMPLICIT NONE LOGICAL,INTENT(IN),DIMENSION(:,:,:) :: VarIn LOGICAL,INTENT(OUT),DIMENSION(:,:) :: VarOut CALL grid2dTo1d_mpi_lgen(VarIn,VarOut,size(VarIn,3)) END SUBROUTINE grid2dTo1d_mpi_l1 SUBROUTINE grid2dTo1d_mpi_l2(VarIn,VarOut) IMPLICIT NONE LOGICAL,INTENT(IN),DIMENSION(:,:,:,:) :: VarIn LOGICAL,INTENT(OUT),DIMENSION(:,:,:) :: VarOut CALL grid2dTo1d_mpi_lgen(VarIn,VarOut,size(VarIn,3)*size(VarIn,4)) END SUBROUTINE grid2dTo1d_mpi_l2 SUBROUTINE grid2dTo1d_mpi_l3(VarIn,VarOut) IMPLICIT NONE LOGICAL,INTENT(IN),DIMENSION(:,:,:,:,:) :: VarIn LOGICAL,INTENT(OUT),DIMENSION(:,:,:,:) :: VarOut CALL grid2dTo1d_mpi_lgen(VarIn,VarOut,size(VarIn,3)*size(VarIn,4)*size(VarIn,5)) END SUBROUTINE grid2dTo1d_mpi_l3 !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!! !! DEFINITION DES FONCTIONS DE TRANSFERT GENERIQUES ! !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!! SUBROUTINE bcast_mpi_cgen(var,nb) USE mod_phys_lmdz_mpi_data , mpi_root_x=>mpi_root IMPLICIT NONE CHARACTER(LEN=*),INTENT(INOUT) :: Var INTEGER,INTENT(IN) :: nb #ifdef CPP_MPI INCLUDE 'mpif.h' #endif INTEGER :: ierr IF (.not.is_using_mpi) RETURN #ifdef CPP_MPI CALL MPI_BCAST(Var,nb,MPI_CHARACTER,mpi_root_x,COMM_LMDZ_PHY,ierr) #endif END SUBROUTINE bcast_mpi_cgen SUBROUTINE bcast_mpi_igen(var,nb) USE mod_phys_lmdz_mpi_data , mpi_root_x=>mpi_root IMPLICIT NONE INTEGER,DIMENSION(nb),INTENT(INOUT) :: Var INTEGER,INTENT(IN) :: nb #ifdef CPP_MPI INCLUDE 'mpif.h' #endif INTEGER :: ierr IF (.not.is_using_mpi) RETURN #ifdef CPP_MPI CALL MPI_BCAST(Var,nb,MPI_INTEGER,mpi_root_x,COMM_LMDZ_PHY,ierr) #endif END SUBROUTINE bcast_mpi_igen SUBROUTINE bcast_mpi_rgen(var,nb) USE mod_phys_lmdz_mpi_data , mpi_root_x=>mpi_root IMPLICIT NONE REAL,DIMENSION(nb),INTENT(INOUT) :: Var INTEGER,INTENT(IN) :: nb #ifdef CPP_MPI INCLUDE 'mpif.h' #endif INTEGER :: ierr IF (.not.is_using_mpi) RETURN #ifdef CPP_MPI CALL MPI_BCAST(Var,nb,MPI_REAL_LMDZ,mpi_root_x,COMM_LMDZ_PHY,ierr) #endif END SUBROUTINE bcast_mpi_rgen SUBROUTINE bcast_mpi_lgen(var,nb) USE mod_phys_lmdz_mpi_data , mpi_root_x=>mpi_root IMPLICIT NONE LOGICAL,DIMENSION(nb),INTENT(INOUT) :: Var INTEGER,INTENT(IN) :: nb #ifdef CPP_MPI INCLUDE 'mpif.h' #endif INTEGER :: ierr IF (.not.is_using_mpi) RETURN #ifdef CPP_MPI CALL MPI_BCAST(Var,nb,MPI_LOGICAL,mpi_root_x,COMM_LMDZ_PHY,ierr) #endif END SUBROUTINE bcast_mpi_lgen SUBROUTINE scatter_mpi_igen(VarIn, VarOut, dimsize) USE mod_phys_lmdz_mpi_data , mpi_root_x=>mpi_root USE mod_grid_phy_lmdz IMPLICIT NONE INTEGER,INTENT(IN) :: dimsize INTEGER,INTENT(IN),DIMENSION(klon_glo,dimsize) :: VarIn INTEGER,INTENT(OUT),DIMENSION(klon_mpi,dimsize) :: VarOut #ifdef CPP_MPI INCLUDE 'mpif.h' #endif INTEGER,DIMENSION(0:mpi_size-1) :: displs INTEGER,DIMENSION(0:mpi_size-1) :: counts INTEGER,DIMENSION(dimsize*klon_glo) :: VarTmp INTEGER :: nb,i,index,rank INTEGER :: ierr IF (.not.is_using_mpi) THEN VarOut(:,:)=VarIn(:,:) RETURN ENDIF IF (is_mpi_root) THEN Index=1 DO rank=0,mpi_size-1 nb=klon_mpi_para_nb(rank) displs(rank)=Index-1 counts(rank)=nb*dimsize DO i=1,dimsize VarTmp(Index:Index+nb-1)=VarIn(klon_mpi_para_begin(rank):klon_mpi_para_end(rank),i) Index=Index+nb ENDDO ENDDO ENDIF #ifdef CPP_MPI CALL MPI_SCATTERV(VarTmp,counts,displs,MPI_INTEGER,VarOut,klon_mpi*dimsize, & MPI_INTEGER,mpi_root_x, COMM_LMDZ_PHY,ierr) #endif END SUBROUTINE scatter_mpi_igen SUBROUTINE scatter_mpi_rgen(VarIn, VarOut, dimsize) USE mod_phys_lmdz_mpi_data , mpi_root_x=>mpi_root USE mod_grid_phy_lmdz IMPLICIT NONE INTEGER,INTENT(IN) :: dimsize REAL,INTENT(IN),DIMENSION(klon_glo,dimsize) :: VarIn REAL,INTENT(OUT),DIMENSION(klon_mpi,dimsize) :: VarOut #ifdef CPP_MPI INCLUDE 'mpif.h' #endif INTEGER,DIMENSION(0:mpi_size-1) :: displs INTEGER,DIMENSION(0:mpi_size-1) :: counts REAL,DIMENSION(dimsize*klon_glo) :: VarTmp INTEGER :: nb,i,index,rank INTEGER :: ierr IF (.not.is_using_mpi) THEN VarOut(:,:)=VarIn(:,:) RETURN ENDIF IF (is_mpi_root) THEN Index=1 DO rank=0,mpi_size-1 nb=klon_mpi_para_nb(rank) displs(rank)=Index-1 counts(rank)=nb*dimsize DO i=1,dimsize VarTmp(Index:Index+nb-1)=VarIn(klon_mpi_para_begin(rank):klon_mpi_para_end(rank),i) Index=Index+nb ENDDO ENDDO ENDIF #ifdef CPP_MPI CALL MPI_SCATTERV(VarTmp,counts,displs,MPI_REAL_LMDZ,VarOut,klon_mpi*dimsize, & MPI_REAL_LMDZ,mpi_root_x, COMM_LMDZ_PHY,ierr) #endif END SUBROUTINE scatter_mpi_rgen SUBROUTINE scatter_mpi_lgen(VarIn, VarOut, dimsize) USE mod_phys_lmdz_mpi_data , mpi_root_x=>mpi_root USE mod_grid_phy_lmdz IMPLICIT NONE INTEGER,INTENT(IN) :: dimsize LOGICAL,INTENT(IN),DIMENSION(klon_glo,dimsize) :: VarIn LOGICAL,INTENT(OUT),DIMENSION(klon_mpi,dimsize) :: VarOut #ifdef CPP_MPI INCLUDE 'mpif.h' #endif INTEGER,DIMENSION(0:mpi_size-1) :: displs INTEGER,DIMENSION(0:mpi_size-1) :: counts LOGICAL,DIMENSION(dimsize*klon_glo) :: VarTmp INTEGER :: nb,i,index,rank INTEGER :: ierr IF (.not.is_using_mpi) THEN VarOut(:,:)=VarIn(:,:) RETURN ENDIF IF (is_mpi_root) THEN Index=1 DO rank=0,mpi_size-1 nb=klon_mpi_para_nb(rank) displs(rank)=Index-1 counts(rank)=nb*dimsize DO i=1,dimsize VarTmp(Index:Index+nb-1)=VarIn(klon_mpi_para_begin(rank):klon_mpi_para_end(rank),i) Index=Index+nb ENDDO ENDDO ENDIF #ifdef CPP_MPI CALL MPI_SCATTERV(VarTmp,counts,displs,MPI_LOGICAL,VarOut,klon_mpi*dimsize, & MPI_LOGICAL,mpi_root_x, COMM_LMDZ_PHY,ierr) #endif END SUBROUTINE scatter_mpi_lgen SUBROUTINE gather_mpi_igen(VarIn, VarOut, dimsize) USE mod_phys_lmdz_mpi_data , mpi_root_x=>mpi_root USE mod_grid_phy_lmdz IMPLICIT NONE #ifdef CPP_MPI INCLUDE 'mpif.h' #endif INTEGER,INTENT(IN) :: dimsize INTEGER,INTENT(IN),DIMENSION(klon_mpi,dimsize) :: VarIn INTEGER,INTENT(OUT),DIMENSION(klon_glo,dimsize) :: VarOut INTEGER,DIMENSION(0:mpi_size-1) :: displs INTEGER,DIMENSION(0:mpi_size-1) :: counts INTEGER,DIMENSION(dimsize*klon_glo) :: VarTmp INTEGER :: nb,i,index,rank INTEGER :: ierr IF (.not.is_using_mpi) THEN VarOut(:,:)=VarIn(:,:) RETURN ENDIF IF (is_mpi_root) THEN Index=1 DO rank=0,mpi_size-1 nb=klon_mpi_para_nb(rank) displs(rank)=Index-1 counts(rank)=nb*dimsize Index=Index+nb*dimsize ENDDO ENDIF #ifdef CPP_MPI CALL MPI_GATHERV(VarIn,klon_mpi*dimsize,MPI_INTEGER,VarTmp,counts,displs, & MPI_INTEGER,mpi_root_x, COMM_LMDZ_PHY,ierr) #endif IF (is_mpi_root) THEN Index=1 DO rank=0,mpi_size-1 nb=klon_mpi_para_nb(rank) DO i=1,dimsize VarOut(klon_mpi_para_begin(rank):klon_mpi_para_end(rank),i)=VarTmp(Index:Index+nb-1) Index=Index+nb ENDDO ENDDO ENDIF END SUBROUTINE gather_mpi_igen SUBROUTINE gather_mpi_rgen(VarIn, VarOut, dimsize) USE mod_phys_lmdz_mpi_data , mpi_root_x=>mpi_root USE mod_grid_phy_lmdz IMPLICIT NONE #ifdef CPP_MPI INCLUDE 'mpif.h' #endif INTEGER,INTENT(IN) :: dimsize REAL,INTENT(IN),DIMENSION(klon_mpi,dimsize) :: VarIn REAL,INTENT(OUT),DIMENSION(klon_glo,dimsize) :: VarOut INTEGER,DIMENSION(0:mpi_size-1) :: displs INTEGER,DIMENSION(0:mpi_size-1) :: counts REAL,DIMENSION(dimsize*klon_glo) :: VarTmp INTEGER :: nb,i,index,rank INTEGER :: ierr IF (is_mpi_root) THEN Index=1 DO rank=0,mpi_size-1 nb=klon_mpi_para_nb(rank) displs(rank)=Index-1 counts(rank)=nb*dimsize Index=Index+nb*dimsize ENDDO ENDIF IF (.not.is_using_mpi) THEN VarOut(:,:)=VarIn(:,:) RETURN ENDIF #ifdef CPP_MPI CALL MPI_GATHERV(VarIn,klon_mpi*dimsize,MPI_REAL_LMDZ,VarTmp,counts,displs, & MPI_REAL_LMDZ,mpi_root_x, COMM_LMDZ_PHY,ierr) #endif IF (is_mpi_root) THEN Index=1 DO rank=0,mpi_size-1 nb=klon_mpi_para_nb(rank) DO i=1,dimsize VarOut(klon_mpi_para_begin(rank):klon_mpi_para_end(rank),i)=VarTmp(Index:Index+nb-1) Index=Index+nb ENDDO ENDDO ENDIF END SUBROUTINE gather_mpi_rgen SUBROUTINE gather_mpi_lgen(VarIn, VarOut, dimsize) USE mod_phys_lmdz_mpi_data , mpi_root_x=>mpi_root USE mod_grid_phy_lmdz IMPLICIT NONE INTEGER,INTENT(IN) :: dimsize LOGICAL,INTENT(IN),DIMENSION(klon_mpi,dimsize) :: VarIn LOGICAL,INTENT(OUT),DIMENSION(klon_glo,dimsize) :: VarOut #ifdef CPP_MPI INCLUDE 'mpif.h' #endif INTEGER,DIMENSION(0:mpi_size-1) :: displs INTEGER,DIMENSION(0:mpi_size-1) :: counts LOGICAL,DIMENSION(dimsize*klon_glo) :: VarTmp INTEGER :: nb,i,index,rank INTEGER :: ierr IF (.not.is_using_mpi) THEN VarOut(:,:)=VarIn(:,:) RETURN ENDIF IF (is_mpi_root) THEN Index=1 DO rank=0,mpi_size-1 nb=klon_mpi_para_nb(rank) displs(rank)=Index-1 counts(rank)=nb*dimsize Index=Index+nb*dimsize ENDDO ENDIF #ifdef CPP_MPI CALL MPI_GATHERV(VarIn,klon_mpi*dimsize,MPI_LOGICAL,VarTmp,counts,displs, & MPI_LOGICAL,mpi_root_x, COMM_LMDZ_PHY,ierr) #endif IF (is_mpi_root) THEN Index=1 DO rank=0,mpi_size-1 nb=klon_mpi_para_nb(rank) DO i=1,dimsize VarOut(klon_mpi_para_begin(rank):klon_mpi_para_end(rank),i)=VarTmp(Index:Index+nb-1) Index=Index+nb ENDDO ENDDO ENDIF END SUBROUTINE gather_mpi_lgen SUBROUTINE reduce_sum_mpi_igen(VarIn,VarOut,nb) USE mod_phys_lmdz_mpi_data , mpi_root_x=>mpi_root USE mod_grid_phy_lmdz IMPLICIT NONE #ifdef CPP_MPI INCLUDE 'mpif.h' #endif INTEGER,DIMENSION(nb),INTENT(IN) :: VarIn INTEGER,DIMENSION(nb),INTENT(OUT) :: VarOut INTEGER,INTENT(IN) :: nb INTEGER :: ierr IF (.not.is_using_mpi) THEN VarOut(:)=VarIn(:) RETURN ENDIF #ifdef CPP_MPI CALL MPI_REDUCE(VarIn,VarOut,nb,MPI_INTEGER,MPI_SUM,mpi_root_x,COMM_LMDZ_PHY,ierr) #endif END SUBROUTINE reduce_sum_mpi_igen SUBROUTINE reduce_sum_mpi_rgen(VarIn,VarOut,nb) USE mod_phys_lmdz_mpi_data , mpi_root_x=>mpi_root USE mod_grid_phy_lmdz IMPLICIT NONE #ifdef CPP_MPI INCLUDE 'mpif.h' #endif REAL,DIMENSION(nb),INTENT(IN) :: VarIn REAL,DIMENSION(nb),INTENT(OUT) :: VarOut INTEGER,INTENT(IN) :: nb INTEGER :: ierr IF (.not.is_using_mpi) THEN VarOut(:)=VarIn(:) RETURN ENDIF #ifdef CPP_MPI CALL MPI_REDUCE(VarIn,VarOut,nb,MPI_REAL_LMDZ,MPI_SUM,mpi_root_x,COMM_LMDZ_PHY,ierr) #endif END SUBROUTINE reduce_sum_mpi_rgen SUBROUTINE grid1dTo2d_mpi_igen(VarIn,VarOut,dimsize) USE mod_phys_lmdz_mpi_data USE mod_grid_phy_lmdz IMPLICIT NONE INTEGER,INTENT(IN) :: dimsize INTEGER,INTENT(IN) ,DIMENSION(klon_mpi,dimsize) :: VarIn INTEGER,INTENT(OUT),DIMENSION(nbp_lon*jj_nb,dimsize) :: VarOut INTEGER :: i,ij,Offset VarOut(1:nbp_lon,:)=0 VarOut(nbp_lon*(jj_nb-1)+1:nbp_lon*jj_nb,:)=0 offset=ii_begin IF (is_north_pole) Offset=nbp_lon DO i=1,dimsize DO ij=1,klon_mpi VarOut(ij+offset-1,i)=VarIn(ij,i) ENDDO ENDDO IF (is_north_pole) THEN DO i=1,dimsize DO ij=1,nbp_lon VarOut(ij,i)=VarIn(1,i) ENDDO ENDDO ENDIF IF (is_south_pole) THEN DO i=1,dimsize DO ij=nbp_lon*(jj_nb-1)+1,nbp_lon*jj_nb VarOut(ij,i)=VarIn(klon_mpi,i) ENDDO ENDDO ENDIF END SUBROUTINE grid1dTo2d_mpi_igen SUBROUTINE grid1dTo2d_mpi_rgen(VarIn,VarOut,dimsize) USE mod_phys_lmdz_mpi_data USE mod_grid_phy_lmdz IMPLICIT NONE INTEGER,INTENT(IN) :: dimsize REAL,INTENT(IN) ,DIMENSION(klon_mpi,dimsize) :: VarIn REAL,INTENT(OUT),DIMENSION(nbp_lon*jj_nb,dimsize) :: VarOut INTEGER :: i,ij,Offset VarOut(1:nbp_lon,:)=0 VarOut(nbp_lon*(jj_nb-1)+1:nbp_lon*jj_nb,:)=0 offset=ii_begin IF (is_north_pole) Offset=nbp_lon DO i=1,dimsize DO ij=1,klon_mpi VarOut(ij+offset-1,i)=VarIn(ij,i) ENDDO ENDDO IF (is_north_pole) THEN DO i=1,dimsize DO ij=1,nbp_lon VarOut(ij,i)=VarIn(1,i) ENDDO ENDDO ENDIF IF (is_south_pole) THEN DO i=1,dimsize DO ij=nbp_lon*(jj_nb-1)+1,nbp_lon*jj_nb VarOut(ij,i)=VarIn(klon_mpi,i) ENDDO ENDDO ENDIF END SUBROUTINE grid1dTo2d_mpi_rgen SUBROUTINE grid1dTo2d_mpi_lgen(VarIn,VarOut,dimsize) USE mod_phys_lmdz_mpi_data USE mod_grid_phy_lmdz IMPLICIT NONE INTEGER,INTENT(IN) :: dimsize LOGICAL,INTENT(IN) ,DIMENSION(klon_mpi,dimsize) :: VarIn LOGICAL,INTENT(OUT),DIMENSION(nbp_lon*jj_nb,dimsize) :: VarOut INTEGER :: i,ij,Offset VarOut(1:nbp_lon,:)=.FALSE. VarOut(nbp_lon*(jj_nb-1)+1:nbp_lon*jj_nb,:)=.FALSE. offset=ii_begin IF (is_north_pole) Offset=nbp_lon DO i=1,dimsize DO ij=1,klon_mpi VarOut(ij+offset-1,i)=VarIn(ij,i) ENDDO ENDDO IF (is_north_pole) THEN DO i=1,dimsize DO ij=1,nbp_lon VarOut(ij,i)=VarIn(1,i) ENDDO ENDDO ENDIF IF (is_south_pole) THEN DO i=1,dimsize DO ij=nbp_lon*(jj_nb-1)+1,nbp_lon*jj_nb VarOut(ij,i)=VarIn(klon_mpi,i) ENDDO ENDDO ENDIF END SUBROUTINE grid1dTo2d_mpi_lgen SUBROUTINE grid2dTo1d_mpi_igen(VarIn,VarOut,dimsize) USE mod_phys_lmdz_mpi_data USE mod_grid_phy_lmdz IMPLICIT NONE INTEGER,INTENT(IN) :: dimsize INTEGER,INTENT(IN) ,DIMENSION(nbp_lon*jj_nb,dimsize) :: VarIn INTEGER,INTENT(OUT),DIMENSION(klon_mpi,dimsize) :: VarOut INTEGER :: i,ij,offset offset=ii_begin IF (is_north_pole) offset=nbp_lon DO i=1,dimsize DO ij=1,klon_mpi VarOut(ij,i)=VarIn(ij+offset-1,i) ENDDO ENDDO IF (is_north_pole) THEN DO i=1,dimsize VarOut(1,i)=VarIn(1,i) ENDDO ENDIF END SUBROUTINE grid2dTo1d_mpi_igen SUBROUTINE grid2dTo1d_mpi_rgen(VarIn,VarOut,dimsize) USE mod_phys_lmdz_mpi_data USE mod_grid_phy_lmdz IMPLICIT NONE INTEGER,INTENT(IN) :: dimsize REAL,INTENT(IN) ,DIMENSION(nbp_lon*jj_nb,dimsize) :: VarIn REAL,INTENT(OUT),DIMENSION(klon_mpi,dimsize) :: VarOut INTEGER :: i,ij,offset offset=ii_begin IF (is_north_pole) offset=nbp_lon DO i=1,dimsize DO ij=1,klon_mpi VarOut(ij,i)=VarIn(ij+offset-1,i) ENDDO ENDDO IF (is_north_pole) THEN DO i=1,dimsize VarOut(1,i)=VarIn(1,i) ENDDO ENDIF END SUBROUTINE grid2dTo1d_mpi_rgen SUBROUTINE grid2dTo1d_mpi_lgen(VarIn,VarOut,dimsize) USE mod_phys_lmdz_mpi_data USE mod_grid_phy_lmdz IMPLICIT NONE INTEGER,INTENT(IN) :: dimsize LOGICAL,INTENT(IN) ,DIMENSION(nbp_lon*jj_nb,dimsize) :: VarIn LOGICAL,INTENT(OUT),DIMENSION(klon_mpi,dimsize) :: VarOut INTEGER :: i,ij,offset offset=ii_begin IF (is_north_pole) offset=nbp_lon DO i=1,dimsize DO ij=1,klon_mpi VarOut(ij,i)=VarIn(ij+offset-1,i) ENDDO ENDDO IF (is_north_pole) THEN DO i=1,dimsize VarOut(1,i)=VarIn(1,i) ENDDO ENDIF END SUBROUTINE grid2dTo1d_mpi_lgen END MODULE mod_phys_lmdz_mpi_transfert