module write_field_p implicit none interface WriteField_p module procedure Write_field3d_p,Write_Field2d_p,Write_Field1d_p end interface WriteField_p contains SUBROUTINE write_field1D_p(name,Field) USE parallel_lmdz USE write_field implicit none integer, parameter :: MaxDim=1 character(len=*) :: name real, dimension(:) :: Field real, dimension(:),allocatable :: New_Field integer, dimension(MaxDim) :: Dim Dim=shape(Field) allocate(New_Field(Dim(1))) New_Field(:)=Field(:) CALL Gather_Field(New_Field,dim(1),1,0) if (MPI_Rank==0) CALL WriteField(name,New_Field) END SUBROUTINE write_field1D_p SUBROUTINE write_field2D_p(name,Field) USE parallel_lmdz USE write_field implicit none integer, parameter :: MaxDim=2 character(len=*) :: name real, dimension(:,:) :: Field real, dimension(:,:),allocatable :: New_Field integer, dimension(MaxDim) :: Dim Dim=shape(Field) allocate(New_Field(Dim(1),Dim(2))) New_Field(:,:)=Field(:,:) CALL Gather_Field(New_Field(1,1),dim(1)*dim(2),1,0) if (MPI_Rank==0) CALL WriteField(name,New_Field) END SUBROUTINE write_field2D_p SUBROUTINE write_field3D_p(name,Field) USE parallel_lmdz USE write_field implicit none integer, parameter :: MaxDim=3 character(len=*) :: name real, dimension(:,:,:) :: Field real, dimension(:,:,:),allocatable :: New_Field integer, dimension(MaxDim) :: Dim Dim=shape(Field) allocate(New_Field(Dim(1),Dim(2),Dim(3))) New_Field(:,:,:)=Field(:,:,:) CALL Gather_Field(New_Field(1,1,1),dim(1)*dim(2),dim(3),0) if (MPI_Rank==0) CALL WriteField(name,New_Field) END SUBROUTINE write_field3D_p end module write_field_p