module map_snoglc_mct 2,4
!---------------------------------------------------------------------
!
! Purpose:
!
! Collect coupling routines for sequential coupling of SNO-GLC.
!
! Author: R. Jacob, M. Vertenstein
!
!---------------------------------------------------------------------
use shr_sys_mod
use mct_mod
use seq_cdata_mod
use seq_comm_mct
implicit none
save
private ! except
!--------------------------------------------------------------------------
! Public interfaces
!--------------------------------------------------------------------------
public :: map_sno2glc_init_mct
public :: map_glc2sno_init_mct
public :: map_sno2glc_mct
public :: map_glc2sno_mct
!--------------------------------------------------------------------------
! Public data
!--------------------------------------------------------------------------
!--------------------------------------------------------------------------
! Private data
!--------------------------------------------------------------------------
type(mct_rearr), private :: Re_sno2glc
type(mct_rearr), private :: Re_glc2sno
#ifdef CPP_VECTOR
logical :: usevector = .true.
#else
logical :: usevector = .false.
#endif
#ifdef SYSUNICOS
logical :: usealltoall = .true.
#else
logical :: usealltoall = .false.
#endif
character(*),parameter :: subName = '(map_snoglc_mct)'
!=======================================================================
contains
!=======================================================================
subroutine map_glc2sno_init_mct( cdata_g, cdata_s) 1,4
!-----------------------------------------------------
!
! Arguments
!
type(seq_cdata),intent(in) :: cdata_g
type(seq_cdata),intent(in) :: cdata_s
!
! Local Variables
!
integer :: glcsize, snosize ! global grid sizes
type(mct_gsMap), pointer :: gsMap_s ! sno gsMap
type(mct_gsMap), pointer :: gsMap_g ! glc gsMap
integer :: mpicom ! communicator spanning glc and sno
!-----------------------------------------------------
call seq_cdata_setptrs(cdata_g, gsMap=gsMap_g)
call seq_cdata_setptrs(cdata_s, gsMap=gsMap_s)
call seq_cdata_setptrs(cdata_g, mpicom=mpicom)
! Sanity check
glcsize = mct_gsMap_gsize(gsMap_g)
snosize = mct_gsMap_gsize(gsMap_s)
if (glcsize /= snosize) then
write(logunit,*) "(map_glc2sno_init_mct) sno and glc are different."
write(logunit,*) "(map_glc2sno_init_mct) Must be same size. Exiting."
call shr_sys_abort(subName // "different size")
endif
! Initialize rearranger
call mct_rearr_init(gsMap_g, gsMap_s, mpicom, Re_glc2sno)
end subroutine map_glc2sno_init_mct
!=============================================================
subroutine map_sno2glc_init_mct( cdata_s, cdata_g) 1,4
!---------------------------------------------
!
! Arguments
!
type(seq_cdata),intent(in) :: cdata_s
type(seq_cdata),intent(in) :: cdata_g
!
! Local Variables
!
integer :: glcsize, snosize ! global grid sizes
type(mct_gsMap), pointer :: gsMap_s ! sno gsMap
type(mct_gsMap), pointer :: gsMap_g ! glc gsMap
integer :: mpicom ! communicator spanning glc and sno
integer :: ka, km ! indsnos
type(mct_gGrid), pointer :: dom_s ! sno domain
type(mct_gGrid), pointer :: dom_g ! glc domain
integer :: lsize ! size of attribute vector
type(mct_aVect) :: areasrc ! glc areas from mapping file
type(mct_aVect) :: areadst ! sno areas from mapping file
!---------------------------------------------
call seq_cdata_setptrs(cdata_s, gsMap=gsMap_s, dom=dom_s)
call seq_cdata_setptrs(cdata_g, gsMap=gsMap_g, dom=dom_g)
call seq_cdata_setptrs(cdata_g, mpicom=mpicom)
! Sanity check
glcsize = mct_gsMap_gsize(gsMap_g)
snosize = mct_gsMap_gsize(gsMap_s)
if (glcsize /= snosize) then
write(logunit,*) "(map_sno2glc_init_mct) glc and sno grids are different."
write(logunit,*) "(map_sno2glc_init_mct) Must be the same....Exiting."
call shr_sys_abort(subName // "different glc,sno grids")
endif
! Initialize rearranger
call mct_rearr_init(gsMap_s, gsMap_g, mpicom, Re_sno2glc)
! Set glc aream to sno aream
! Note that "aream" attribute of dom_s%data is set in routine map_atm2sno_init_mct
lsize = mct_gsMap_lsize(gsMap_s, mpicom)
call mct_aVect_init( areasrc, rList="aream", lsize=lsize )
lsize = mct_gsMap_lsize(gsMap_g, mpicom)
call mct_aVect_init( areadst, rList="aream", lsize=lsize )
km = mct_aVect_indexRA(dom_s%data,"aream")
ka = mct_aVect_indexRA(areasrc ,"aream")
areasrc%rAttr(ka,:) = dom_s%data%rAttr(km,:)
! tcraig, 6/2010, initialize areadst with dom_g km because areasrc is only over land
ka = mct_aVect_indexRA(areadst ,"aream")
km = mct_aVect_indexRA(dom_g%data,"aream")
areadst%rAttr(ka,:) = dom_g%data%rAttr(km,:)
call mct_rearr_rearrange(areasrc, areadst, Re_sno2glc, VECTOR=usevector, ALLTOALL=usealltoall)
ka = mct_aVect_indexRA(areadst ,"aream")
km = mct_aVect_indexRA(dom_g%data,"aream")
dom_g%data%rAttr(km,:) = areadst%rAttr(ka,:)
call mct_aVect_clean(areasrc)
call mct_aVect_clean(areadst)
end subroutine map_sno2glc_init_mct
!=======================================================================
subroutine map_glc2sno_mct( cdata_g, av_g, cdata_s, av_s, fluxlist, statelist ) 1,2
!-----------------------------------------------------
!
! Arguments
!
type(seq_cdata),intent(in) :: cdata_g
type(mct_aVect),intent(in) :: av_g
type(seq_cdata),intent(in) :: cdata_s
type(mct_aVect),intent(out):: av_s
character(len=*),intent(in), optional :: fluxlist
character(len=*),intent(in), optional :: statelist
!-----------------------------------------------------
if (present(fluxlist) .or. present(statelist)) then
if (present(fluxlist)) then
call mct_rearr_rearrange_fldlist(av_g, av_s, Re_glc2sno, VECTOR=usevector, &
ALLTOALL=usealltoall, fldlist=fluxlist)
endif
if (present(statelist)) then
call mct_rearr_rearrange_fldlist(av_g, av_s, Re_glc2sno, VECTOR=usevector, &
ALLTOALL=usealltoall, fldlist=statelist)
endif
else
call mct_rearr_rearrange(av_g, av_s, Re_glc2sno, VECTOR=usevector, ALLTOALL=usealltoall)
end if
end subroutine map_glc2sno_mct
!=======================================================================
subroutine map_sno2glc_mct( cdata_s, av_s, cdata_g, av_g, fluxlist, statelist) 2,2
!-----------------------------------------------------
!
! Arguments
!
type(seq_cdata),intent(in) :: cdata_s
type(mct_aVect),intent(in) :: av_s
type(seq_cdata),intent(in) :: cdata_g
type(mct_aVect),intent(out):: av_g
character(len=*),intent(in), optional :: fluxlist
character(len=*),intent(in), optional :: statelist
!-----------------------------------------------------
if (present(fluxlist) .or. present(statelist)) then
if (present(fluxlist)) then
call mct_rearr_rearrange_fldlist(av_s, av_g, Re_sno2glc, VECTOR=usevector, &
ALLTOALL=usealltoall, fldlist=fluxlist)
endif
if (present(statelist)) then
call mct_rearr_rearrange_fldlist(av_s, av_g, Re_sno2glc, VECTOR=usevector, &
ALLTOALL=usealltoall, fldlist=statelist)
endif
else
call mct_rearr_rearrange(av_s, av_g, Re_sno2glc, VECTOR=usevector, ALLTOALL=usealltoall)
end if
end subroutine map_sno2glc_mct
end module map_snoglc_mct