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module_polarfft.F
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MODULE module_polarfft
USE module_model_constants
USE module_wrf_error
CHARACTER (LEN=256) , PRIVATE :: a_message
CONTAINS
SUBROUTINE couple_scalars_for_filter ( field &
,mu,mub,c1,c2 &
,ids,ide,jds,jde,kds,kde &
,ims,ime,jms,jme,kms,kme &
,ips,ipe,jps,jpe,kps,kpe )
IMPLICIT NONE
INTEGER, INTENT(IN) :: ids,ide,jds,jde,kds,kde &
,ims,ime,jms,jme,kms,kme &
,ips,ipe,jps,jpe,kps,kpe
REAL , DIMENSION(ims:ime,kms:kme,jms:jme) , INTENT(INOUT) :: field
REAL , DIMENSION(ims:ime,jms:jme) , INTENT(IN) :: mu,mub
REAL , DIMENSION(kms:kme) , INTENT(IN) :: c1,c2
INTEGER :: i , j , k
DO j = jps, MIN(jpe,jde-1)
DO k = kps, kpe-1
DO i = ips, MIN(ipe,ide-1)
field(i,k,j)=field(i,k,j)*( (c1(k)*mu(i,j))+(c1(k)*mub(i,j)+c2(k)))
END DO
END DO
END DO
END SUBROUTINE couple_scalars_for_filter
SUBROUTINE uncouple_scalars_for_filter ( field &
,mu,mub,c1,c2 &
,ids,ide,jds,jde,kds,kde &
,ims,ime,jms,jme,kms,kme &
,ips,ipe,jps,jpe,kps,kpe )
IMPLICIT NONE
INTEGER, INTENT(IN) :: ids,ide,jds,jde,kds,kde &
,ims,ime,jms,jme,kms,kme &
,ips,ipe,jps,jpe,kps,kpe
REAL , DIMENSION(ims:ime,kms:kme,jms:jme) , INTENT(INOUT) :: field
REAL , DIMENSION(ims:ime,jms:jme) , INTENT(IN) :: mu,mub
REAL , DIMENSION(kms:kme) , INTENT(IN) :: c1,c2
INTEGER :: i , j , k
DO j = jps, MIN(jpe,jde-1)
DO k = kps, kpe-1
DO i = ips, MIN(ipe,ide-1)
field(i,k,j)=field(i,k,j)/( (c1(k)*mu(i,j))+(c1(k)*mub(i,j)+c2(k)))
END DO
END DO
END DO
END SUBROUTINE uncouple_scalars_for_filter
SUBROUTINE pxft ( grid &
,lineno &
,flag_uv,flag_rurv &
,flag_wph,flag_ww &
,flag_t &
,flag_mu,flag_mut &
,flag_moist &
,flag_chem &
,flag_tracer &
,flag_scalar &
,fft_filter_lat, dclat &
,actual_distance_average &
,pos_def &
,swap_pole_with_next_j &
,moist,chem,tracer,scalar &
,ids,ide,jds,jde,kds,kde &
,ims,ime,jms,jme,kms,kme &
,ips,ipe,jps,jpe,kps,kpe &
,imsx,imex,jmsx,jmex,kmsx,kmex &
,ipsx,ipex,jpsx,jpex,kpsx,kpex )
USE module_state_description
USE module_domain, ONLY : domain
#ifdef DM_PARALLEL
USE module_dm, ONLY : local_communicator, mytask, ntasks, ntasks_x, ntasks_y &
, local_communicator_periodic, itrace &
, local_communicator_x
USE module_driver_constants
#if 0
USE module_comm_dm, ONLY : &
XPOSE_POLAR_FILTER_V_z2x_sub &
,XPOSE_POLAR_FILTER_V_x2z_sub &
,XPOSE_POLAR_FILTER_U_z2x_sub &
,XPOSE_POLAR_FILTER_U_x2z_sub &
,XPOSE_POLAR_FILTER_T_z2x_sub &
,XPOSE_POLAR_FILTER_T_x2z_sub &
,XPOSE_POLAR_FILTER_W_z2x_sub &
,XPOSE_POLAR_FILTER_W_x2z_sub &
,XPOSE_POLAR_FILTER_PH_z2x_sub &
,XPOSE_POLAR_FILTER_PH_x2z_sub &
,XPOSE_POLAR_FILTER_WW_z2x_sub &
,XPOSE_POLAR_FILTER_WW_x2z_sub &
,XPOSE_POLAR_FILTER_RV_z2x_sub &
,XPOSE_POLAR_FILTER_RV_x2z_sub &
,XPOSE_POLAR_FILTER_RU_z2x_sub &
,XPOSE_POLAR_FILTER_RU_x2z_sub &
,XPOSE_POLAR_FILTER_MOIST_z2x_sub &
,XPOSE_POLAR_FILTER_MOIST_x2z_sub &
,XPOSE_POLAR_FILTER_CHEM_z2x_sub &
,XPOSE_POLAR_FILTER_MOIST_x2z_sub &
,XPOSE_POLAR_FILTER_TRACER_z2x_sub &
,XPOSE_POLAR_FILTER_TRACER_x2z_sub &
,XPOSE_POLAR_FILTER_SCALAR_z2x_sub &
,XPOSE_POLAR_FILTER_SCALAR_x2z_sub
#endif
#else
USE module_dm
#endif
IMPLICIT NONE
! Input data.
TYPE(domain) , TARGET :: grid
integer, intent(in) :: lineno
integer myproc, i, j, k
LOGICAL, INTENT(IN) :: actual_distance_average
LOGICAL, INTENT(IN) :: pos_def
LOGICAL, INTENT(IN) :: swap_pole_with_next_j
INTEGER, INTENT(IN) :: ids,ide,jds,jde,kds,kde &
,ims,ime,jms,jme,kms,kme &
,ips,ipe,jps,jpe,kps,kpe &
,imsx,imex,jmsx,jmex,kmsx,kmex &
,ipsx,ipex,jpsx,jpex,kpsx,kpex
REAL , INTENT(IN) :: fft_filter_lat
REAL, INTENT(IN) :: dclat
INTEGER, INTENT(IN) :: flag_uv &
,flag_rurv &
,flag_ww &
,flag_t,flag_wph &
,flag_mu,flag_mut &
,flag_moist &
,flag_chem &
,flag_tracer &
,flag_scalar
REAL, DIMENSION(ims:ime,kms:kme,jms:jme,*) , INTENT(INOUT) :: moist, chem, scalar,tracer
! Local
LOGICAL piggyback_mu, piggyback_mut
INTEGER ij, k_end
#ifdef DM_PARALLEL
#else
INTEGER itrace
#endif
piggyback_mu = flag_mu .EQ. 1
piggyback_mut = flag_mut .EQ. 1
!<DESCRIPTION>
!
! The idea is that this parallel transpose fft routine can be
! called at various points in the solver (solve_em) and it will filter
! the correct fields based on the flag arguments. There are two 2d
! fields mu_2 and mut that may need to be filtered too. Since a two-d
! parallel transpose would be inefficient and because the fields that are
! not staggered in z have an extra layer anyway, these can be
! piggybacked. This is handled using latches to makes sure that *somebody*
! carries one or both of these on their back through the filtering and then
! copies them back afterwards. IMPORTANT NOTE: for simplicity, this routine
! is not completely general. It makes the following assumptions:
!
! 1) If both flag_mu and flag_mut are specified then flag_uv is also specified
!
! 2) If flag_uv is not specified, then only flag_mu and not flag_mut can be
!
! 3) If flag_mu is specified than either flag_uv or flag_t must be
!
! This is designed to keep the clutter to a minimum in solve_em.
! This is not intended to be a general abstraction of the polar filtering
! calls in in WRF solvers or if the solve_em algorithms change.
! If the needs of the calling solver change, this logic may have to be
! rewritten.
!
!</DESCRIPTION>
!write(0,*)"<stdin>",__LINE__,' short circuit '
!return
!write(0,*)'pxft called from ',lineno
call wrf_get_myproc(myproc)
!write(20+myproc,*)ipex-ipsx+1,jpex-jpsx+1,' clat_xxx '
!do j = jpsx, jpex
!do i = ipsx, ipex
!write(20+myproc,*)grid%clat_xxx(i,j)
!enddo
!enddo
!!!!!!!!!!!!!!!!!!!!!!!
! U & V
IF ( flag_uv .EQ. 1 ) THEN
IF ( piggyback_mu ) THEN
grid%u_2(ips:ipe,kde,jps:jpe) = grid%mu_2(ips:ipe,jps:jpe)
ENDIF
#if ( defined( DM_PARALLEL ) && ( ! defined( STUBMPI ) ) )
# include "XPOSE_POLAR_FILTER_V_z2x.inc"
CALL polar_filter_3d( grid%v_xxx, grid%clat_xxx, .false., &
fft_filter_lat, dclat, &
ids, ide, jds, jde, kds, kde-1, &
imsx, imex, jmsx, jmex, kmsx, kmex, &
ipsx, ipex, jpsx, jpex, kpsx, MIN(kde-1,kpex ) )
# include "XPOSE_POLAR_FILTER_V_x2z.inc"
# include "XPOSE_POLAR_FILTER_U_z2x.inc"
k_end = MIN(kde-1,kpex)
IF ( piggyback_mu ) k_end = MIN(kde,kpex)
CALL polar_filter_3d( grid%u_xxx, grid%clat_xxx, piggyback_mu, &
fft_filter_lat, 0., &
ids, ide, jds, jde, kds, kde, &
imsx, imex, jmsx, jmex, kmsx, kmex, &
ipsx, ipex, jpsx, jpex, kpsx, k_end )
# include "XPOSE_POLAR_FILTER_U_x2z.inc"
#else
CALL polar_filter_3d( grid%v_2, grid%clat, .false., &
fft_filter_lat, dclat, &
ids, ide, jds, jde, kds, kde, &
ims, ime, jms, jme, kms, kme, &
ips, ipe, jps, jpe, kps, MIN(kde-1,kpe) )
k_end = MIN(kde-1,kpe)
IF ( piggyback_mu ) k_end = MIN(kde,kpe)
CALL polar_filter_3d( grid%u_2, grid%clat, piggyback_mu, &
fft_filter_lat, 0., &
ids, ide, jds, jde, kds, kde-1, &
ims, ime, jms, jme, kms, kme, &
ips, ipe, jps, jpe, kps, k_end )
#endif
IF ( piggyback_mu ) THEN
grid%mu_2(ips:ipe,jps:jpe) = grid%u_2(ips:ipe,kde,jps:jpe)
piggyback_mu = .FALSE.
ENDIF
ENDIF
!!!!!!!!!!!!!!!!!!!!!!!
! T
IF ( flag_t .EQ. 1 ) THEN
IF ( piggyback_mu ) THEN
grid%t_2(ips:ipe,kde,jps:jpe) = grid%mu_2(ips:ipe,jps:jpe)
ENDIF
#if ( defined( DM_PARALLEL ) && ( ! defined( STUBMPI ) ) )
# include "XPOSE_POLAR_FILTER_T_z2x.inc"
k_end = MIN(kde-1,kpex)
IF ( piggyback_mu ) k_end = MIN(kde,kpex)
CALL polar_filter_3d( grid%t_xxx, grid%clat_xxx,piggyback_mu, &
fft_filter_lat, 0., &
ids, ide, jds, jde, kds, kde-1, &
imsx, imex, jmsx, jmex, kmsx, kmex, &
ipsx, ipex, jpsx, jpex, kpsx, k_end )
IF ( actual_distance_average ) THEN
CALL filter_tracer ( grid%t_xxx , grid%clat_xxx , grid%mf_xxx , &
grid%fft_filter_lat , grid%mf_fft , &
pos_def, swap_pole_with_next_j , &
ids, ide, jds, jde, kds, kde , &
imsx, imex, jmsx, jmex, kmsx, kmex, &
ipsx, ipex, jpsx, jpex, kpsx, kpex )
END IF
# include "XPOSE_POLAR_FILTER_T_x2z.inc"
#else
k_end = MIN(kde-1,kpe)
IF ( piggyback_mu ) k_end = MIN(kde,kpe)
CALL polar_filter_3d( grid%t_2, grid%clat, piggyback_mu, &
fft_filter_lat, 0., &
ids, ide, jds, jde, kds, kde-1, &
ims, ime, jms, jme, kms, kme, &
ips, ipe, jps, jpe, kps, k_end )
IF ( actual_distance_average ) THEN
CALL filter_tracer ( grid%t_2 , grid%clat , grid%msft , &
grid%fft_filter_lat , grid%mf_fft , &
pos_def, swap_pole_with_next_j , &
ids, ide, jds, jde, kds, kde , &
ims, ime, jms, jme, kms, kme, &
ips, ipe, jps, jpe, kps, k_end )
END IF
#endif
IF ( piggyback_mu ) THEN
grid%mu_2(ips:ipe,jps:jpe) = grid%t_2(ips:ipe,kde,jps:jpe)
piggyback_mu = .FALSE.
ENDIF
ENDIF
!!!!!!!!!!!!!!!!!!!!!!!
! W and PH
IF ( flag_wph .EQ. 1 ) THEN
! W AND PH USE ALL LEVELS SO NEVER PIGGYBACK, MU IS OUT OF LUCK HERE
#if ( defined( DM_PARALLEL ) && ( ! defined( STUBMPI ) ) )
# include "XPOSE_POLAR_FILTER_W_z2x.inc"
CALL polar_filter_3d( grid%w_xxx, grid%clat_xxx, .false., &
fft_filter_lat, 0., &
ids, ide, jds, jde, kds, kde, &
imsx, imex, jmsx, jmex, kmsx, kmex, &
ipsx, ipex, jpsx, jpex, kpsx, kpex )
# include "XPOSE_POLAR_FILTER_W_x2z.inc"
# include "XPOSE_POLAR_FILTER_PH_z2x.inc"
CALL polar_filter_3d( grid%ph_xxx, grid%clat_xxx, .false., &
fft_filter_lat, 0., &
ids, ide, jds, jde, kds, kde, &
imsx, imex, jmsx, jmex, kmsx, kmex, &
ipsx, ipex, jpsx, jpex, kpsx, kpex )
# include "XPOSE_POLAR_FILTER_PH_x2z.inc"
#else
CALL polar_filter_3d( grid%w_2, grid%clat, .false., &
fft_filter_lat, 0., &
ids, ide, jds, jde, kds, kde, &
ims, ime, jms, jme, kms, kme, &
ips, ipe, jps, jpe, kps, kpe )
CALL polar_filter_3d( grid%ph_2, grid%clat, .false., &
fft_filter_lat, 0., &
ids, ide, jds, jde, kds, kde, &
ims, ime, jms, jme, kms, kme, &
ips, ipe, jps, jpe, kps, kpe )
#endif
ENDIF
!!!!!!!!!!!!!!!!!!!!!!!
! WW
IF ( flag_ww .EQ. 1 ) THEN
! WW USES ALL LEVELS SO NEVER PIGGYBACK, MU IS OUT OF LUCK HERE
#if ( defined( DM_PARALLEL ) && ( ! defined( STUBMPI ) ) )
# include "XPOSE_POLAR_FILTER_WW_z2x.inc"
CALL polar_filter_3d( grid%ww_xxx, grid%clat_xxx, .false., &
fft_filter_lat, 0., &
ids, ide, jds, jde, kds, kde, &
imsx, imex, jmsx, jmex, kmsx, kmex, &
ipsx, ipex, jpsx, jpex, kpsx, kpex )
# include "XPOSE_POLAR_FILTER_WW_x2z.inc"
#else
CALL polar_filter_3d( grid%ww_m, grid%clat, .false., &
fft_filter_lat, 0., &
ids, ide, jds, jde, kds, kde, &
ims, ime, jms, jme, kms, kme, &
ips, ipe, jps, jpe, kps, kpe )
#endif
ENDIF
!!!!!!!!!!!!!!!!!!!!!!!
! RU AND RV
IF ( flag_rurv .EQ. 1 ) THEN
IF ( piggyback_mut ) THEN
grid%ru_m(ips:ipe,kde,jps:jpe) = grid%mut(ips:ipe,jps:jpe)
ENDIF
#if ( defined( DM_PARALLEL ) && ( ! defined( STUBMPI ) ) )
# include "XPOSE_POLAR_FILTER_RV_z2x.inc"
CALL polar_filter_3d( grid%rv_xxx, grid%clat_xxx, .false., &
fft_filter_lat, dclat, &
ids, ide, jds, jde, kds, kde, &
imsx, imex, jmsx, jmex, kmsx, kmex, &
ipsx, ipex, jpsx, jpex, kpsx, MIN(kpex,kde-1) )
# include "XPOSE_POLAR_FILTER_RV_x2z.inc"
# include "XPOSE_POLAR_FILTER_RU_z2x.inc"
k_end = MIN(kde-1,kpex)
IF ( piggyback_mut ) k_end = MIN(kde,kpex)
CALL polar_filter_3d( grid%ru_xxx, grid%clat_xxx, piggyback_mut, &
fft_filter_lat, 0., &
ids, ide, jds, jde, kds, kde, &
imsx, imex, jmsx, jmex, kmsx, kmex, &
ipsx, ipex, jpsx, jpex, kpsx, k_end )
#include "XPOSE_POLAR_FILTER_RU_x2z.inc"
#else
CALL polar_filter_3d( grid%rv_m, grid%clat, .false., &
fft_filter_lat, dclat, &
ids, ide, jds, jde, kds, kde, &
ims, ime, jms, jme, kms, kme, &
ips, ipe, jps, jpe, kps, MIN(kde-1,kpe) )
k_end = MIN(kde-1,kpe)
IF ( piggyback_mut ) k_end = MIN(kde,kpe)
CALL polar_filter_3d( grid%ru_m, grid%clat, piggyback_mut, &
fft_filter_lat, 0., &
ids, ide, jds, jde, kds, kde-1, &
ims, ime, jms, jme, kms, kme, &
ips, ipe, jps, jpe, kps, k_end )
#endif
IF ( piggyback_mut ) THEN
grid%mut(ips:ipe,jps:jpe) = grid%ru_m(ips:ipe,kde,jps:jpe)
piggyback_mut = .FALSE.
ENDIF
ENDIF
!!!!!!!!!!!!!!!!!!!!!!!
! MOIST
IF ( flag_moist .GE. PARAM_FIRST_SCALAR ) THEN
itrace = flag_moist
#if ( defined( DM_PARALLEL ) && ( ! defined( STUBMPI ) ) )
# include "XPOSE_POLAR_FILTER_MOIST_z2x.inc"
CALL polar_filter_3d( grid%fourd_xxx, grid%clat_xxx, .false. , &
fft_filter_lat, 0., &
ids, ide, jds, jde, kds, kde, &
imsx, imex, jmsx, jmex, kmsx, kmex, &
ipsx, ipex, jpsx, jpex, kpsx, MIN(kpex,kde-1) )
IF ( actual_distance_average ) THEN
CALL filter_tracer ( grid%fourd_xxx , grid%clat_xxx , grid%mf_xxx , &
grid%fft_filter_lat , grid%mf_fft , &
pos_def, swap_pole_with_next_j , &
ids, ide, jds, jde, kds, kde , &
imsx, imex, jmsx, jmex, kmsx, kmex, &
ipsx, ipex, jpsx, jpex, kpsx, kpex )
END IF
# include "XPOSE_POLAR_FILTER_MOIST_x2z.inc"
#else
CALL polar_filter_3d( moist(ims,kms,jms,itrace), grid%clat, .false., &
fft_filter_lat, 0., &
ids, ide, jds, jde, kds, kde, &
ims, ime, jms, jme, kms, kme, &
ips, ipe, jps, jpe, kps, MIN(kpe,kde-1) )
IF ( actual_distance_average ) THEN
CALL filter_tracer ( moist(ims,kms,jms,itrace) , grid%clat , grid%msft , &
grid%fft_filter_lat , grid%mf_fft , &
pos_def, swap_pole_with_next_j , &
ids, ide, jds, jde, kds, kde , &
ims, ime, jms, jme, kms, kme, &
ips, ipe, jps, jpe, kps, MIN(kpe,kde-1) )
END IF
#endif
ENDIF
!!!!!!!!!!!!!!!!!!!!!!!
! CHEM
IF ( flag_chem .GE. PARAM_FIRST_SCALAR ) THEN
itrace = flag_chem
#if ( defined( DM_PARALLEL ) && ( ! defined( STUBMPI ) ) )
# include "XPOSE_POLAR_FILTER_CHEM_z2x.inc"
CALL polar_filter_3d( grid%fourd_xxx, grid%clat_xxx, .false. , &
fft_filter_lat, 0., &
ids, ide, jds, jde, kds, kde, &
imsx, imex, jmsx, jmex, kmsx, kmex, &
ipsx, ipex, jpsx, jpex, kpsx, MIN(kpex,kde-1) )
IF ( actual_distance_average ) THEN
CALL filter_tracer ( grid%fourd_xxx , grid%clat_xxx , grid%mf_xxx , &
grid%fft_filter_lat , grid%mf_fft , &
pos_def, swap_pole_with_next_j , &
ids, ide, jds, jde, kds, kde , &
imsx, imex, jmsx, jmex, kmsx, kmex, &
ipsx, ipex, jpsx, jpex, kpsx, kpex )
END IF
# include "XPOSE_POLAR_FILTER_CHEM_x2z.inc"
#else
CALL polar_filter_3d( chem(ims,kms,jms,itrace), grid%clat, .false. , &
fft_filter_lat, 0., &
ids, ide, jds, jde, kds, kde, &
ims, ime, jms, jme, kms, kme, &
ips, ipe, jps, jpe, kps, MIN(kpe,kde-1) )
IF ( actual_distance_average ) THEN
CALL filter_tracer ( chem(ims,kms,jms,itrace) , grid%clat , grid%msft , &
grid%fft_filter_lat , grid%mf_fft , &
pos_def, swap_pole_with_next_j , &
ids, ide, jds, jde, kds, kde , &
ims, ime, jms, jme, kms, kme, &
ips, ipe, jps, jpe, kps, MIN(kpe,kde-1) )
END IF
#endif
ENDIF
!!!!!!!!!!!!!!!!!!!!!!!
! TRACER
IF ( flag_tracer .GE. PARAM_FIRST_SCALAR ) THEN
itrace = flag_tracer
#if ( defined( DM_PARALLEL ) && ( ! defined( STUBMPI ) ) )
# include "XPOSE_POLAR_FILTER_TRACER_z2x.inc"
CALL polar_filter_3d( grid%fourd_xxx, grid%clat_xxx, .false. , &
fft_filter_lat, 0., &
ids, ide, jds, jde, kds, kde, &
imsx, imex, jmsx, jmex, kmsx, kmex, &
ipsx, ipex, jpsx, jpex, kpsx, MIN(kpex,kde-1) )
IF ( actual_distance_average ) THEN
CALL filter_tracer ( grid%fourd_xxx , grid%clat_xxx , grid%mf_xxx , &
grid%fft_filter_lat , grid%mf_fft , &
pos_def, swap_pole_with_next_j , &
ids, ide, jds, jde, kds, kde , &
imsx, imex, jmsx, jmex, kmsx, kmex, &
ipsx, ipex, jpsx, jpex, kpsx, kpex )
END IF
# include "XPOSE_POLAR_FILTER_TRACER_x2z.inc"
#else
CALL polar_filter_3d( tracer(ims,kms,jms,itrace), grid%clat, .false. , &
fft_filter_lat, 0., &
ids, ide, jds, jde, kds, kde, &
ims, ime, jms, jme, kms, kme, &
ips, ipe, jps, jpe, kps, MIN(kpe,kde-1) )
IF ( actual_distance_average ) THEN
CALL filter_tracer ( tracer(ims,kms,jms,itrace) , grid%clat , grid%msft , &
grid%fft_filter_lat , grid%mf_fft , &
pos_def, swap_pole_with_next_j , &
ids, ide, jds, jde, kds, kde , &
ims, ime, jms, jme, kms, kme, &
ips, ipe, jps, jpe, kps, MIN(kpe,kde-1) )
END IF
#endif
ENDIF
!!!!!!!!!!!!!!!!!!!!!!!
! SCALAR
IF ( flag_scalar .GE. PARAM_FIRST_SCALAR ) THEN
itrace = flag_scalar
#if ( defined( DM_PARALLEL ) && ( ! defined( STUBMPI ) ) )
# include "XPOSE_POLAR_FILTER_SCALAR_z2x.inc"
CALL polar_filter_3d( grid%fourd_xxx , grid%clat_xxx, .false. , &
fft_filter_lat, 0., &
ids, ide, jds, jde, kds, kde, &
imsx, imex, jmsx, jmex, kmsx, kmex, &
ipsx, ipex, jpsx, jpex, kpsx, MIN(kpex,kde-1) )
IF ( actual_distance_average ) THEN
CALL filter_tracer ( grid%fourd_xxx , grid%clat_xxx , grid%mf_xxx , &
grid%fft_filter_lat , grid%mf_fft , &
pos_def, swap_pole_with_next_j , &
ids, ide, jds, jde, kds, kde , &
imsx, imex, jmsx, jmex, kmsx, kmex, &
ipsx, ipex, jpsx, jpex, kpsx, kpex )
END IF
# include "XPOSE_POLAR_FILTER_SCALAR_x2z.inc"
#else
CALL polar_filter_3d( scalar(ims,kms,jms,itrace) , grid%clat, .false. , &
fft_filter_lat, 0., &
ids, ide, jds, jde, kds, kde, &
ims, ime, jms, jme, kms, kme, &
ips, ipe, jps, jpe, kps, MIN(kpe,kde-1) )
IF ( actual_distance_average ) THEN
CALL filter_tracer ( scalar(ims,kms,jms,itrace) , grid%clat , grid%msft , &
grid%fft_filter_lat , grid%mf_fft , &
pos_def, swap_pole_with_next_j , &
ids, ide, jds, jde, kds, kde , &
ims, ime, jms, jme, kms, kme, &
ips, ipe, jps, jpe, kps, MIN(kpe,kde-1) )
END IF
#endif
ENDIF
IF ( flag_mu .EQ. 1 .AND. piggyback_mu ) THEN
CALL wrf_error_fatal("mu needed to get piggybacked on a transpose and did not")
ENDIF
IF ( flag_mut .EQ. 1 .AND. piggyback_mut ) THEN
CALL wrf_error_fatal("mut needed to get piggybacked on a transpose and did not")
ENDIF
!write(0,*)'pxft back to ',lineno
RETURN
END SUBROUTINE pxft
SUBROUTINE polar_filter_3d( f, xlat, piggyback, fft_filter_lat, dvlat, &
ids, ide, jds, jde, kds, kde, &
ims, ime, jms, jme, kms, kme, &
its, ite, jts, jte, kts, kte )
IMPLICIT NONE
INTEGER , INTENT(IN ) :: ids, ide, jds, jde, kds, kde, &
ims, ime, jms, jme, kms, kme, &
its, ite, jts, jte, kts, kte
REAL , INTENT(IN ) :: fft_filter_lat
REAL , DIMENSION( ims:ime , kms:kme, jms:jme ) , INTENT(INOUT) :: f
REAL , DIMENSION( ims:ime , jms:jme ) , INTENT(IN) :: xlat
REAL , INTENT(IN) :: dvlat
LOGICAL , INTENT(IN) :: piggyback
REAL , DIMENSION(1:ide-ids,1:kte-kts+1) :: sheet
REAL , DIMENSION(1:kte-kts+1) :: sheet_total
REAL :: lat, avg, rnboxw
INTEGER :: ig, jg, i, j, j_end, nx, ny, nmax, kw
INTEGER :: k, nboxw, nbox2, istart, iend, overlap
INTEGER, DIMENSION(6) :: wavenumber = (/ 1, 3, 7, 10, 13, 16 /)
INTEGER :: fftflag
! Variables will stay in domain form since this routine is meaningless
! unless tile extent is the same as domain extent in E/W direction, i.e.,
! the processor has access to all grid points in E/W direction.
! There may be other ways of doing FFTs, but we have not learned them yet...
! Check to make sure we have full access to all E/W points
IF ((its /= ids) .OR. (ite /= ide)) THEN
WRITE ( wrf_err_message , * ) 'module_polarfft: 3d: (its /= ids) or (ite /= ide)',its,ids,ite,ide
CALL wrf_error_fatal ( TRIM( wrf_err_message ) )
END IF
fftflag= 1 ! call double-precision fft
! fftflag= 0 ! call single-precision fft
nx = ide-ids ! "U" stagger variables will be repeated by periodic BCs
ny = kte-kts+1 ! we can filter extra level for variables that are non-Z-staggered
lat = 0.
j_end = MIN(jte, jde-1)
IF (dvlat /= 0. .and. j_end == jde-1) j_end = jde
DO j = jts, j_end
! jg is the J index in the global (domain) span of the array.
jg = j-jds+1
! determine whether or not to filter the data
if(xlat(ids,j).gt.0.) then
lat = xlat(ids,j)-dvlat
else
lat = xlat(ids,j)+dvlat
endif
IF (abs(lat) >= fft_filter_lat) THEN
DO k=kts,kte
DO i=ids,ide-1
sheet(i-ids+1,k-kts+1) = f(i,k,j)
END DO
END DO
call polar_filter_fft_2d_ncar(nx,ny,sheet,lat,fft_filter_lat,piggyback,fftflag)
DO k=kts,kte
DO i=ids,ide-1
f(i,k,j) = sheet(i-ids+1,k-kts+1)
END DO
! setting up ims-ime with x periodicity:
! enforce periodicity as in set_physical_bc3d
DO i=1,ids-ims
f(ids-i,k,j)=f(ide-i,k,j)
END DO
DO i=1,ime-ide+1
f(ide+i-1,k,j)=f(ids+i-1,k,j)
END DO
END DO
END IF
END DO ! outer j (latitude) loop
END SUBROUTINE polar_filter_3d
!------------------------------------------------------------------------------
SUBROUTINE polar_filter_fft_2d_ncar(nx,ny,fin,lat,filter_latitude,piggyback,fftflag)
IMPLICIT NONE
INTEGER , INTENT(IN) :: nx, ny
REAL , DIMENSION(nx,ny), INTENT(INOUT) :: fin
REAL , INTENT(IN) :: lat, filter_latitude
LOGICAL, INTENT(IN) :: piggyback
REAL :: pi, rcosref, freq, c, cf
INTEGER :: k, fftflag
REAL, DIMENSION(NX,NY) :: work
REAL, DIMENSION(NX+15) :: wsave
REAL(KIND=8), DIMENSION(NX,NY) :: fin8, work8
REAL(KIND=8), DIMENSION(NX+15) :: wsave8
INTEGER :: i, j
REAL, dimension(nx,ny) :: fp
INTEGER :: lensave, ier, nh, n1
INTEGER :: lot, jump, n, inc, lenr, lensav, lenwrk
REAL, PARAMETER :: alpha = 0.0
REAL :: factor_k
INTEGER :: ntop
pi = ACOS(-1.)
rcosref = 1./COS(filter_latitude*pi/180.)
! we are following the naming convention of the fftpack5 routines
n = nx
lot = ny
lensav = n+15
inc = 1
lenr = nx*ny
jump = nx
lenwrk = lenr
ntop = ny
IF(piggyback) ntop = ny-1
! forward transform
! initialize coefficients, place in wsave
! (should place this in init and save wsave at program start)
if(fftflag.eq.0) then
call rfftmi(n,wsave,lensav,ier)
else
call dfft1i(n,wsave8,lensav,ier)
endif
IF(ier /= 0) THEN
write(a_message,*) ' error in rfftmi ',ier
CALL wrf_message ( a_message )
END IF
! do the forward transform
if(fftflag.eq.0) then
call rfftmf(lot, jump, n, inc, fin, lenr, wsave, lensav, work, lenwrk, ier)
else
fin8 = fin
do k=1,ny
call dfft1f(n, inc, fin8(1,k), lenr, wsave8, lensav, work8, lenwrk, ier)
enddo
endif
IF(ier /= 0) THEN
write(a_message,*) ' error in rfftmf ',ier
CALL wrf_message ( a_message )
END IF
if(MOD(n,2) == 0) then
nh = n/2 - 1
else
nh = (n-1)/2
end if
DO j=1,ny
fp(1,j) = 1.
ENDDO
DO i=2,nh+1
freq=REAL(i-1)/REAL(n)
c = (rcosref*COS(lat*pi/180.)/SIN(freq*pi))**2
! c = MAX(0.,MIN(1.,c))
do j=1,ntop
factor_k = (1.-alpha)+alpha*min(1.,float(ntop - j)/10.)
cf = c*factor_k*factor_k
cf = MAX(0.,MIN(1.,cf))
fp(2*(i-1),j) = cf
fp(2*(i-1)+1,j) = cf
enddo
if(piggyback) then
cf = MAX(0.,MIN(1.,c))
fp(2*(i-1),ny) = cf
fp(2*(i-1)+1,ny) = cf
endif
END DO
IF(MOD(n,2) == 0) THEN
c = (rcosref*COS(lat*pi/180.))**2
! c = MAX(0.,MIN(1.,c))
do j=1,ntop
factor_k = (1.-alpha)+alpha*min(1.,float(ntop - j)/10.)
cf = c*factor_k*factor_k
cf = MAX(0.,MIN(1.,cf))
fp(n,j) = cf
enddo
if(piggyback) then
cf = MAX(0.,MIN(1.,c))
fp(n,ny) = cf
endif
END IF
if(fftflag.eq.0) then
do j=1,ny
do i=1,nx
fin(i,j) = fp(i,j)*fin(i,j)
enddo
enddo
else
do j=1,ny
do i=1,nx
fin8(i,j) = fp(i,j)*fin8(i,j)
enddo
enddo
endif
! do the backward transform
if(fftflag.eq.0) then
call rfftmb(lot, jump, n, inc, fin, lenr, wsave, lensav, work, lenwrk, ier)
else
do k=1,ny
call dfft1b(n, inc, fin8(1,k), lenr, wsave8, lensav, work8, lenwrk, ier)
enddo
fin= fin8
endif
IF(ier /= 0) THEN
write(a_message,*) ' error in rfftmb ',ier
CALL wrf_message ( a_message )
END IF
END SUBROUTINE polar_filter_fft_2d_ncar
!---------------------------------------------------------------------
SUBROUTINE filter_tracer ( tr3d_in , xlat , msftx , &
fft_filter_lat , mf_fft , &
pos_def , swap_pole_with_next_j , &
ids , ide , jds , jde , kds , kde , &
ims , ime , jms , jme , kms , kme , &
its , ite , jts , jte , kts , kte )
IMPLICIT NONE
INTEGER , INTENT(IN) :: ids , ide , jds , jde , kds , kde , &
ims , ime , jms , jme , kms , kme , &
its , ite , jts , jte , kts , kte
REAL , INTENT(IN) :: fft_filter_lat , mf_fft
REAL , DIMENSION(ims:ime,kms:kme,jms:jme) , INTENT(INOUT) :: tr3d_in
REAL , DIMENSION(ims:ime,jms:jme) , INTENT(IN) :: xlat , msftx
LOGICAL , INTENT(IN) :: pos_def , swap_pole_with_next_j
! Local vars
INTEGER :: i , j , j_lat_pos , j_lat_neg , k
INTEGER :: i_kicker , ik , i1, i2, i3, i4
INTEGER :: i_left , i_right , ii , count
REAL :: length_scale , sum
REAL , DIMENSION(its:ite,jts:jte) :: tr_in, tr_out
CHARACTER (LEN=256) :: message
! The filtering is a simple average on a latitude loop. Possibly a LONG list of
! numbers. We assume that ALL of the 2d arrays have been transposed so that
! each patch has the entire domain size of the i-dimension available.
IF ( ( its .NE. ids ) .OR. ( ite .NE. ide ) ) THEN
CALL wrf_error_fatal ( 'filtering assumes all values on X' )
END IF
! Starting at the south pole, we find where the
! grid distance is big enough, then go back a point. Continuing to the
! north pole, we find the first small grid distance. These are the
! computational latitude loops and the associated computational poles.
j_lat_neg = 0
j_lat_pos = jde + 1
loop_neg : DO j = MIN(jde-1,jte) , jts , -1
IF ( xlat(its,j) .LT. 0.0 ) THEN
IF ( ABS(xlat(its,j)) .GE. fft_filter_lat ) THEN
j_lat_neg = j
EXIT loop_neg
END IF
END IF
END DO loop_neg
loop_pos : DO j = jts , MIN(jde-1,jte)
IF ( xlat(its,j) .GT. 0.0 ) THEN
IF ( xlat(its,j) .GE. fft_filter_lat ) THEN
j_lat_pos = j
EXIT loop_pos
END IF
END IF
END DO loop_pos
! Initialize the starting values for the averages.
DO k = kts, kte
DO j = jts , MIN(jde-1,jte)
DO i = its , MIN(ide-1,ite)
tr_in(i,j) = tr3d_in(i,k,j)
tr_out(i,j) = tr_in(i,j)
END DO
END DO
! Filter the fields at the negative lats.
DO j = MIN(j_lat_neg,jte) , jts , -1
! i_kicker = MIN( MAX ( NINT(msftx(its,j)/2) , 1 ) , (ide - ids) / 2 )
i_kicker = MIN( MAX ( NINT(msftx(its,j)/mf_fft/2) , 1 ) , (ide - ids) / 2 )
! WRITE (message,FMT='(a,i4,a,i4,f6.2,1x,f6.1,f6.1)') 'SOUTH j = ' , j, ', kicker = ',i_kicker,xlat(its,j),msftx(its,j),mf_fft
! CALL wrf_debug ( 0 , TRIM(message) )
DO i = its , MIN(ide-1,ite)
sum = 0.
count = 0
DO ik = 1 , i_kicker/2
ii = i-ik
IF ( ii .GE. ids ) THEN
i_left = ii
ELSE
i_left = ( ii - ids ) + (ide-1)+1
END IF
ii = i+ik
IF ( ii .LE. ide-1 ) THEN
i_right = ii
ELSE
i_right = ( ii - (ide-1) ) + its-1
END IF
sum = sum + tr_in(i_left,j) + tr_in(i_right,j)
count = count + 1
END DO
tr_out(i,j) = ( tr_in(i,j) + sum ) / REAL ( 2 * count + 1 )
END DO
END DO
! Filter the fields at the positive lats.
DO j = MAX(j_lat_pos,jts) , MIN(jde-1,jte)
! i_kicker = MIN( MAX ( NINT(msftx(its,j)/2) , 1 ) , (ide - ids) / 2 )
i_kicker = MIN( MAX ( NINT(msftx(its,j)/mf_fft/2) , 1 ) , (ide - ids) / 2 )
! WRITE (message,FMT='(a,i4,a,i4,f6.2,1x,f6.1,f6.1)') 'NORTH j = ' , j, ', kicker = ',i_kicker,xlat(its,j),msftx(its,j),mf_fft
! CALL wrf_debug ( 0 , TRIM(message) )
DO i = its , MIN(ide-1,ite)
count = 0
sum = 0.
DO ik = 1 , i_kicker/2
ii = i-ik
IF ( ii .GE. ids ) THEN
i_left = ii
ELSE
i_left = ( ii - ids ) + (ide-1)+1
END IF
ii = i+ik
IF ( ii .LE. ide-1 ) THEN
i_right = ii
ELSE
i_right = ( ii - (ide-1) ) + its-1
END IF
sum = sum + tr_in(i_left,j) + tr_in(i_right,j)
count = count + 1
END DO
tr_out(i,j) = ( tr_in(i,j) + sum ) / REAL ( 2 * count + 1 )
END DO
END DO
! Set output values for whole patch.
DO j = jts , MIN(jde-1,jte)
DO i = its , MIN(ide-1,ite)
tr3d_in(i,k,j) = tr_out(i,j)
END DO
END DO
! Positive definite on scalars?
IF ( pos_def ) THEN
DO j = jts , MIN(jde-1,jte)
DO i = its , MIN(ide-1,ite)
tr3d_in(i,k,j) = MAX( tr3d_in(i,k,j) , 0. )
END DO
END DO
END IF
! Remove values at j=1 and j=jde-1 locations, set them to the rows just next to them.
IF ( swap_pole_with_next_j ) THEN
IF ( jts .EQ. jds ) THEN
DO i = its , MIN(ide-1,ite)
tr3d_in(i,k,jts) = tr3d_in(i,k,jts+1)
END DO
END IF
IF ( jte .EQ. jde ) THEN
DO i = its , MIN(ide-1,ite)
tr3d_in(i,k,jte-1) = tr3d_in(i,k,jte-2)
END DO
END IF
END IF
END DO ! k-loop
END SUBROUTINE filter_tracer
!---------------------------------------------------------------------
SUBROUTINE filter_tracer_old ( tr3d_in , xlat , msftx , fft_filter_lat , &
ids , ide , jds , jde , kds , kde , &
ims , ime , jms , jme , kms , kme , &
its , ite , jts , jte , kts , kte )
IMPLICIT NONE
INTEGER , INTENT(IN) :: ids , ide , jds , jde , kds , kde , &
ims , ime , jms , jme , kms , kme , &
its , ite , jts , jte , kts , kte
REAL , INTENT(IN) :: fft_filter_lat
REAL , DIMENSION(ims:ime,kms:kme,jms:jme) , INTENT(INOUT) :: tr3d_in
REAL , DIMENSION(ims:ime,jms:jme) , INTENT(IN) :: xlat , msftx