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mediation_nest_move.F
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mediation_nest_move.F
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SUBROUTINE med_nest_move ( parent, nest )
! Driver layer
USE module_domain, ONLY : domain, get_ijk_from_grid, adjust_domain_dims_for_move
USE module_driver_constants, ONLY : max_nests
USE module_utility
USE module_timing
USE module_configure, ONLY : grid_config_rec_type, model_config_rec, model_to_grid_config_rec
USE module_state_description
! USE module_io_domain
#if defined(DM_PARALLEL) && ! defined(STUBMPI)
USE module_dm, ONLY : wrf_dm_move_nest,nest_task_offsets,mpi_comm_to_kid,mpi_comm_to_mom, which_kid
#endif
IMPLICIT NONE
TYPE(domain) , POINTER :: parent, nest, grid
INTEGER dx, dy, origdy ! number of parent domain points to move
#ifdef MOVE_NESTS
! Local
CHARACTER*256 mess
INTEGER i, j, k, p, parent_grid_ratio
INTEGER px, py ! number and direction of nd points to move
INTEGER :: ids , ide , jds , jde , kds , kde , &
ims , ime , jms , jme , kms , kme , &
ips , ipe , jps , jpe , kps , kpe
INTEGER ierr, fid, comzilla, kid
LOGICAL input_from_hires
LOGICAL saved_restart_value
TYPE (grid_config_rec_type) :: config_flags
LOGICAL, EXTERNAL :: wrf_dm_on_monitor
LOGICAL, EXTERNAL :: should_not_move
INTERFACE
SUBROUTINE med_interp_domain ( parent , nest )
USE module_domain, ONLY : domain
IMPLICIT NONE
TYPE(domain) , POINTER :: parent , nest
END SUBROUTINE med_interp_domain
SUBROUTINE start_domain ( grid , allowed_to_move )
USE module_domain, ONLY : domain
IMPLICIT NONE
TYPE(domain) :: grid
LOGICAL, INTENT(IN) :: allowed_to_move
END SUBROUTINE start_domain
#if ( EM_CORE == 1 )
SUBROUTINE shift_domain_em ( grid, disp_x, disp_y &
!
# include "dummy_new_args.inc"
!
)
USE module_domain, ONLY : domain
USE module_state_description
IMPLICIT NONE
INTEGER disp_x, disp_y
TYPE(domain) , POINTER :: grid
# include "dummy_new_decl.inc"
END SUBROUTINE shift_domain_em
#endif
LOGICAL FUNCTION time_for_move ( parent , nest , dx , dy )
USE module_domain, ONLY : domain
IMPLICIT NONE
TYPE(domain) , POINTER :: parent , nest
INTEGER, INTENT(OUT) :: dx , dy
END FUNCTION time_for_move
SUBROUTINE input_terrain_rsmas ( grid , &
ids , ide , jds , jde , kds , kde , &
ims , ime , jms , jme , kms , kme , &
ips , ipe , jps , jpe , kps , kpe )
USE module_domain, ONLY : domain
IMPLICIT NONE
TYPE ( domain ) :: grid
INTEGER :: ids , ide , jds , jde , kds , kde , &
ims , ime , jms , jme , kms , kme , &
ips , ipe , jps , jpe , kps , kpe
END SUBROUTINE input_terrain_rsmas
SUBROUTINE med_nest_feedback ( parent , nest , config_flags )
USE module_domain, ONLY : domain
USE module_configure, ONLY : grid_config_rec_type
IMPLICIT NONE
TYPE (domain), POINTER :: nest , parent
TYPE (grid_config_rec_type) config_flags
END SUBROUTINE med_nest_feedback
SUBROUTINE blend_terrain ( ter_interpolated , ter_input , &
ids , ide , jds , jde , kds , kde , &
ims , ime , jms , jme , kms , kme , &
ips , ipe , jps , jpe , kps , kpe )
IMPLICIT NONE
INTEGER :: ids , ide , jds , jde , kds , kde , &
ims , ime , jms , jme , kms , kme , &
ips , ipe , jps , jpe , kps , kpe
REAL , DIMENSION(ims:ime,jms:jme) :: ter_interpolated
REAL , DIMENSION(ims:ime,jms:jme) :: ter_input
END SUBROUTINE blend_terrain
SUBROUTINE copy_3d_field ( ter_interpolated , ter_input , &
ids , ide , jds , jde , kds , kde , &
ims , ime , jms , jme , kms , kme , &
ips , ipe , jps , jpe , kps , kpe )
IMPLICIT NONE
INTEGER :: ids , ide , jds , jde , kds , kde , &
ims , ime , jms , jme , kms , kme , &
ips , ipe , jps , jpe , kps , kpe
REAL , DIMENSION(ims:ime,jms:jme) :: ter_interpolated
REAL , DIMENSION(ims:ime,jms:jme) :: ter_input
END SUBROUTINE copy_3d_field
END INTERFACE
! set grid pointer for code in deref_kludge (if used)
grid => nest
IF ( should_not_move( nest%id ) ) THEN
CALL wrf_message( 'Nest movement is disabled because of namelist settings' )
RETURN
ENDIF
! if the nest has stopped don't do all this
IF ( WRFU_ClockIsStopTime(nest%domain_clock ,rc=ierr) ) RETURN
! mask should be defined in nest domain
check_for_move: IF ( time_for_move ( parent , nest , dx, dy ) ) THEN
#if ( EM_CORE == 1 )
IF ( (dx .gt. 1 .or. dx .lt. -1 ) .or. &
(dy .gt. 1 .or. dy .lt. -1 ) ) THEN
WRITE(mess,*)' invalid move: dx, dy ', dx, dy
CALL wrf_error_fatal( mess )
ENDIF
#endif
IF ( wrf_dm_on_monitor() ) THEN
WRITE(mess,*)' moving ',grid%id,dx,dy
CALL wrf_message(mess)
ENDIF
CALL get_ijk_from_grid ( grid , &
ids, ide, jds, jde, kds, kde, &
ims, ime, jms, jme, kms, kme, &
ips, ipe, jps, jpe, kps, kpe )
CALL wrf_dm_move_nest ( parent, nest%intermediate_grid, dx, dy )
CALL adjust_domain_dims_for_move( nest%intermediate_grid , dx, dy )
CALL get_ijk_from_grid ( grid , &
ids, ide, jds, jde, kds, kde, &
ims, ime, jms, jme, kms, kme, &
ips, ipe, jps, jpe, kps, kpe )
grid => nest
#if ( EM_CORE == 1 )
CALL shift_domain_em( grid, dx, dy &
!
# include "actual_new_args.inc"
!
)
#endif
px = grid%parent_grid_ratio*dx
py = grid%parent_grid_ratio*dy
grid%i_parent_start = grid%i_parent_start + px / grid%parent_grid_ratio
grid%j_parent_start = grid%j_parent_start + py / grid%parent_grid_ratio
#if defined(DM_PARALLEL) && ! defined(STUBMPI)
IF ( (parent%active_this_task .OR. grid%active_this_task) ) THEN
IF ( parent%active_this_task ) THEN
comzilla = mpi_comm_to_kid( which_kid( grid%id ) , parent%id )
ELSE
comzilla = mpi_comm_to_mom( grid%id )
ENDIF
CALL BYTE_BCAST_FROM_ROOT( grid%i_parent_start, IWORDSIZE, nest_task_offsets(nest%id), comzilla ) !
CALL BYTE_BCAST_FROM_ROOT( grid%j_parent_start, IWORDSIZE, nest_task_offsets(nest%id), comzilla ) !
ENDIF
CALL nl_set_i_parent_start( grid%id, grid%i_parent_start )
CALL nl_set_j_parent_start( grid%id, grid%j_parent_start )
CALL push_communicators_for_domain(grid%id)
IF ( wrf_dm_on_monitor() ) THEN
write(mess,*) &
'Grid ',grid%id,' New SW corner (in parent x and y):',grid%i_parent_start, grid%j_parent_start
CALL wrf_message(TRIM(mess))
ENDIF
CALL pop_communicators_for_domain(grid%id)
#endif
CALL med_interp_domain( parent, nest )
#if ( EM_CORE == 1 )
CALL nl_get_input_from_hires( nest%id , input_from_hires )
IF ( input_from_hires ) THEN
IF ( nest%active_this_task ) THEN
! store horizontally interpolated terrain in temp location
CALL copy_3d_field ( nest%ht_fine , nest%ht , &
ids , ide , jds , jde , 1 , 1 , &
ims , ime , jms , jme , 1 , 1 , &
ips , ipe , jps , jpe , 1 , 1 )
CALL copy_3d_field ( nest%mub_fine , nest%mub , &
ids , ide , jds , jde , 1 , 1 , &
ims , ime , jms , jme , 1 , 1 , &
ips , ipe , jps , jpe , 1 , 1 )
CALL copy_3d_field ( nest%phb_fine , nest%phb , &
ids , ide , jds , jde , kds , kde , &
ims , ime , jms , jme , kms , kme , &
ips , ipe , jps , jpe , kps , kpe )
CALL input_terrain_rsmas ( nest, &
ids , ide , jds , jde , 1 , 1 , &
ims , ime , jms , jme , 1 , 1 , &
ips , ipe , jps , jpe , 1 , 1 )
CALL blend_terrain ( nest%ht_fine , nest%ht , &
ids , ide , jds , jde , 1 , 1 , &
ims , ime , jms , jme , 1 , 1 , &
ips , ipe , jps , jpe , 1 , 1 )
CALL blend_terrain ( nest%mub_fine , nest%mub , &
ids , ide , jds , jde , 1 , 1 , &
ims , ime , jms , jme , 1 , 1 , &
ips , ipe , jps , jpe , 1 , 1 )
CALL blend_terrain ( nest%phb_fine , nest%phb , &
ids , ide , jds , jde , kds , kde , &
ims , ime , jms , jme , kms , kme , &
ips , ipe , jps , jpe , kps , kpe )
ENDIF
!
CALL model_to_grid_config_rec ( parent%id , model_config_rec , config_flags )
CALL med_nest_feedback ( parent , nest , config_flags )
parent%imask_nostag = 1
parent%imask_xstag = 1
parent%imask_ystag = 1
parent%imask_xystag = 1
! start_domain will key off "restart". Even if this is a restart run
! we don't want it to here. Save the value, set it to false, and restore afterwards
saved_restart_value = config_flags%restart
config_flags%restart = .FALSE.
grid%restart = .FALSE.
CALL nl_set_restart ( 1, .FALSE. )
grid%press_adj = .FALSE.
CALL start_domain ( parent , .FALSE. )
config_flags%restart = saved_restart_value
grid%restart = saved_restart_value
CALL nl_set_restart ( 1, saved_restart_value )
ENDIF
#endif
!
! masks associated with nest will have been set by shift_domain_em above
nest%moved = .true.
! start_domain will key off "restart". Even if this is a restart run
! we don't want it to here. Save the value, set it to false, and restore afterwards
saved_restart_value = config_flags%restart
config_flags%restart = .FALSE.
CALL nl_set_restart ( 1, .FALSE. )
grid%restart = .FALSE.
#if ( EM_CORE == 1 )
nest%press_adj = .FALSE.
#endif
#if defined(DM_PARALLEL) && ! defined(STUBMPI)
IF ( nest%active_this_task ) THEN
CALL push_communicators_for_domain(nest%id)
CALL start_domain ( nest , .FALSE. )
CALL pop_communicators_for_domain
ENDIF
#endif
config_flags%restart = saved_restart_value
grid%restart = saved_restart_value
CALL nl_set_restart ( 1, saved_restart_value )
nest%moved = .false.
!
! copy time level 2 to time level 1 in new regions of multi-time level fields
! this should be registry generated.
!
#if ( EM_CORE == 1 )
IF ( nest%active_this_task ) THEN
do k = kms,kme
where ( nest%imask_xstag .EQ. 1 ) nest%u_1(:,k,:) = nest%u_2(:,k,:)
where ( nest%imask_ystag .EQ. 1 ) nest%v_1(:,k,:) = nest%v_2(:,k,:)
where ( nest%imask_nostag .EQ. 1 ) nest%t_1(:,k,:) = nest%t_2(:,k,:)
where ( nest%imask_nostag .EQ. 1 ) nest%w_1(:,k,:) = nest%w_2(:,k,:)
where ( nest%imask_nostag .EQ. 1 ) nest%ph_1(:,k,:) = nest%ph_2(:,k,:)
where ( nest%imask_nostag .EQ. 1 ) nest%tke_1(:,k,:) = nest%tke_2(:,k,:)
enddo
where ( nest%imask_nostag .EQ. 1 ) nest%mu_1(:,:) = nest%mu_2(:,:)
ENDIF
#endif
!
ENDIF check_for_move
#endif
END SUBROUTINE med_nest_move
LOGICAL FUNCTION time_for_move2 ( parent , grid , move_cd_x, move_cd_y )
! Driver layer
USE module_domain, ONLY : domain, domain_clock_get, get_ijk_from_grid, adjust_domain_dims_for_move
! USE module_configure
USE module_driver_constants, ONLY : max_moves
USE module_compute_geop
USE module_dm, ONLY : wrf_dm_max_real, wrf_dm_move_nest
USE module_utility
USE module_streams, ONLY : compute_vortex_center_alarm
IMPLICIT NONE
! Arguments
TYPE(domain) , POINTER :: parent, grid
INTEGER, INTENT(OUT) :: move_cd_x , move_cd_y
#ifdef MOVE_NESTS
! Local
INTEGER num_moves, rc
INTEGER move_interval , move_id
TYPE(WRFU_Time) :: ct, st
TYPE(WRFU_TimeInterval) :: ti
CHARACTER*256 mess, timestr
INTEGER :: ids, ide, jds, jde, kds, kde, &
ims, ime, jms, jme, kms, kme, &
ips, ipe, jps, jpe, kps, kpe
INTEGER :: is, ie, js, je, ierr
REAL :: ipbar, pbar, jpbar, fact
REAL :: last_vc_i , last_vc_j
REAL, ALLOCATABLE, DIMENSION(:,:) :: height_l, height
REAL, ALLOCATABLE, DIMENSION(:,:) :: psfc, xlat, xlong, terrain
REAL :: minh, maxh
INTEGER :: mini, minj, maxi, maxj, i, j, pgr, irad
REAL :: disp_x, disp_y, lag, radius, center_i, center_j, dx
REAL :: dijsmooth, vmax, vmin, a, b
REAL :: dc_i, dc_j ! domain center
REAL :: maxws, ws
REAL :: pmin
INTEGER imploc, jmploc
INTEGER :: fje, fjs, fie, fis, fimloc, fjmloc, imloc, jmloc
INTEGER :: i_parent_start, j_parent_start
INTEGER :: max_vortex_speed, vortex_interval ! meters per second and seconds
INTEGER :: track_level
REAL :: rsmooth = 100000. ! in meters
LOGICAL, EXTERNAL :: wrf_dm_on_monitor
character*256 message, message2
!#define MOVING_DIAGS
# ifdef VORTEX_CENTER
CALL nl_get_parent_grid_ratio ( grid%id , pgr )
CALL nl_get_i_parent_start ( grid%id , i_parent_start )
CALL nl_get_j_parent_start ( grid%id , j_parent_start )
CALL nl_get_track_level ( grid%id , track_level )
! WRITE(mess,*)'Vortex is tracked at ', track_level
! CALL wrf_message(mess)
CALL get_ijk_from_grid ( grid , &
ids, ide, jds, jde, kds, kde, &
ims, ime, jms, jme, kms, kme, &
ips, ipe, jps, jpe, kps, kpe )
! If the alarm is ringing, recompute the Vortex Center (VC); otherwise
! use the previous position of VC. VC is not recomputed ever step to
! save on cost for global collection of height field and broadcast
! of new center.
# ifdef MOVING_DIAGS
write(message,*)'Check to see if COMPUTE_VORTEX_CENTER_ALARM is ringing? '
call wrf_debug(1,message)
# endif
CALL nl_get_parent_grid_ratio ( grid%id , pgr )
CALL nl_get_dx ( grid%id , dx )
IF ( WRFU_AlarmIsRinging( grid%alarms( COMPUTE_VORTEX_CENTER_ALARM ), rc=rc ) ) THEN
# ifdef MOVING_DIAGS
write(message,*)'COMPUTE_VORTEX_CENTER_ALARM is ringing '
call wrf_debug(1,message)
# endif
CALL WRFU_AlarmRingerOff( grid%alarms( COMPUTE_VORTEX_CENTER_ALARM ), rc=rc )
CALL domain_clock_get( grid, current_timestr=timestr )
last_vc_i = grid%vc_i
last_vc_j = grid%vc_j
ALLOCATE ( height_l ( ims:ime , jms:jme ), STAT=ierr )
IF ( ierr .ne. 0 ) CALL wrf_error_fatal ('allocating height_l in time_for_move2')
IF ( wrf_dm_on_monitor() ) THEN
ALLOCATE ( height ( ids:ide , jds:jde ), STAT=ierr )
IF ( ierr .ne. 0 ) CALL wrf_error_fatal ('allocating height in time_for_move2')
ALLOCATE ( psfc ( ids:ide , jds:jde ), STAT=ierr )
IF ( ierr .ne. 0 ) CALL wrf_error_fatal ('allocating psfc in time_for_move2')
ALLOCATE ( xlat ( ids:ide , jds:jde ), STAT=ierr )
IF ( ierr .ne. 0 ) CALL wrf_error_fatal ('allocating xlat in time_for_move2')
ALLOCATE ( xlong ( ids:ide , jds:jde ), STAT=ierr )
IF ( ierr .ne. 0 ) CALL wrf_error_fatal ('allocating xlong in time_for_move2')
ALLOCATE ( terrain ( ids:ide , jds:jde ), STAT=ierr )
IF ( ierr .ne. 0 ) CALL wrf_error_fatal ('allocating terrain in time_for_move2')
ELSE
ALLOCATE ( height ( 1:1 , 1:1 ), STAT=ierr )
IF ( ierr .ne. 0 ) CALL wrf_error_fatal ('allocating height in time_for_move2')
ALLOCATE ( psfc ( 1:1 , 1:1 ), STAT=ierr )
IF ( ierr .ne. 0 ) CALL wrf_error_fatal ('allocating psfc in time_for_move2')
ALLOCATE ( xlat ( 1:1 , 1:1 ), STAT=ierr )
IF ( ierr .ne. 0 ) CALL wrf_error_fatal ('allocating xlat in time_for_move2')
ALLOCATE ( xlong ( 1:1 , 1:1 ), STAT=ierr )
IF ( ierr .ne. 0 ) CALL wrf_error_fatal ('allocating xlong in time_for_move2')
ALLOCATE ( terrain ( 1:1 , 1:1 ), STAT=ierr )
IF ( ierr .ne. 0 ) CALL wrf_error_fatal ('allocating terrain in time_for_move2')
ENDIF
# if (EM_CORE == 1)
CALL compute_500mb_height ( grid%ph_2 , grid%phb, grid%p, grid%pb, height_l , &
track_level, &
ids, ide, jds, jde, kds, kde, &
ims, ime, jms, jme, kms, kme, &
ips, ipe, jps, jpe, kps, kpe )
# endif
CALL wrf_patch_to_global_real ( height_l , height , grid%domdesc, "z", "xy", &
ids, ide-1 , jds , jde-1 , 1 , 1 , &
ims, ime , jms , jme , 1 , 1 , &
ips, ipe , jps , jpe , 1 , 1 )
CALL wrf_patch_to_global_real ( grid%psfc , psfc , grid%domdesc, "z", "xy", &
ids, ide-1 , jds , jde-1 , 1 , 1 , &
ims, ime , jms , jme , 1 , 1 , &
ips, ipe , jps , jpe , 1 , 1 )
CALL wrf_patch_to_global_real ( grid%xlat , xlat , grid%domdesc, "z", "xy", &
ids, ide-1 , jds , jde-1 , 1 , 1 , &
ims, ime , jms , jme , 1 , 1 , &
ips, ipe , jps , jpe , 1 , 1 )
CALL wrf_patch_to_global_real ( grid%xlong , xlong , grid%domdesc, "z", "xy", &
ids, ide-1 , jds , jde-1 , 1 , 1 , &
ims, ime , jms , jme , 1 , 1 , &
ips, ipe , jps , jpe , 1 , 1 )
CALL wrf_patch_to_global_real ( grid%ht , terrain , grid%domdesc, "z", "xy", &
ids, ide-1 , jds , jde-1 , 1 , 1 , &
ims, ime , jms , jme , 1 , 1 , &
ips, ipe , jps , jpe , 1 , 1 )
! calculate max wind speed
maxws = 0.
do j = jps, jpe
do i = ips, ipe
ws = grid%u10(i,j) * grid%u10(i,j) + grid%v10(i,j) * grid%v10(i,j)
if ( ws > maxws ) maxws = ws
enddo
enddo
maxws = sqrt ( maxws )
maxws = wrf_dm_max_real ( maxws )
monitor_only : IF ( wrf_dm_on_monitor() ) THEN
!
! This vortex center finding code adapted from the Hurricane version of MM5,
! Courtesy:
!
! Shuyi Chen et al., Rosenstiel School of Marine and Atmos. Sci., U. Miami.
! Spring, 2005
!
! Get the first guess vortex center about which we do our search
! as mini and minh; minimum value is minh
!
CALL nl_get_vortex_interval( grid%id , vortex_interval )
CALL nl_get_max_vortex_speed( grid%id , max_vortex_speed )
IF ( grid%vc_i < 0. .AND. grid%vc_j < 0. ) THEN
! first time through
is = ids
ie = ide-1
js = jds
je = jde-1
ELSE
! limit the search to an area around the vortex
! that is limited by max_vortex_speed (default 40) meters per second from
! previous location over vortex_interval (default 15 mins)
is = max( grid%vc_i - 60 * vortex_interval * max_vortex_speed / dx , 1.0 * ids )
js = max( grid%vc_j - 60 * vortex_interval * max_vortex_speed / dx , 1.0 * jds )
ie = min( grid%vc_i + 60 * vortex_interval * max_vortex_speed / dx , 1.0 * (ide-1) )
je = min( grid%vc_j + 60 * vortex_interval * max_vortex_speed / dx , 1.0 * (jde-1) )
ENDIF
# ifdef MOVING_DIAGS
write(message,*)'search set around last position '
call wrf_debug(1,message)
write(message,*)' is, ids-1, ie, ide-1 ', is, ids-1, ie, ide-1
call wrf_debug(1,message)
write(message,*)' js, jds-1, je, jde-1 ', js, jds-1, je, jde-1
call wrf_debug(1,message)
# endif
imploc = -1
jmploc = -1
! find minimum psfc
pmin = 99999999.0 ! make this very large to be sure we find a minumum
DO j = js, je
DO i = is, ie
! adjust approximately to sea level pressure (same as below: ATCF)
psfc(i,j)=psfc(i,j)+11.38*terrain(i,j)
IF ( psfc(i,j) .LT. pmin ) THEN
pmin = psfc(i,j)
imploc = i
jmploc = j
ENDIF
ENDDO
ENDDO
IF ( imploc .EQ. -1 .OR. jmploc .EQ. -1 ) THEN ! if we fail to find a min there is something seriously wrong
WRITE(mess,*)'i,j,is,ie,js,je,imploc,jmploc ',i,j,is,ie,js,je,imploc,jmploc
CALL wrf_message(mess)
CALL wrf_error_fatal('time_for_move2: Method failure searching for minimum psfc.')
ENDIF
imloc = -1
jmloc = -1
maxi = -1
maxj = -1
! find local min, max
vmin = 99999999.0
vmax = -99999999.0
DO j = js, je
DO i = is, ie
IF ( height(i,j) .LT. vmin ) THEN
vmin = height(i,j)
imloc = i
jmloc = j
ENDIF
IF ( height(i,j) .GT. vmax ) THEN
vmax = height(i,j)
maxi = i
maxj = j
ENDIF
ENDDO
ENDDO
IF ( imloc .EQ. -1 .OR. jmloc .EQ. -1 .OR. maxi .EQ. -1 .OR. maxj .EQ. -1 ) THEN
WRITE(mess,*)'i,j,is,ie,js,je,imloc,jmloc,maxi,maxj ',i,j,is,ie,js,je,imloc,jmloc,maxi,maxj
CALL wrf_message(mess)
CALL wrf_error_fatal('time_for_move2: Method failure searching max/min of height.')
ENDIF
fimloc = imloc
fjmloc = jmloc
if ( grid%xi .EQ. -1. ) grid%xi = fimloc
if ( grid%xj .EQ. -1. ) grid%xj = fjmloc
dijsmooth = rsmooth / dx
fjs = max(fjmloc-dijsmooth,1.0)
fje = min(fjmloc+dijsmooth,jde-2.0)
fis = max(fimloc-dijsmooth,1.0)
fie = min(fimloc+dijsmooth,ide-2.0)
js = fjs
je = fje
is = fis
ie = fie
vmin = 1000000.0
vmax = -1000000.0
DO j = js, je
DO i = is, ie
IF ( height(i,j) .GT. vmax ) THEN
vmax = height(i,j)
ENDIF
ENDDO
ENDDO
pbar = 0.0
ipbar = 0.0
jpbar = 0.0
do j=js,je
do i=is,ie
fact = vmax - height(i,j)
pbar = pbar + fact
ipbar = ipbar + fact*(i-is)
jpbar = jpbar + fact*(j-js)
enddo
enddo
IF ( pbar .NE. 0. ) THEN
! Compute an adjusted, smoothed, vortex center location in cross
! point index space.
! Time average. A is coef for old information; B is new
! If pbar is zero then just skip this, leave xi and xj alone,
! result will be no movement.
a = 0.0
b = 1.0
grid%xi = (a * grid%xi + b * (is + ipbar / pbar)) / ( a + b )
grid%xj = (a * grid%xj + b * (js + jpbar / pbar)) / ( a + b )
grid%vc_i = grid%xi + .5
grid%vc_j = grid%xj + .5
ENDIF
# ifdef MOVING_DIAGS
write(message,*)'computed grid%vc_i, grid%vc_j ',grid%vc_i, grid%vc_j
call wrf_debug(1,message)
i = grid%vc_i ; j = grid%vc_j ; height( i,j ) = height(i,j) * 1.2 !mark the center
CALL domain_clock_get( grid, current_timestr=message2 )
WRITE ( message , FMT = '(A," on domain ",I3)' ) TRIM(message2), grid%id
# endif
!
i = INT(grid%xi+.5)
j = INT(grid%xj+.5)
write(mess,'("ATCF"," ",A19," ",f8.2," ",f8.2," ",f6.1," ",f6.1)') &
timestr(1:19), &
xlat(i,j), &
xlong(i,j), &
0.01*pmin, &
!already computed above 0.01*pmin+0.1138*terrain(imploc,jmploc), &
maxws*1.94
CALL wrf_message(TRIM(mess))
ENDIF monitor_only
DEALLOCATE ( psfc )
DEALLOCATE ( xlat )
DEALLOCATE ( xlong )
DEALLOCATE ( terrain )
DEALLOCATE ( height )
DEALLOCATE ( height_l )
CALL wrf_dm_bcast_real( grid%vc_i , 1 )
CALL wrf_dm_bcast_real( grid%vc_j , 1 )
CALL wrf_dm_bcast_real( pmin , 1 )
CALL wrf_dm_bcast_integer( imploc , 1 )
CALL wrf_dm_bcast_integer( jmploc , 1 )
# ifdef MOVING_DIAGS
write(message,*)'after bcast : grid%vc_i, grid%vc_j ',grid%vc_i, grid%vc_j
call wrf_debug(1,message)
# endif
ENDIF ! COMPUTE_VORTEX_CENTER_ALARM ringing
# ifdef MOVING_DIAGS
write(message,*)'After ENDIF : grid%vc_i, grid%vc_j ',grid%vc_i, grid%vc_j
call wrf_debug(1,message)
# endif
dc_i = (ide-ids+1)/2. ! domain center
dc_j = (jde-jds+1)/2.
disp_x = grid%vc_i - dc_i * 1.0
disp_y = grid%vc_j - dc_j * 1.0
#if 0
! This appears to be an old, redundant, and perhaps even misnamed parameter.
! Remove it from the namelist and Registry and just hard code it to
! the default of 6. JM 20050721
CALL nl_get_vortex_search_radius( 1, irad )
#else
irad = 6
#endif
radius = irad
if ( disp_x .GT. 0 ) disp_x = min( disp_x , radius )
if ( disp_y .GT. 0 ) disp_y = min( disp_y , radius )
if ( disp_x .LT. 0 ) disp_x = max( disp_x , -radius )
if ( disp_y .LT. 0 ) disp_y = max( disp_y , -radius )
move_cd_x = int ( disp_x / pgr )
move_cd_y = int ( disp_y / pgr )
IF ( move_cd_x .GT. 0 ) move_cd_x = min ( move_cd_x , 1 )
IF ( move_cd_y .GT. 0 ) move_cd_y = min ( move_cd_y , 1 )
IF ( move_cd_x .LT. 0 ) move_cd_x = max ( move_cd_x , -1 )
IF ( move_cd_y .LT. 0 ) move_cd_y = max ( move_cd_y , -1 )
CALL domain_clock_get( grid, current_timestr=timestr )
IF ( wrf_dm_on_monitor() ) THEN
WRITE(mess,*)timestr(1:19),' vortex center (in nest x and y): ',grid%vc_i, grid%vc_j
CALL wrf_message(TRIM(mess))
WRITE(mess,*)timestr(1:19),' grid center (in nest x and y): ', dc_i, dc_j
CALL wrf_message(TRIM(mess))
WRITE(mess,*)timestr(1:19),' disp : ', disp_x, disp_y
CALL wrf_message(TRIM(mess))
WRITE(mess,*)timestr(1:19),' move (rel cd) : ',move_cd_x, move_cd_y
CALL wrf_message(TRIM(mess))
ENDIF
grid%vc_i = grid%vc_i - move_cd_x * pgr
grid%vc_j = grid%vc_j - move_cd_y * pgr
# ifdef MOVING_DIAGS
IF ( wrf_dm_on_monitor() ) THEN
write(mess,*)' changing grid%vc_i, move_cd_x * pgr ', grid%vc_i, move_cd_x * pgr, move_cd_x, pgr
call wrf_debug(1,mess)
ENDIF
# endif
IF ( ( move_cd_x .NE. 0 ) .OR. ( move_cd_y .NE. 0 ) ) THEN
time_for_move2 = .TRUE.
ELSE
time_for_move2 = .FALSE.
ENDIF
# else
! from namelist
move_cd_x = 0
move_cd_y = 0
time_for_move2 = .FALSE.
CALL domain_clock_get( grid, current_time=ct, start_time=st )
CALL nl_get_num_moves( 1, num_moves )
IF ( num_moves .GT. max_moves ) THEN
WRITE(mess,*)'time_for_moves2: num_moves (',num_moves,') .GT. max_moves (',max_moves,')'
CALL wrf_error_fatal( TRIM(mess) )
ENDIF
DO i = 1, num_moves
CALL nl_get_move_id( i, move_id )
IF ( move_id .EQ. grid%id ) THEN
CALL nl_get_move_interval( i, move_interval )
IF ( move_interval .LT. 999999999 ) THEN
CALL WRFU_TimeIntervalSet ( ti, M=move_interval, rc=rc )
IF ( ct .GE. st + ti ) THEN
CALL nl_get_move_cd_x ( i, move_cd_x )
CALL nl_get_move_cd_y ( i, move_cd_y )
CALL nl_set_move_interval ( i, 999999999 )
time_for_move2 = .TRUE.
EXIT
ENDIF
ENDIF
ENDIF
ENDDO
# endif
RETURN
#else
time_for_move2 = .FALSE.
#endif
END FUNCTION time_for_move2
LOGICAL FUNCTION time_for_move ( parent , grid , move_cd_x, move_cd_y )
USE module_domain, ONLY : domain, get_ijk_from_grid, adjust_domain_dims_for_move
! USE module_configure
USE module_dm, ONLY : wrf_dm_move_nest
USE module_timing
USE module_utility
IMPLICIT NONE
! arguments
TYPE(domain) , POINTER :: parent, grid, par, nst
INTEGER, INTENT(OUT) :: move_cd_x , move_cd_y
#ifdef MOVE_NESTS
! local
INTEGER :: corral_dist, kid
INTEGER :: dw, de, ds, dn, pgr
INTEGER :: would_move_x, would_move_y
INTEGER :: cids, cide, cjds, cjde, ckds, ckde, &
cims, cime, cjms, cjme, ckms, ckme, &
cips, cipe, cjps, cjpe, ckps, ckpe, &
nids, nide, njds, njde, nkds, nkde, &
nims, nime, njms, njme, nkms, nkme, &
nips, nipe, njps, njpe, nkps, nkpe
REAL :: xtime, time_to_move
! interface
INTERFACE
LOGICAL FUNCTION time_for_move2 ( parent , nest , dx , dy )
USE module_domain, ONLY : domain
TYPE(domain) , POINTER :: parent , nest
INTEGER, INTENT(OUT) :: dx , dy
END FUNCTION time_for_move2
END INTERFACE
! executable
!
! Simplifying assumption: domains in moving nest simulations have only
! one parent and only one child.
IF ( grid%num_nests .GT. 1 ) THEN
CALL wrf_error_fatal ( 'domains in moving nest simulations can have only 1 nest' )
ENDIF
kid = 1
#if ( EM_CORE == 1 )
! Check if it is time to move the nest
xtime = grid%xtime
CALL nl_get_time_to_move ( grid%id , time_to_move )
if ( xtime .lt. time_to_move ) then
time_for_move = .FALSE.
move_cd_x = 0
move_cd_y = 0
! write(0,*) 'it is not the time to move ', xtime, time_to_move
return
endif
#endif
!
! find out if this is the innermost nest (will not have kids)
IF ( grid%num_nests .EQ. 0 ) THEN
! code that executes on innermost nest
time_for_move = time_for_move2 ( parent , grid , move_cd_x, move_cd_y )
! Make sure the parent can move before allowing the nest to approach
! its boundary
par => grid%parents(1)%ptr
nst => grid
would_move_x = move_cd_x
would_move_y = move_cd_y
! top of until loop
100 CONTINUE
CALL nl_get_corral_dist ( nst%id , corral_dist )
CALL get_ijk_from_grid ( nst , &
nids, nide, njds, njde, nkds, nkde, &
nims, nime, njms, njme, nkms, nkme, &
nips, nipe, njps, njpe, nkps, nkpe )
CALL get_ijk_from_grid ( par , &
cids, cide, cjds, cjde, ckds, ckde, &
cims, cime, cjms, cjme, ckms, ckme, &
cips, cipe, cjps, cjpe, ckps, ckpe )
CALL nl_get_parent_grid_ratio ( nst%id , pgr )
! perform measurements...
! from western boundary
dw = nst%i_parent_start + would_move_x - cids
! from southern boundary
ds = nst%j_parent_start + would_move_y - cjds
! from eastern boundary
de = cide - ( nst%i_parent_start + (nide-nids+1)/pgr + would_move_x )
! from northern boundary
dn = cjde - ( nst%j_parent_start + (njde-njds+1)/pgr + would_move_y )
! would this generate a move on the parent?
would_move_x = 0
would_move_y = 0
if ( dw .LE. corral_dist ) would_move_x = would_move_x - 1
if ( de .LE. corral_dist ) would_move_x = would_move_x + 1
if ( ds .LE. corral_dist ) would_move_y = would_move_y - 1
if ( dn .LE. corral_dist ) would_move_y = would_move_y + 1
IF ( par%id .EQ. 1 ) THEN
IF ( would_move_x .NE. 0 .AND. move_cd_x .NE. 0 ) THEN
CALL wrf_message('MOAD can not move. Cancelling nest move in X')
if ( grid%num_nests .eq. 0 ) grid%vc_i = grid%vc_i + move_cd_x * pgr ! cancel effect of move
move_cd_x = 0
ENDIF
IF ( would_move_y .NE. 0 .AND. move_cd_y .NE. 0 ) THEN
CALL wrf_message('MOAD can not move. Cancelling nest move in Y')
if ( grid%num_nests .eq. 0 ) grid%vc_j = grid%vc_j + move_cd_y * pgr ! cancel effect of move
move_cd_y = 0
ENDIF
ELSE
nst => par
par => nst%parents(1)%ptr
GOTO 100
ENDIF
! bottom of until loop
time_for_move = ( move_cd_x .NE. 0 ) .OR. ( move_cd_y .NE. 0 )
ELSE
! code that executes on parent to see if parent needs to move
! get closest number of cells we'll allow nest edge to approach parent bdy
CALL nl_get_corral_dist ( grid%nests(kid)%ptr%id , corral_dist )
! get dims
CALL get_ijk_from_grid ( grid%nests(kid)%ptr , &
nids, nide, njds, njde, nkds, nkde, &
nims, nime, njms, njme, nkms, nkme, &
nips, nipe, njps, njpe, nkps, nkpe )
CALL get_ijk_from_grid ( grid , &
cids, cide, cjds, cjde, ckds, ckde, &
cims, cime, cjms, cjme, ckms, ckme, &
cips, cipe, cjps, cjpe, ckps, ckpe )
CALL nl_get_parent_grid_ratio ( grid%nests(kid)%ptr%id , pgr )
! perform measurements...
! from western boundary
dw = grid%nests(kid)%ptr%i_parent_start - 1
! from southern boundary
ds = grid%nests(kid)%ptr%j_parent_start - 1
! from eastern boundary
de = cide - ( grid%nests(kid)%ptr%i_parent_start + (nide-nids+1)/pgr )
! from northern boundary
dn = cjde - ( grid%nests(kid)%ptr%j_parent_start + (njde-njds+1)/pgr )
! move this domain (the parent containing the moving nest)
! in a direction that reestablishes the distance from
! the boundary.
move_cd_x = 0
move_cd_y = 0
if ( dw .LE. corral_dist ) move_cd_x = move_cd_x - 1
if ( de .LE. corral_dist ) move_cd_x = move_cd_x + 1
if ( ds .LE. corral_dist ) move_cd_y = move_cd_y - 1
if ( dn .LE. corral_dist ) move_cd_y = move_cd_y + 1
time_for_move = ( move_cd_x .NE. 0 ) .OR. ( move_cd_y .NE. 0 )
IF ( time_for_move ) THEN
IF ( grid%id .EQ. 1 ) THEN
CALL wrf_message( 'DANGER: Nest has moved too close to boundary of outermost domain.' )
time_for_move = .FALSE.
ELSE
! need to adjust the intermediate domain of the nest in relation to this
! domain since we're moving
CALL wrf_dm_move_nest ( grid , grid%nests(kid)%ptr%intermediate_grid , -move_cd_x*pgr, -move_cd_y*pgr )
CALL adjust_domain_dims_for_move( grid%nests(kid)%ptr%intermediate_grid , -move_cd_x*pgr, -move_cd_y*pgr )
grid%nests(kid)%ptr%i_parent_start = grid%nests(kid)%ptr%i_parent_start - move_cd_x*pgr
grid%nests(kid)%ptr%j_parent_start = grid%nests(kid)%ptr%j_parent_start - move_cd_y*pgr
CALL nl_set_i_parent_start( grid%nests(kid)%ptr%id, grid%nests(kid)%ptr%i_parent_start )
CALL nl_set_j_parent_start( grid%nests(kid)%ptr%id, grid%nests(kid)%ptr%j_parent_start )
ENDIF
ENDIF
ENDIF
RETURN
#else
time_for_move = .FALSE.
#endif
END FUNCTION time_for_move
! Put any tests for non-moving options or conditions in here
LOGICAL FUNCTION should_not_move ( id )
USE module_state_description
! USE module_configure
IMPLICIT NONE
INTEGER, INTENT(IN) :: id
! Local
LOGICAL retval
INTEGER cu_physics, ra_sw_physics, ra_lw_physics, sf_urban_physics, sf_surface_physics, obs_nudge_opt
retval = .FALSE.
! check for GD ensemble cumulus, which can not move
CALL nl_get_cu_physics( id , cu_physics )
IF ( cu_physics .EQ. GDSCHEME ) THEN
CALL wrf_message('Grell cumulus can not be specified with moving nests. Movement disabled.')
retval = .TRUE.
ENDIF
! check for CAM radiation scheme , which can not move
CALL nl_get_ra_sw_physics( id , ra_sw_physics )
IF ( ra_sw_physics .EQ. CAMSWSCHEME ) THEN
CALL wrf_message('CAM SW radiation can not be specified with moving nests. Movement disabled.')
retval = .TRUE.
ENDIF
CALL nl_get_ra_lw_physics( id , ra_lw_physics )
IF ( ra_lw_physics .EQ. CAMLWSCHEME ) THEN
CALL wrf_message('CAM LW radiation can not be specified with moving nests. Movement disabled.')
retval = .TRUE.
ENDIF
! check for urban canopy Noah LSM, which can not move
CALL nl_get_sf_urban_physics( id , sf_urban_physics )
IF ( sf_urban_physics .EQ. 1 .OR. sf_urban_physics .EQ. 2 ) THEN
CALL wrf_message('UCMs Noah LSM can not be specified with moving nests. Movement disabled.')
retval = .TRUE.
ENDIF
! check for PX lsm scheme, which can not move
CALL nl_get_sf_surface_physics( id , sf_surface_physics )
IF ( sf_surface_physics .EQ. PXLSMSCHEME ) THEN
CALL wrf_message('PX LSM can not be specified with moving nests. Movement disabled.')
retval = .TRUE.
ENDIF
#if ( EM_CORE == 1 )
! check for observation nudging, which can not move
CALL nl_get_obs_nudge_opt( id , obs_nudge_opt )
IF ( obs_nudge_opt .EQ. 1 ) THEN
CALL wrf_message('Observation nudging can not be specified with moving nests. Movement disabled.')
retval = .TRUE.
ENDIF
#endif
should_not_move = retval
END FUNCTION
SUBROUTINE reconcile_nest_positions_over_tasks ( grid )
USE module_driver_constants, ONLY : max_nests, max_domains
USE module_domain, ONLY : domain, find_grid_by_id
USE module_utility
USE module_configure, ONLY : grid_config_rec_type, model_config_rec, model_to_grid_config_rec
USE module_state_description
#ifdef DM_PARALLEL
USE module_dm, ONLY : wrf_dm_move_nest, nest_task_offsets,mpi_comm_to_kid,mpi_comm_to_mom, which_kid &
,comm_start, nest_pes_x, nest_pes_y,local_communicator
IMPLICIT NONE
TYPE(domain) , POINTER :: grid, result_grid
!local
INTEGER kid
INTEGER itask
INTEGER max_dom, id
INTEGER buf(max_domains,2)