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wrf_timeseries.F
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wrf_timeseries.F
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!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!
! This routine prints out the current value of variables at all specified
! time series locations that are within the current patch.
!
! Michael G. Duda -- 25 August 2005
! vertical profiles added by Torge Lorenz -- June 2012
! ability to output at either i/j or lat/lon locations, and ability to
! output W, added by Pat Hawbecker -- Jan 2019
! ability to output O3 (chem), added by Xin Zhang -- Feb 2020
!
!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!
SUBROUTINE calc_ts_locations( grid )
USE module_domain, ONLY : domain, get_ijk_from_grid
USE module_configure, ONLY : model_config_rec, grid_config_rec_type, model_to_grid_config_rec
USE module_dm, ONLY : wrf_dm_min_real
USE module_llxy
USE module_state_description
USE module_model_constants
IMPLICIT NONE
! Arguments
TYPE (domain), INTENT(INOUT) :: grid
! Externals
LOGICAL, EXTERNAL :: wrf_dm_on_monitor
INTEGER, EXTERNAL :: get_unused_unit
! Local variables
INTEGER :: ntsloc_temp
INTEGER :: i, j, k, iunit
REAL :: ts_rx, ts_ry, ts_xlat, ts_xlong, ts_hgt
REAL :: known_lat, known_lon
CHARACTER (LEN=132) :: message
CHARACTER (LEN=24) :: ts_profile_filename
#if (WRF_CHEM == 1)
INTEGER, PARAMETER :: TS_FIELDS = 8
CHARACTER (LEN=2), DIMENSION(TS_FIELDS) :: &
ts_file_endings = (/ 'UU', 'VV', 'PH', 'TH', 'QV' ,'WW', 'PR', 'O3'/)
#else
INTEGER, PARAMETER :: TS_FIELDS = 7
CHARACTER (LEN=2), DIMENSION(TS_FIELDS) :: &
ts_file_endings = (/ 'UU', 'VV', 'PH', 'TH', 'QV' ,'WW', 'PR'/)
#endif
INTEGER ierr
CHARACTER (len=19) simulation_start_date
INTEGER simulation_start_year , &
simulation_start_month , &
simulation_start_day , &
simulation_start_hour , &
simulation_start_minute , &
simulation_start_second
TYPE (PROJ_INFO) :: ts_proj
TYPE (grid_config_rec_type) :: config_flags
INTEGER :: 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, &
imsy, imey, jmsy, jmey, kmsy, kmey, &
ipsy, ipey, jpsy, jpey, kpsy, kpey
IF ( grid%ntsloc .LE. 0 ) RETURN
#if ((EM_CORE == 1) && (DA_CORE != 1))
IF ( grid%dfi_stage == DFI_FST ) THEN
#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, &
imsx, imex, jmsx, jmex, kmsx, kmex, &
ipsx, ipex, jpsx, jpex, kpsx, kpex, &
imsy, imey, jmsy, jmey, kmsy, kmey, &
ipsy, ipey, jpsy, jpey, kpsy, kpey )
CALL model_to_grid_config_rec ( grid%id , model_config_rec , config_flags )
! Set up map transformation structure
CALL map_init(ts_proj)
IF (ips <= 1 .AND. 1 <= ipe .AND. &
jps <= 1 .AND. 1 <= jpe) THEN
known_lat = grid%xlat(1,1)
known_lon = grid%xlong(1,1)
ELSE
known_lat = 9999.
known_lon = 9999.
END IF
known_lat = wrf_dm_min_real(known_lat)
known_lon = wrf_dm_min_real(known_lon)
! Mercator
IF (config_flags%map_proj == PROJ_MERC) THEN
CALL map_set(PROJ_MERC, ts_proj, &
truelat1 = config_flags%truelat1, &
lat1 = known_lat, &
lon1 = known_lon, &
knowni = 1., &
knownj = 1., &
dx = config_flags%dx)
! Lambert conformal
ELSE IF (config_flags%map_proj == PROJ_LC) THEN
CALL map_set(PROJ_LC, ts_proj, &
truelat1 = config_flags%truelat1, &
truelat2 = config_flags%truelat2, &
stdlon = config_flags%stand_lon, &
lat1 = known_lat, &
lon1 = known_lon, &
knowni = 1., &
knownj = 1., &
dx = config_flags%dx)
! Polar stereographic
ELSE IF (config_flags%map_proj == PROJ_PS) THEN
CALL map_set(PROJ_PS, ts_proj, &
truelat1 = config_flags%truelat1, &
stdlon = config_flags%stand_lon, &
lat1 = known_lat, &
lon1 = known_lon, &
knowni = 1., &
knownj = 1., &
dx = config_flags%dx)
#if (EM_CORE == 1)
! Cassini (global ARW)
ELSE IF (config_flags%map_proj == PROJ_CASSINI) THEN
CALL map_set(PROJ_CASSINI, ts_proj, &
latinc = grid%dy*360.0/(2.0*EARTH_RADIUS_M*PI), &
loninc = grid%dx*360.0/(2.0*EARTH_RADIUS_M*PI), &
lat1 = known_lat, &
lon1 = known_lon, &
lat0 = config_flags%pole_lat, &
lon0 = config_flags%pole_lon, &
knowni = 1., &
knownj = 1., &
stdlon = config_flags%stand_lon)
#endif
! Rotated latitude-longitude
ELSE IF (config_flags%map_proj == PROJ_ROTLL) THEN
CALL map_set(PROJ_ROTLL, ts_proj, &
! I have no idea how this should work for NMM nested domains
ixdim = grid%e_we-1, &
jydim = grid%e_sn-1, &
phi = real(grid%e_sn-2)*grid%dy/2.0, &
lambda = real(grid%e_we-2)*grid%dx, &
lat1 = config_flags%cen_lat, &
lon1 = config_flags%cen_lon, &
latinc = grid%dy, &
loninc = grid%dx, &
stagger = HH)
END IF
! Determine simulation start time
ierr = 0
CALL nl_get_simulation_start_year ( 1 , simulation_start_year )
CALL nl_get_simulation_start_month ( 1 , simulation_start_month )
CALL nl_get_simulation_start_day ( 1 , simulation_start_day )
CALL nl_get_simulation_start_hour ( 1 , simulation_start_hour )
CALL nl_get_simulation_start_minute ( 1 , simulation_start_minute )
CALL nl_get_simulation_start_second ( 1 , simulation_start_second )
WRITE ( simulation_start_date , FMT = '(I4.4,"-",I2.2,"-",I2.2,"_",I2.2,":",I2.2,":",I2.2)' ) &
simulation_start_year,simulation_start_month,simulation_start_day,simulation_start_hour, &
simulation_start_minute,simulation_start_second
! WRITE(message,*)'wrf_timeseries: SIMULATION_START_DATE = ',simulation_start_date(1:19)
! CALL wrf_debug ( 0, TRIM( message ) )
! Determine time series locations for domain
IF (.NOT. grid%have_calculated_tslocs) THEN
grid%have_calculated_tslocs = .TRUE.
WRITE(message, '(A43,I3,A15,A19)') 'Computing time series locations for domain ', grid%id, &
' starting from ',simulation_start_date
CALL wrf_message(message)
ntsloc_temp = 0
! Boolean if/else for ij and lat/lon that sets ts_rx(y) to either ij or lat/lon value from tslist
DO k=1,grid%ntsloc
! Ideal case (which has a cartesian coordinate) or specified (i,j) in tslist
IF (config_flags%map_proj == 0 .OR. grid%tslist_ij) THEN
ts_rx = grid%itsloc(k)
ts_ry = grid%jtsloc(k)
! Real-data case with input locations provided as (lat,lon)
ELSE
CALL latlon_to_ij(ts_proj, grid%lattsloc(k), grid%lontsloc(k), ts_rx, ts_ry)
END IF
ntsloc_temp = ntsloc_temp + 1
grid%itsloc(ntsloc_temp) = NINT(ts_rx)
grid%jtsloc(ntsloc_temp) = NINT(ts_ry)
grid%id_tsloc(ntsloc_temp) = k
! Is point outside of domain (or on the edge of domain)?
IF (grid%itsloc(ntsloc_temp) < ids .OR. grid%itsloc(ntsloc_temp) > ide .OR. &
grid%jtsloc(ntsloc_temp) < jds .OR. grid%jtsloc(ntsloc_temp) > jde) THEN
ntsloc_temp = ntsloc_temp - 1
END IF
END DO
grid%next_ts_time = 1
grid%ntsloc_domain = ntsloc_temp
DO k=1,grid%ntsloc_domain
! If location is outside of patch, we need to get lat/lon of TS grid cell from another patch
IF (grid%itsloc(k) < ips .OR. grid%itsloc(k) > ipe .OR. &
grid%jtsloc(k) < jps .OR. grid%jtsloc(k) > jpe) THEN
ts_xlat = 1.E30
ts_xlong = 1.E30
ts_hgt = 1.E30
ELSE
ts_xlat = grid%xlat(grid%itsloc(k),grid%jtsloc(k))
ts_xlong = grid%xlong(grid%itsloc(k),grid%jtsloc(k))
#if (EM_CORE == 1)
ts_hgt = grid%ht(grid%itsloc(k),grid%jtsloc(k))
#endif
END IF
#if DM_PARALLEL
ts_xlat = wrf_dm_min_real(ts_xlat)
ts_xlong = wrf_dm_min_real(ts_xlong)
ts_hgt = wrf_dm_min_real(ts_hgt)
#endif
IF ( wrf_dm_on_monitor() ) THEN
iunit = get_unused_unit()
IF ( iunit <= 0 ) THEN
CALL wrf_error_fatal('Error in calc_ts_locations: could not find a free Fortran unit.')
END IF
WRITE(grid%ts_filename(k),'(A)') TRIM(grid%nametsloc(grid%id_tsloc(k)))//'.d00.TS'
i = LEN_TRIM(grid%ts_filename(k))
WRITE(grid%ts_filename(k)(i-4:i-3),'(I2.2)') grid%id
OPEN(UNIT=iunit, FILE=TRIM(grid%ts_filename(k)), FORM='FORMATTED', STATUS='REPLACE')
#if (EM_CORE == 1)
IF ( .NOT. grid%tslist_ij ) THEN
WRITE(UNIT=iunit, &
FMT='(A26,I2,I3,A6,A2,F7.3,A1,F8.3,A3,I4,A1,I4,A3,F7.3,A1,F8.3,A2,F6.1,A7,A2,A19)') &
grid%desctsloc(grid%id_tsloc(k))//' ', grid%id, grid%id_tsloc(k), &
' '//grid%nametsloc(grid%id_tsloc(k)), &
' (', grid%lattsloc(grid%id_tsloc(k)), ',', grid%lontsloc(grid%id_tsloc(k)), ') (', &
grid%itsloc(k), ',', grid%jtsloc(k), ') (', &
ts_xlat, ',', ts_xlong, ') ', &
ts_hgt,' meters',' ',simulation_start_date(1:19)
ELSE
WRITE(UNIT=iunit, &
FMT='(A26,I2,I3,A6,A2,F7.3,A1,F8.3,A3,I4,A1,I4,A3,F7.3,A1,F8.3,A2,F6.1,A7,A2,A19)') &
grid%desctsloc(grid%id_tsloc(k))//' ', grid%id, grid%id_tsloc(k), &
' '//grid%nametsloc(grid%id_tsloc(k)), &
' (', ts_xlat, ',', ts_xlong, ') (', &
grid%itsloc(k), ',', grid%jtsloc(k), ') (', &
ts_xlat, ',', ts_xlong, ') ', &
ts_hgt,' meters',' ',simulation_start_date(1:19)
END IF
#else
WRITE(UNIT=iunit, &
FMT='(A26,I2,I3,A6,A2,F7.3,A1,F8.3,A3,I4,A1,I4,A3,F7.3,A1,F8.3,A2)') &
grid%desctsloc(grid%id_tsloc(k))//' ', grid%id, grid%id_tsloc(k), &
' '//grid%nametsloc(grid%id_tsloc(k)), &
' (', grid%lattsloc(grid%id_tsloc(k)), ',', grid%lontsloc(grid%id_tsloc(k)), ') (', &
grid%itsloc(k), ',', grid%jtsloc(k), ') (', &
ts_xlat, ',', ts_xlong, ') '
#endif
CLOSE(UNIT=iunit)
ts_profile_filename = grid%ts_filename(k)
DO j=1,SIZE(ts_file_endings)
! Create the output files for the vertical profiles, one file for each variable
iunit = get_unused_unit()
IF ( iunit <= 0 ) THEN
CALL wrf_error_fatal('Error in calc_ts_locations: could not find a free Fortran unit.')
END IF
i = LEN_TRIM(ts_profile_filename)
WRITE(ts_profile_filename(i-1:i),'(A2)') ts_file_endings(j)
OPEN(UNIT=iunit, FILE=TRIM(ts_profile_filename), FORM='FORMATTED', STATUS='REPLACE')
#if (EM_CORE == 1)
IF ( .NOT. grid%tslist_ij ) THEN
WRITE(UNIT=iunit, &
FMT='(A26,I2,I3,A6,A2,F7.3,A1,F8.3,A3,I4,A1,I4,A3,F7.3,A1,F8.3,A2,F6.1,A7,A2,A19)') &
grid%desctsloc(grid%id_tsloc(k))//' ', grid%id, grid%id_tsloc(k), &
' '//grid%nametsloc(grid%id_tsloc(k)), &
' (', grid%lattsloc(grid%id_tsloc(k)), ',', grid%lontsloc(grid%id_tsloc(k)), ') (', &
grid%itsloc(k), ',', grid%jtsloc(k), ') (', &
ts_xlat, ',', ts_xlong, ') ', &
ts_hgt,' meters',' ',simulation_start_date
ELSE
WRITE(UNIT=iunit, &
FMT='(A26,I2,I3,A6,A2,F7.3,A1,F8.3,A3,I4,A1,I4,A3,F7.3,A1,F8.3,A2,F6.1,A7,A2,A19)') &
grid%desctsloc(grid%id_tsloc(k))//' ', grid%id, grid%id_tsloc(k), &
' '//grid%nametsloc(grid%id_tsloc(k)), &
' (', ts_xlat, ',', ts_xlong, ') (', &
grid%itsloc(k), ',', grid%jtsloc(k), ') (', &
ts_xlat, ',', ts_xlong, ') ', &
ts_hgt,' meters,',' ',simulation_start_date
END IF
#else
WRITE(UNIT=iunit, &
FMT='(A26,I2,I3,A6,A2,F7.3,A1,F8.3,A3,I4,A1,I4,A3,F7.3,A1,F8.3,A2)') &
grid%desctsloc(grid%id_tsloc(k))//' ', grid%id, grid%id_tsloc(k), &
' '//grid%nametsloc(grid%id_tsloc(k)), &
' (', grid%lattsloc(grid%id_tsloc(k)), ',', grid%lontsloc(grid%id_tsloc(k)), ') (', &
grid%itsloc(k), ',', grid%jtsloc(k), ') (', &
ts_xlat, ',', ts_xlong, ') '
#endif
CLOSE(UNIT=iunit)
END DO
END IF
END DO
END IF
#if ((EM_CORE == 1) && (DA_CORE != 1))
END IF
#endif
END SUBROUTINE calc_ts_locations
SUBROUTINE calc_ts( grid )
USE module_domain
USE module_configure, ONLY : model_config_rec, grid_config_rec_type, model_to_grid_config_rec
USE module_model_constants
IMPLICIT NONE
! Arguments
TYPE (domain), INTENT(INOUT) :: grid
LOGICAL, EXTERNAL :: wrf_dm_on_monitor
! Local variables
INTEGER :: i, k, mm, n, ix, iy, rc
REAL :: earth_u, earth_v, &
output_t, output_q, clw, xtime_minutes
REAL, PARAMETER :: MISSING = -999.0
REAL, ALLOCATABLE, DIMENSION(:) :: p8w
REAL, ALLOCATABLE, DIMENSION(:) :: earth_u_profile, earth_v_profile
TYPE (grid_config_rec_type) :: config_flags
! Parameter ts_model_level:
! TRUE to output T, Q, and wind at lowest model level
! FALSE to output T and Q at 2-m and wind at 10-m diagnostic levels:
LOGICAL, PARAMETER :: ts_model_level = .FALSE.
!Allocate the arrays for wind components
#if ( EM_CORE == 1 )
ALLOCATE ( earth_u_profile(grid%max_ts_level), earth_v_profile(grid%max_ts_level) )
#endif
IF ( grid%ntsloc_domain .LE. 0 ) RETURN
#if ((EM_CORE == 1) && (DA_CORE != 1))
IF ( grid%dfi_opt /= DFI_NODFI .AND. grid%dfi_stage /= DFI_FST ) RETURN
#endif
n = grid%next_ts_time
ALLOCATE(p8w(grid%sm32:grid%em32))
CALL model_to_grid_config_rec ( grid%id , model_config_rec , config_flags )
DO i=1,grid%ntsloc_domain
ix = grid%itsloc(i)
iy = grid%jtsloc(i)
IF (grid%sp31 <= ix .AND. ix <= grid%ep31 .AND. &
grid%sp33 <= iy .AND. iy <= grid%ep33) THEN
IF (ts_model_level) THEN
!
! Output from the lowest model computational level:
!
#if (EM_CORE == 1)
earth_u = grid%u_2(ix,1,iy)*grid%cosa(ix,iy)-grid%v_2(ix,1,iy)*grid%sina(ix,iy)
earth_v = grid%v_2(ix,1,iy)*grid%cosa(ix,iy)+grid%u_2(ix,1,iy)*grid%sina(ix,iy)
IF (grid%use_theta_m == 1) THEN
output_t = (grid%t_2(ix,1,iy)+T0)/(1.+R_v/R_d*grid%moist(ix,1,iy,P_QV)) - T0
ELSE
output_t = grid%t_2(ix,1,iy)
END IF
#else
earth_u = grid%u(ix,1,iy)
earth_v = grid%v(ix,1,iy)
output_t = grid%t(ix,1,iy)
#endif
output_q = grid%moist(ix,1,iy,P_QV)
ELSE
!
! Output at 2-m and 10-m diagnostic levels:
!
#if (EM_CORE == 1)
DO k=1,grid%max_ts_level
! interpolation loop: if you want u,v on cell centers, tslist_unstagger_winds = .true.
IF (config_flags%tslist_unstagger_winds) THEN
earth_u_profile(k) = &
((grid%u_2(ix,k,iy)*grid%cosa(ix,iy)-grid%v_2(ix,k,iy)*grid%sina(ix,iy)) + &
(grid%u_2(ix+1,k,iy)*grid%cosa(ix+1,iy)-grid%v_2(ix+1,k,iy)*grid%sina(ix+1,iy)))/2.0
earth_v_profile(k) = &
((grid%v_2(ix,k,iy)*grid%cosa(ix,iy)+grid%u_2(ix,k,iy)*grid%sina(ix,iy)) + &
(grid%v_2(ix,k,iy+1)*grid%cosa(ix,iy+1)+grid%u_2(ix,k,iy+1)*grid%sina(ix,iy+1)))/2.0
ELSE
earth_u_profile(k) = grid%u_2(ix,k,iy)*grid%cosa(ix,iy)-grid%v_2(ix,k,iy)*grid%sina(ix,iy)
earth_v_profile(k) = grid%v_2(ix,k,iy)*grid%cosa(ix,iy)+grid%u_2(ix,k,iy)*grid%sina(ix,iy)
END IF
END DO
earth_u = grid%u10(ix,iy)*grid%cosa(ix,iy)-grid%v10(ix,iy)*grid%sina(ix,iy)
earth_v = grid%v10(ix,iy)*grid%cosa(ix,iy)+grid%u10(ix,iy)*grid%sina(ix,iy)
output_q = grid%q2(ix,iy)
#else
earth_u = grid%u10(ix,iy)
earth_v = grid%v10(ix,iy)
output_q = grid%qsfc(ix,iy)
#endif
output_t = grid%t2(ix,iy)
END IF
#if (EM_CORE == 1)
! Calculate column-integrated liquid/ice (kg/m^2 or mm)
CALL calc_p8w(grid, ix, iy, p8w, grid%sm32, grid%em32)
clw=0.
DO mm = 1, num_moist
IF ( (mm == P_QC) .OR. (mm == P_QR) .OR. (mm == P_QI) .OR. &
(mm == P_QS) .OR. (mm == P_QG) ) THEN
DO k=grid%sm32,grid%em32-1
clw=clw+grid%moist(ix,k,iy,mm)*(p8w(k)-p8w(k+1))
END DO
END IF
END DO
clw = clw / g
#endif
CALL domain_clock_get( grid, minutesSinceSimulationStart=xtime_minutes )
grid%ts_hour(n,i) = xtime_minutes / 60.
#if (EM_CORE == 1)
!Create vertical profiles, from lowest model level up to desired level max_ts_level
DO k=1,grid%max_ts_level
grid%ts_u_profile(n,i,k) = earth_u_profile(k)
grid%ts_v_profile(n,i,k) = earth_v_profile(k)
grid%ts_w_profile(n,i,k) = (grid%w_2(ix,k,iy)+grid%w_2(ix,k+1,iy))/2.0 ! w on cell center
grid%ts_gph_profile(n,i,k) = 0.5*((grid%phb(ix,k,iy)+grid%ph_2(ix,k,iy)) &
+(grid%phb(ix,k+1,iy)+grid%ph_2(ix,k+1,iy)))/9.81
IF (grid%use_theta_m == 1) THEN
grid%ts_th_profile(n,i,k) = (grid%t_2(ix,k,iy) + T0)/(1.+R_v/R_d*grid%moist(ix,k,iy,P_QV))
ELSE
grid%ts_th_profile(n,i,k) = grid%t_2(ix,k,iy) + T0
END IF
grid%ts_qv_profile(n,i,k) = grid%moist(ix,k,iy,P_QV)
grid%ts_p_profile(n,i,k) = grid%pb(ix,k,iy)+grid%p(ix,k,iy)
END DO
#endif
#if (WRF_CHEM == 1)
DO k=1,grid%max_ts_level
grid%ts_o3_profile(n,i,k) = grid%chem(ix,k,iy,p_o3)
END DO
#endif
grid%ts_u(n,i) = earth_u
grid%ts_v(n,i) = earth_v
grid%ts_t(n,i) = output_t
grid%ts_q(n,i) = output_q
grid%ts_psfc(n,i) = grid%psfc(ix,iy)
#if (EM_CORE == 1)
grid%ts_glw(n,i) = grid%glw(ix,iy)
grid%ts_gsw(n,i) = grid%gsw(ix,iy)
grid%ts_hfx(n,i) = grid%hfx(ix,iy)
grid%ts_lh(n,i) = grid%lh(ix,iy)
grid%ts_clw(n,i) = clw
grid%ts_rainc(n,i) = grid%rainc(ix,iy)
grid%ts_rainnc(n,i) = grid%rainnc(ix,iy)
grid%ts_tsk(n,i) = grid%tsk(ix,iy)
IF ( model_config_rec%process_time_series == 2 ) THEN
!!! Solar diagnostics
grid%ts_cldfrac2d(n,i) = grid%cldfrac2d(ix,iy)
grid%ts_wvp(n,i) = grid%wvp(ix,iy)
grid%ts_lwp(n,i) = grid%lwp(ix,iy)
grid%ts_iwp(n,i) = grid%iwp(ix,iy)
grid%ts_swp(n,i) = grid%swp(ix,iy)
grid%ts_wp_sum(n,i) = grid%wp_sum(ix,iy)
grid%ts_lwp_tot(n,i) = grid%lwp_tot(ix,iy)
grid%ts_iwp_tot(n,i) = grid%iwp_tot(ix,iy)
grid%ts_wp_tot_sum(n,i) = grid%wp_tot_sum(ix,iy)
grid%ts_re_qc(n,i) = grid%re_qc(ix,iy)
grid%ts_re_qi(n,i) = grid%re_qi(ix,iy)
grid%ts_re_qs(n,i) = grid%re_qs(ix,iy)
grid%ts_re_qc_tot(n,i) = grid%re_qc_tot(ix,iy)
grid%ts_re_qi_tot(n,i) = grid%re_qi_tot(ix,iy)
grid%ts_tau_qc(n,i) = grid%tau_qc(ix,iy)
grid%ts_tau_qi(n,i) = grid%tau_qi(ix,iy)
grid%ts_tau_qs(n,i) = grid%tau_qs(ix,iy)
grid%ts_tau_qc_tot(n,i) = grid%tau_qc_tot(ix,iy)
grid%ts_tau_qi_tot(n,i) = grid%tau_qi_tot(ix,iy)
grid%ts_cbaseht(n,i) = grid%cbaseht(ix,iy)
grid%ts_ctopht(n,i) = grid%ctopht(ix,iy)
grid%ts_cbaseht_tot(n,i) = grid%cbaseht_tot(ix,iy)
grid%ts_ctopht_tot(n,i) = grid%ctopht_tot(ix,iy)
grid%ts_clrnidx(n,i) = grid%clrnidx(ix,iy)
grid%ts_sza(n,i) = grid%sza(ix,iy)
grid%ts_ghi_accum(n,i) = grid%ghi_accum(ix,iy)
grid%ts_swdown(n,i) = grid%swdown(ix,iy)
grid%ts_swddni(n,i) = grid%swddni(ix,iy)
grid%ts_swddif(n,i) = grid%swddif(ix,iy)
! Calc extra solar variables if FARMS or RRTMG/RRTMG FAST
if ( config_flags%swint_opt == 2 .or. &
config_flags%ra_sw_physics == RRTMG_SWSCHEME .or. &
config_flags%ra_sw_physics == RRTMG_SWSCHEME_FAST ) then
grid%ts_swdownc(n,i) = grid%swdownc(ix,iy)
grid%ts_swddnic(n,i) = grid%swddnic(ix,iy)
if ( config_flags%swint_opt == 2 ) then ! FARMS
grid%ts_swdown2(n,i) = grid%swdown2(ix,iy)
grid%ts_swddni2(n,i) = grid%swddni2(ix,iy)
grid%ts_swddif2(n,i) = grid%swddif2(ix,iy)
grid%ts_swdownc2(n,i) = grid%swdownc2(ix,iy)
grid%ts_swddnic2(n,i) = grid%swddnic2(ix,iy)
else
grid%ts_swdown2(n,i) = MISSING
grid%ts_swddni2(n,i) = MISSING
grid%ts_swddif2(n,i) = MISSING
grid%ts_swdownc2(n,i) = MISSING
grid%ts_swddnic2(n,i) = MISSING
end if
else
grid%ts_swdownc(n,i) = MISSING
grid%ts_swddnic(n,i) = MISSING
grid%ts_swdown2(n,i) = MISSING
grid%ts_swddni2(n,i) = MISSING
grid%ts_swddif2(n,i) = MISSING
grid%ts_swdownc2(n,i) = MISSING
grid%ts_swddnic2(n,i) = MISSING
end if
END IF
#else
grid%ts_tsk(n,i) = grid%nmm_tsk(ix,iy)
#endif
grid%ts_tslb(n,i) = grid%tslb(ix,1,iy)
ELSE
#if (EM_CORE == 1 )
DO k=1,grid%max_ts_level
grid%ts_u_profile(n,i,k) = 1.E30
grid%ts_v_profile(n,i,k) = 1.E30
grid%ts_w_profile(n,i,k) = 1.E30
grid%ts_gph_profile(n,i,k) = 1.E30
grid%ts_th_profile(n,i,k) = 1.E30
grid%ts_qv_profile(n,i,k) = 1.E30
grid%ts_p_profile(n,i,k) = 1.E30
END DO
#endif
#if (WRF_CHEM == 1)
DO k=1,grid%max_ts_level
grid%ts_o3_profile(n,i,k) = 1.E30
END DO
#endif
grid%ts_hour(n,i) = 1.E30
grid%ts_u(n,i) = 1.E30
grid%ts_v(n,i) = 1.E30
grid%ts_t(n,i) = 1.E30
grid%ts_q(n,i) = 1.E30
grid%ts_psfc(n,i) = 1.E30
#if (EM_CORE == 1)
grid%ts_glw(n,i) = 1.E30
grid%ts_gsw(n,i) = 1.E30
grid%ts_hfx(n,i) = 1.E30
grid%ts_lh(n,i) = 1.E30
grid%ts_clw(n,i) = 1.E30
grid%ts_rainc(n,i) = 1.E30
grid%ts_rainnc(n,i) = 1.E30
IF ( model_config_rec%process_time_series == 2 ) THEN
!!! Solar diagnostics
grid%ts_cldfrac2d(n,i) = 1.E30
grid%ts_wvp(n,i) = 1.E30
grid%ts_lwp(n,i) = 1.E30
grid%ts_iwp(n,i) = 1.E30
grid%ts_swp(n,i) = 1.E30
grid%ts_wp_sum(n,i) = 1.E30
grid%ts_lwp_tot(n,i) = 1.E30
grid%ts_iwp_tot(n,i) = 1.E30
grid%ts_wp_tot_sum(n,i) = 1.E30
grid%ts_re_qc(n,i) = 1.E30
grid%ts_re_qi(n,i) = 1.E30
grid%ts_re_qs(n,i) = 1.E30
grid%ts_re_qc_tot(n,i) = 1.E30
grid%ts_re_qi_tot(n,i) = 1.E30
grid%ts_tau_qc(n,i) = 1.E30
grid%ts_tau_qi(n,i) = 1.E30
grid%ts_tau_qs(n,i) = 1.E30
grid%ts_tau_qc_tot(n,i) = 1.E30
grid%ts_tau_qi_tot(n,i) = 1.E30
grid%ts_cbaseht(n,i) = 1.E30
grid%ts_ctopht(n,i) = 1.E30
grid%ts_cbaseht_tot(n,i) = 1.E30
grid%ts_ctopht_tot(n,i) = 1.E30
grid%ts_clrnidx(n,i) = 1.E30
grid%ts_sza(n,i) = 1.E30
grid%ts_ghi_accum(n,i) = 1.E30
grid%ts_swdown(n,i) = 1.E30
grid%ts_swddni(n,i) = 1.E30
grid%ts_swddif(n,i) = 1.E30
grid%ts_swdownc(n,i) = 1.E30
grid%ts_swddnic(n,i) = 1.E30
grid%ts_swdown2(n,i) = 1.E30
grid%ts_swddni2(n,i) = 1.E30
grid%ts_swddif2(n,i) = 1.E30
grid%ts_swdownc2(n,i) = 1.E30
grid%ts_swddnic2(n,i) = 1.E30
END IF
#endif
grid%ts_tsk(n,i) = 1.E30
grid%ts_tslb(n,i) = 1.E30
END IF
END DO
#if (EM_CORE == 1)
DEALLOCATE(p8w, earth_u_profile, earth_v_profile)
#endif
grid%next_ts_time = grid%next_ts_time + 1
IF ( grid%next_ts_time > grid%ts_buf_size ) CALL write_ts(grid)
END SUBROUTINE calc_ts
SUBROUTINE write_ts( grid )
USE module_domain, ONLY : domain
USE module_dm, ONLY : wrf_dm_min_reals
USE module_state_description
USE module_configure, ONLY : model_config_rec
IMPLICIT NONE
! Arguments
TYPE (domain), INTENT(INOUT) :: grid
LOGICAL, EXTERNAL :: wrf_dm_on_monitor
INTEGER, EXTERNAL :: get_unused_unit
! Local variables
INTEGER :: i, n, ix, iy, iunit, k
REAL, ALLOCATABLE, DIMENSION(:,:) :: ts_buf
CHARACTER (LEN=24) :: ts_profile_filename
CHARACTER (LEN=26) :: profile_format
IF ( grid%ntsloc_domain .LE. 0 ) RETURN
#if ((EM_CORE == 1) && (DA_CORE != 1))
IF ( grid%dfi_opt /= DFI_NODFI .AND. grid%dfi_stage /= DFI_FST ) RETURN
#endif
#ifdef DM_PARALLEL
ALLOCATE(ts_buf(grid%ts_buf_size,grid%max_ts_locs))
ts_buf(:,:) = grid%ts_hour(:,:)
CALL wrf_dm_min_reals(ts_buf(:,:),grid%ts_hour(:,:),grid%ts_buf_size*grid%max_ts_locs)
#if (EM_CORE == 1)
DO k=1,grid%max_ts_level
ts_buf(:,:) = grid%ts_u_profile(:,:,k)
CALL wrf_dm_min_reals(ts_buf(:,:),grid%ts_u_profile(:,:,k),grid%ts_buf_size*grid%max_ts_locs)
END DO
DO k=1,grid%max_ts_level
ts_buf(:,:) = grid%ts_v_profile(:,:,k)
CALL wrf_dm_min_reals(ts_buf(:,:),grid%ts_v_profile(:,:,k),grid%ts_buf_size*grid%max_ts_locs)
END DO
DO k=1,grid%max_ts_level
ts_buf(:,:) = grid%ts_w_profile(:,:,k)
CALL wrf_dm_min_reals(ts_buf(:,:),grid%ts_w_profile(:,:,k),grid%ts_buf_size*grid%max_ts_locs)
END DO
DO k=1,grid%max_ts_level
ts_buf(:,:) = grid%ts_gph_profile(:,:,k)
CALL wrf_dm_min_reals(ts_buf(:,:),grid%ts_gph_profile(:,:,k),grid%ts_buf_size*grid%max_ts_locs)
END DO
DO k=1,grid%max_ts_level
ts_buf(:,:) = grid%ts_th_profile(:,:,k)
CALL wrf_dm_min_reals(ts_buf(:,:),grid%ts_th_profile(:,:,k),grid%ts_buf_size*grid%max_ts_locs)
END DO
DO k=1,grid%max_ts_level
ts_buf(:,:) = grid%ts_qv_profile(:,:,k)
CALL wrf_dm_min_reals(ts_buf(:,:),grid%ts_qv_profile(:,:,k),grid%ts_buf_size*grid%max_ts_locs)
END DO
DO k=1,grid%max_ts_level
ts_buf(:,:) = grid%ts_p_profile(:,:,k)
CALL wrf_dm_min_reals(ts_buf(:,:),grid%ts_p_profile(:,:,k),grid%ts_buf_size*grid%max_ts_locs)
END DO
#endif
#if (WRF_CHEM == 1)
DO k=1,grid%max_ts_level
ts_buf(:,:) = grid%ts_o3_profile(:,:,k)
CALL wrf_dm_min_reals(ts_buf(:,:),grid%ts_o3_profile(:,:,k),grid%ts_buf_size*grid%max_ts_locs)
END DO
#endif
ts_buf(:,:) = grid%ts_u(:,:)
CALL wrf_dm_min_reals(ts_buf(:,:),grid%ts_u(:,:),grid%ts_buf_size*grid%max_ts_locs)
ts_buf(:,:) = grid%ts_v(:,:)
CALL wrf_dm_min_reals(ts_buf(:,:),grid%ts_v(:,:),grid%ts_buf_size*grid%max_ts_locs)
ts_buf(:,:) = grid%ts_t(:,:)
CALL wrf_dm_min_reals(ts_buf(:,:),grid%ts_t(:,:),grid%ts_buf_size*grid%max_ts_locs)
ts_buf(:,:) = grid%ts_q(:,:)
CALL wrf_dm_min_reals(ts_buf(:,:),grid%ts_q(:,:),grid%ts_buf_size*grid%max_ts_locs)
ts_buf(:,:) = grid%ts_psfc(:,:)
CALL wrf_dm_min_reals(ts_buf(:,:),grid%ts_psfc(:,:),grid%ts_buf_size*grid%max_ts_locs)
#if (EM_CORE == 1)
ts_buf(:,:) = grid%ts_glw(:,:)
CALL wrf_dm_min_reals(ts_buf(:,:),grid%ts_glw(:,:),grid%ts_buf_size*grid%max_ts_locs)
ts_buf(:,:) = grid%ts_gsw(:,:)
CALL wrf_dm_min_reals(ts_buf(:,:),grid%ts_gsw(:,:),grid%ts_buf_size*grid%max_ts_locs)
ts_buf(:,:) = grid%ts_hfx(:,:)
CALL wrf_dm_min_reals(ts_buf(:,:),grid%ts_hfx(:,:),grid%ts_buf_size*grid%max_ts_locs)
ts_buf(:,:) = grid%ts_lh(:,:)
CALL wrf_dm_min_reals(ts_buf(:,:),grid%ts_lh(:,:),grid%ts_buf_size*grid%max_ts_locs)
ts_buf(:,:) = grid%ts_clw(:,:)
CALL wrf_dm_min_reals(ts_buf(:,:),grid%ts_clw(:,:),grid%ts_buf_size*grid%max_ts_locs)
ts_buf(:,:) = grid%ts_rainc(:,:)
CALL wrf_dm_min_reals(ts_buf(:,:),grid%ts_rainc(:,:),grid%ts_buf_size*grid%max_ts_locs)
ts_buf(:,:) = grid%ts_rainnc(:,:)
CALL wrf_dm_min_reals(ts_buf(:,:),grid%ts_rainnc(:,:),grid%ts_buf_size*grid%max_ts_locs)
IF ( model_config_rec%process_time_series == 2 ) THEN
!!! Solar diagnostics
ts_buf(:,:) = grid%ts_cldfrac2d(:,:)
CALL wrf_dm_min_reals(ts_buf(:,:),grid%ts_cldfrac2d(:,:),grid%ts_buf_size*grid%max_ts_locs)
ts_buf(:,:) = grid%ts_wvp(:,:)
CALL wrf_dm_min_reals(ts_buf(:,:),grid%ts_wvp(:,:),grid%ts_buf_size*grid%max_ts_locs)
ts_buf(:,:) = grid%ts_lwp(:,:)
CALL wrf_dm_min_reals(ts_buf(:,:),grid%ts_lwp(:,:),grid%ts_buf_size*grid%max_ts_locs)
ts_buf(:,:) = grid%ts_iwp(:,:)
CALL wrf_dm_min_reals(ts_buf(:,:),grid%ts_iwp(:,:),grid%ts_buf_size*grid%max_ts_locs)
ts_buf(:,:) = grid%ts_swp(:,:)
CALL wrf_dm_min_reals(ts_buf(:,:),grid%ts_swp(:,:),grid%ts_buf_size*grid%max_ts_locs)
ts_buf(:,:) = grid%ts_wp_sum(:,:)
CALL wrf_dm_min_reals(ts_buf(:,:),grid%ts_wp_sum(:,:),grid%ts_buf_size*grid%max_ts_locs)
ts_buf(:,:) = grid%ts_lwp_tot(:,:)
CALL wrf_dm_min_reals(ts_buf(:,:),grid%ts_lwp_tot(:,:),grid%ts_buf_size*grid%max_ts_locs)
ts_buf(:,:) = grid%ts_iwp_tot(:,:)
CALL wrf_dm_min_reals(ts_buf(:,:),grid%ts_iwp_tot(:,:),grid%ts_buf_size*grid%max_ts_locs)
ts_buf(:,:) = grid%ts_wp_tot_sum(:,:)
CALL wrf_dm_min_reals(ts_buf(:,:),grid%ts_wp_tot_sum(:,:),grid%ts_buf_size*grid%max_ts_locs)
ts_buf(:,:) = grid%ts_re_qc(:,:)
CALL wrf_dm_min_reals(ts_buf(:,:),grid%ts_re_qc(:,:),grid%ts_buf_size*grid%max_ts_locs)
ts_buf(:,:) = grid%ts_re_qi(:,:)
CALL wrf_dm_min_reals(ts_buf(:,:),grid%ts_re_qi(:,:),grid%ts_buf_size*grid%max_ts_locs)
ts_buf(:,:) = grid%ts_re_qs(:,:)
CALL wrf_dm_min_reals(ts_buf(:,:),grid%ts_re_qs(:,:),grid%ts_buf_size*grid%max_ts_locs)
ts_buf(:,:) = grid%ts_re_qc_tot(:,:)
CALL wrf_dm_min_reals(ts_buf(:,:),grid%ts_re_qc_tot(:,:),grid%ts_buf_size*grid%max_ts_locs)
ts_buf(:,:) = grid%ts_re_qi_tot(:,:)
CALL wrf_dm_min_reals(ts_buf(:,:),grid%ts_re_qi_tot(:,:),grid%ts_buf_size*grid%max_ts_locs)
ts_buf(:,:) = grid%ts_tau_qc(:,:)
CALL wrf_dm_min_reals(ts_buf(:,:),grid%ts_tau_qc(:,:),grid%ts_buf_size*grid%max_ts_locs)
ts_buf(:,:) = grid%ts_tau_qi(:,:)
CALL wrf_dm_min_reals(ts_buf(:,:),grid%ts_tau_qi(:,:),grid%ts_buf_size*grid%max_ts_locs)
ts_buf(:,:) = grid%ts_tau_qs(:,:)
CALL wrf_dm_min_reals(ts_buf(:,:),grid%ts_tau_qs(:,:),grid%ts_buf_size*grid%max_ts_locs)
ts_buf(:,:) = grid%ts_tau_qc_tot(:,:)
CALL wrf_dm_min_reals(ts_buf(:,:),grid%ts_tau_qc_tot(:,:),grid%ts_buf_size*grid%max_ts_locs)
ts_buf(:,:) = grid%ts_tau_qi_tot(:,:)
CALL wrf_dm_min_reals(ts_buf(:,:),grid%ts_tau_qi_tot(:,:),grid%ts_buf_size*grid%max_ts_locs)
ts_buf(:,:) = grid%ts_cbaseht(:,:)
CALL wrf_dm_min_reals(ts_buf(:,:),grid%ts_cbaseht(:,:),grid%ts_buf_size*grid%max_ts_locs)
ts_buf(:,:) = grid%ts_ctopht(:,:)
CALL wrf_dm_min_reals(ts_buf(:,:),grid%ts_ctopht(:,:),grid%ts_buf_size*grid%max_ts_locs)
ts_buf(:,:) = grid%ts_cbaseht_tot(:,:)
CALL wrf_dm_min_reals(ts_buf(:,:),grid%ts_cbaseht_tot(:,:),grid%ts_buf_size*grid%max_ts_locs)
ts_buf(:,:) = grid%ts_ctopht_tot(:,:)
CALL wrf_dm_min_reals(ts_buf(:,:),grid%ts_ctopht_tot(:,:),grid%ts_buf_size*grid%max_ts_locs)
ts_buf(:,:) = grid%ts_clrnidx(:,:)
CALL wrf_dm_min_reals(ts_buf(:,:),grid%ts_clrnidx(:,:),grid%ts_buf_size*grid%max_ts_locs)
ts_buf(:,:) = grid%ts_sza(:,:)
CALL wrf_dm_min_reals(ts_buf(:,:),grid%ts_sza(:,:),grid%ts_buf_size*grid%max_ts_locs)
ts_buf(:,:) = grid%ts_ghi_accum(:,:)
CALL wrf_dm_min_reals(ts_buf(:,:),grid%ts_ghi_accum(:,:),grid%ts_buf_size*grid%max_ts_locs)
ts_buf(:,:) = grid%ts_swdown(:,:)
CALL wrf_dm_min_reals(ts_buf(:,:),grid%ts_swdown(:,:),grid%ts_buf_size*grid%max_ts_locs)
ts_buf(:,:) = grid%ts_swddni(:,:)
CALL wrf_dm_min_reals(ts_buf(:,:),grid%ts_swddni(:,:),grid%ts_buf_size*grid%max_ts_locs)
ts_buf(:,:) = grid%ts_swddif(:,:)
CALL wrf_dm_min_reals(ts_buf(:,:),grid%ts_swddif(:,:),grid%ts_buf_size*grid%max_ts_locs)
ts_buf(:,:) = grid%ts_swdownc(:,:)
CALL wrf_dm_min_reals(ts_buf(:,:),grid%ts_swdownc(:,:),grid%ts_buf_size*grid%max_ts_locs)
ts_buf(:,:) = grid%ts_swddnic(:,:)
CALL wrf_dm_min_reals(ts_buf(:,:),grid%ts_swddnic(:,:),grid%ts_buf_size*grid%max_ts_locs)
ts_buf(:,:) = grid%ts_swdown2(:,:)
CALL wrf_dm_min_reals(ts_buf(:,:),grid%ts_swdown2(:,:),grid%ts_buf_size*grid%max_ts_locs)
ts_buf(:,:) = grid%ts_swddni2(:,:)
CALL wrf_dm_min_reals(ts_buf(:,:),grid%ts_swddni2(:,:),grid%ts_buf_size*grid%max_ts_locs)
ts_buf(:,:) = grid%ts_swddif2(:,:)
CALL wrf_dm_min_reals(ts_buf(:,:),grid%ts_swddif2(:,:),grid%ts_buf_size*grid%max_ts_locs)
ts_buf(:,:) = grid%ts_swdownc2(:,:)
CALL wrf_dm_min_reals(ts_buf(:,:),grid%ts_swdownc2(:,:),grid%ts_buf_size*grid%max_ts_locs)
ts_buf(:,:) = grid%ts_swddnic2(:,:)
CALL wrf_dm_min_reals(ts_buf(:,:),grid%ts_swddnic2(:,:),grid%ts_buf_size*grid%max_ts_locs)
END IF
#endif
ts_buf(:,:) = grid%ts_tsk(:,:)
CALL wrf_dm_min_reals(ts_buf(:,:),grid%ts_tsk(:,:),grid%ts_buf_size*grid%max_ts_locs)
ts_buf(:,:) = grid%ts_tslb(:,:)
CALL wrf_dm_min_reals(ts_buf(:,:),grid%ts_tslb(:,:),grid%ts_buf_size*grid%max_ts_locs)
DEALLOCATE(ts_buf)
#endif
IF ( wrf_dm_on_monitor() ) THEN
iunit = get_unused_unit()
IF ( iunit <= 0 ) THEN
CALL wrf_error_fatal('Error in write_ts: could not find a free Fortran unit.')
END IF
DO i=1,grid%ntsloc_domain
ix = grid%itsloc(i)
iy = grid%jtsloc(i)
OPEN(UNIT=iunit, FILE=TRIM(grid%ts_filename(i)), STATUS='unknown', POSITION='append', FORM='formatted')
DO n=1,grid%next_ts_time - 1
#if (EM_CORE == 1)
IF ( model_config_rec%process_time_series == 1 ) THEN
WRITE(UNIT=iunit,FMT='(i2,f13.6,i5,i5,i5,1x,14(f13.5,1x))') &
grid%id, grid%ts_hour(n,i), &
grid%id_tsloc(i), ix, iy, &
grid%ts_t(n,i), &
grid%ts_q(n,i), &
grid%ts_u(n,i), &
grid%ts_v(n,i), &
grid%ts_psfc(n,i), &
grid%ts_glw(n,i), &
grid%ts_gsw(n,i), &
grid%ts_hfx(n,i), &
grid%ts_lh(n,i), &
grid%ts_tsk(n,i), &
grid%ts_tslb(n,i), &
grid%ts_rainc(n,i), &
grid%ts_rainnc(n,i), &
grid%ts_clw(n,i)
ELSE
!!! WRF-Solar diagnostics
WRITE(UNIT=iunit,FMT='(i2,f13.6,i5,i5,i5,1x,49(f13.5,1x))') &
grid%id, grid%ts_hour(n,i), &
grid%id_tsloc(i), ix, iy, &
grid%ts_t(n,i), &
grid%ts_q(n,i), &
grid%ts_u(n,i), &
grid%ts_v(n,i), &
grid%ts_psfc(n,i), &
grid%ts_glw(n,i), &
grid%ts_gsw(n,i), &
grid%ts_hfx(n,i), &
grid%ts_lh(n,i), &
grid%ts_tsk(n,i), &
grid%ts_tslb(n,i), &
grid%ts_rainc(n,i), &
grid%ts_rainnc(n,i), &
grid%ts_clw(n,i), &
grid%ts_cldfrac2d(n,i), &
grid%ts_wvp(n,i), &
grid%ts_lwp(n,i), &
grid%ts_iwp(n,i), &
grid%ts_swp(n,i), &
grid%ts_wp_sum(n,i), &
grid%ts_lwp_tot(n,i), &
grid%ts_iwp_tot(n,i), &
grid%ts_wp_tot_sum(n,i), &
grid%ts_re_qc(n,i), &
grid%ts_re_qi(n,i), &
grid%ts_re_qs(n,i), &
grid%ts_re_qc_tot(n,i), &
grid%ts_re_qi_tot(n,i), &
grid%ts_tau_qc(n,i), &
grid%ts_tau_qi(n,i), &
grid%ts_tau_qs(n,i), &
grid%ts_tau_qc_tot(n,i), &
grid%ts_tau_qi_tot(n,i), &
grid%ts_cbaseht(n,i), &
grid%ts_ctopht(n,i), &
grid%ts_cbaseht_tot(n,i), &
grid%ts_ctopht_tot(n,i), &
grid%ts_clrnidx(n,i), &
grid%ts_sza(n,i), &
grid%ts_ghi_accum(n,i), &
grid%ts_swdown(n,i), &
grid%ts_swddni(n,i), &
grid%ts_swddif(n,i), &
grid%ts_swdownc(n,i), &
grid%ts_swddnic(n,i), &
grid%ts_swdown2(n,i), &
grid%ts_swddni2(n,i), &
grid%ts_swddif2(n,i), &
grid%ts_swdownc2(n,i), &
grid%ts_swddnic2(n,i)
END IF
#else
WRITE(UNIT=iunit,FMT='(i2,f13.6,i5,i5,i5,1x,7(f13.5,1x))') &
grid%id, grid%ts_hour(n,i), &
grid%id_tsloc(i), ix, iy, &
grid%ts_t(n,i), &
grid%ts_q(n,i), &
grid%ts_u(n,i), &
grid%ts_v(n,i), &
grid%ts_psfc(n,i), &
grid%ts_tsk(n,i), &
grid%ts_tslb(n,i)
#endif
END DO
CLOSE(UNIT=iunit)
!Set write format for vertical profiles, depending on the highest model level of interest
#if (EM_CORE == 1)
profile_format = '(f13.6,1x,000(f13.5,1x))'
k= LEN_TRIM(profile_format)
WRITE(profile_format(12:14),'(I3.3)') grid%max_ts_level
!Write u wind component profile to separate file
iunit = get_unused_unit()
IF ( iunit <= 0 ) THEN
CALL wrf_error_fatal('Error in write_ts: could not find a free Fortran unit.')
END IF
!Recreate filename for u wind component profiles
WRITE(ts_profile_filename,'(A)') TRIM(grid%nametsloc(grid%id_tsloc(i)))//'.d00.TS'
k = LEN_TRIM(ts_profile_filename)
WRITE(ts_profile_filename(k-4:k-3),'(I2.2)') grid%id
WRITE(ts_profile_filename(k-1:k),'(A2)') 'UU'
OPEN(UNIT=iunit, FILE=TRIM(ts_profile_filename), STATUS='unknown', POSITION='append', FORM='formatted')
DO n=1,grid%next_ts_time - 1
WRITE(UNIT=iunit,FMT=profile_format) &
grid%ts_hour(n,i), &
grid%ts_u_profile(n,i,1:grid%max_ts_level)
END DO
CLOSE(UNIT=iunit)