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cosp_stats.F90
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cosp_stats.F90
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! (c) British Crown Copyright 2008, the Met Office.
! All rights reserved.
! $Revision: 88 $, $Date: 2013-11-13 07:08:38 -0700 (Wed, 13 Nov 2013) $
! $URL: http://cfmip-obs-sim.googlecode.com/svn/stable/v1.4.0/cosp_stats.F90 $
!
! Redistribution and use in source and binary forms, with or without modification, are permitted
! provided that the following conditions are met:
!
! * Redistributions of source code must retain the above copyright notice, this list
! of conditions and the following disclaimer.
! * Redistributions in binary form must reproduce the above copyright notice, this list
! of conditions and the following disclaimer in the documentation and/or other materials
! provided with the distribution.
! * Neither the name of the Met Office nor the names of its contributors may be used
! to endorse or promote products derived from this software without specific prior written
! permission.
!
! THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" AND ANY EXPRESS OR
! IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND
! FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR
! CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
! DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
! DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER
! IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT
! OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
!
! History:
! Jul 2007 - A. Bodas-Salcedo - Initial version
! Jul 2008 - A. Bodas-Salcedo - Added capability of producing outputs in standard grid
! Oct 2008 - J.-L. Dufresne - Bug fixed. Assignment of Npoints,Nlevels,Nhydro,Ncolumns in COSP_STATS
! Oct 2008 - H. Chepfer - Added PARASOL reflectance arguments
! Jun 2010 - T. Yokohata, T. Nishimura and K. Ogochi - Added NEC SXs optimisations
! Jan 2013 - G. Cesana - Added betaperp and temperature arguments
! - Added phase 3D/3Dtemperature/Map output variables in diag_lidar
!
!
#include "cosp_defs.h"
MODULE MOD_COSP_STATS
USE MOD_COSP_CONSTANTS
USE MOD_COSP_TYPES
USE MOD_LLNL_STATS
USE MOD_LMD_IPSL_STATS
IMPLICIT NONE
CONTAINS
!%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
!------------------- SUBROUTINE COSP_STATS ------------------------
!%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
SUBROUTINE COSP_STATS(gbx,sgx,cfg,sgradar,sglidar,vgrid,stradar,stlidar)
! Input arguments
type(cosp_gridbox),intent(in) :: gbx
type(cosp_subgrid),intent(in) :: sgx
type(cosp_config),intent(in) :: cfg
type(cosp_sgradar),intent(in) :: sgradar
type(cosp_sglidar),intent(in) :: sglidar
type(cosp_vgrid),intent(in) :: vgrid
! Output arguments
type(cosp_radarstats),intent(inout) :: stradar ! Summary statistics for radar
type(cosp_lidarstats),intent(inout) :: stlidar ! Summary statistics for lidar
! Local variables
integer :: Npoints !# of grid points
integer :: Nlevels !# of levels
integer :: Nhydro !# of hydrometeors
integer :: Ncolumns !# of columns
integer :: Nlr
logical :: ok_lidar_cfad = .false.
real,dimension(:,:,:),allocatable :: Ze_out,betatot_out,betamol_in,betamol_out,ph_in,ph_out
real,dimension(:,:),allocatable :: ph_c,betamol_c
real,dimension(:,:,:),allocatable :: betaperptot_out, temp_in, temp_out
real,dimension(:,:),allocatable :: temp_c
Npoints = gbx%Npoints
Nlevels = gbx%Nlevels
Nhydro = gbx%Nhydro
Ncolumns = gbx%Ncolumns
Nlr = vgrid%Nlvgrid
if (cfg%LcfadLidarsr532) ok_lidar_cfad=.true.
if (vgrid%use_vgrid) then ! Statistics in a different vertical grid
allocate(Ze_out(Npoints,Ncolumns,Nlr),betatot_out(Npoints,Ncolumns,Nlr), &
betamol_in(Npoints,1,Nlevels),betamol_out(Npoints,1,Nlr),betamol_c(Npoints,Nlr), &
ph_in(Npoints,1,Nlevels),ph_out(Npoints,1,Nlr),ph_c(Npoints,Nlr))
Ze_out = 0.0
betatot_out = 0.0
betamol_out= 0.0
betamol_c = 0.0
ph_in(:,1,:) = gbx%ph(:,:)
ph_out = 0.0
ph_c = 0.0
allocate(betaperptot_out(Npoints,Ncolumns,Nlr),temp_in(Npoints,1,Nlevels),temp_out(Npoints,1,Nlr), &
temp_c(Npoints,Nlr))
betaperptot_out = 0.0
temp_in = 0.0
temp_out = 0.0
temp_c = 0.0
!++++++++++++ Radar CFAD ++++++++++++++++
if (cfg%Lradar_sim) then
call cosp_change_vertical_grid(Npoints,Ncolumns,Nlevels,gbx%zlev,gbx%zlev_half,sgradar%Ze_tot, &
Nlr,vgrid%zl,vgrid%zu,Ze_out,log_units=.true.)
stradar%cfad_ze = cosp_cfad(Npoints,Ncolumns,Nlr,DBZE_BINS,Ze_out, &
DBZE_MIN,DBZE_MAX,CFAD_ZE_MIN,CFAD_ZE_WIDTH)
endif
!++++++++++++ Lidar CFAD ++++++++++++++++
if (cfg%Llidar_sim) then
betamol_in(:,1,:) = sglidar%beta_mol(:,:)
call cosp_change_vertical_grid(Npoints,1,Nlevels,gbx%zlev,gbx%zlev_half,betamol_in, &
Nlr,vgrid%zl,vgrid%zu,betamol_out)
call cosp_change_vertical_grid(Npoints,Ncolumns,Nlevels,gbx%zlev,gbx%zlev_half,sglidar%beta_tot, &
Nlr,vgrid%zl,vgrid%zu,betatot_out)
temp_in(:,1,:) = gbx%T(:,:)
call cosp_change_vertical_grid(Npoints,Ncolumns,Nlevels,gbx%zlev,gbx%zlev_half,sglidar%betaperp_tot, &
Nlr,vgrid%zl,vgrid%zu,betaperptot_out)
call cosp_change_vertical_grid(Npoints,1,Nlevels,gbx%zlev,gbx%zlev_half,temp_in, &
Nlr,vgrid%zl,vgrid%zu,temp_out)
temp_c(:,:) = temp_out(:,1,:)
call cosp_change_vertical_grid(Npoints,1,Nlevels,gbx%zlev,gbx%zlev_half,ph_in, &
Nlr,vgrid%zl,vgrid%zu,ph_out)
ph_c(:,:) = ph_out(:,1,:)
betamol_c(:,:) = betamol_out(:,1,:)
! Stats from lidar_stat_summary
call diag_lidar(Npoints,Ncolumns,Nlr,SR_BINS,PARASOL_NREFL &
,temp_c,betatot_out,betaperptot_out,betamol_c,sglidar%refl,gbx%land,ph_c &
,LIDAR_UNDEF,ok_lidar_cfad &
,stlidar%cfad_sr,stlidar%srbval &
,LIDAR_NCAT,stlidar%lidarcld,stlidar%lidarcldphase &
,stlidar%cldlayer,stlidar%cldlayerphase,stlidar%lidarcldtmp &
,stlidar%parasolrefl)
endif
!++++++++++++ Lidar-only cloud amount and lidar&radar total cloud mount ++++++++++++++++
if (cfg%Lradar_sim.and.cfg%Llidar_sim) call cosp_lidar_only_cloud(Npoints,Ncolumns,Nlr, &
temp_c,betatot_out,betaperptot_out,betamol_c,Ze_out, &
stradar%lidar_only_freq_cloud,stradar%radar_lidar_tcc)
deallocate(temp_out,temp_c,betaperptot_out)
! Deallocate arrays at coarse resolution
deallocate(Ze_out,betatot_out,betamol_in,betamol_out,betamol_c,ph_in,ph_out,ph_c)
else ! Statistics in model levels
!++++++++++++ Radar CFAD ++++++++++++++++
if (cfg%Lradar_sim) stradar%cfad_ze = cosp_cfad(Npoints,Ncolumns,Nlr,DBZE_BINS,sgradar%Ze_tot, &
DBZE_MIN,DBZE_MAX,CFAD_ZE_MIN,CFAD_ZE_WIDTH)
!++++++++++++ Lidar CFAD ++++++++++++++++
! Stats from lidar_stat_summary
if (cfg%Llidar_sim) call diag_lidar(Npoints,Ncolumns,Nlr,SR_BINS,PARASOL_NREFL &
,sglidar%temp_tot,sglidar%beta_tot,sglidar%betaperp_tot,sglidar%beta_mol,sglidar%refl,gbx%land,gbx%ph &
,LIDAR_UNDEF,ok_lidar_cfad &
,stlidar%cfad_sr,stlidar%srbval &
,LIDAR_NCAT,stlidar%lidarcld,stlidar%lidarcldphase,stlidar%cldlayer,stlidar%cldlayerphase &
,stlidar%lidarcldtmp,stlidar%parasolrefl)
!++++++++++++ Lidar-only cloud amount and lidar&radar total cloud mount ++++++++++++++++
if (cfg%Lradar_sim.and.cfg%Llidar_sim) call cosp_lidar_only_cloud(Npoints,Ncolumns,Nlr, &
sglidar%temp_tot,sglidar%beta_tot,sglidar%betaperp_tot,sglidar%beta_mol,sgradar%Ze_tot, &
stradar%lidar_only_freq_cloud,stradar%radar_lidar_tcc)
endif
! Replace undef
where (stlidar%cfad_sr == LIDAR_UNDEF) stlidar%cfad_sr = R_UNDEF
where (stlidar%lidarcld == LIDAR_UNDEF) stlidar%lidarcld = R_UNDEF
where (stlidar%cldlayer == LIDAR_UNDEF) stlidar%cldlayer = R_UNDEF
where (stlidar%parasolrefl == LIDAR_UNDEF) stlidar%parasolrefl = R_UNDEF
where (stlidar%cldlayerphase == LIDAR_UNDEF) stlidar%cldlayerphase = R_UNDEF
where (stlidar%lidarcldphase == LIDAR_UNDEF) stlidar%lidarcldphase = R_UNDEF
where (stlidar%lidarcldtmp == LIDAR_UNDEF) stlidar%lidarcldtmp = R_UNDEF
END SUBROUTINE COSP_STATS
!%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
!---------- SUBROUTINE COSP_CHANGE_VERTICAL_GRID ----------------
!%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
SUBROUTINE COSP_CHANGE_VERTICAL_GRID(Npoints,Ncolumns,Nlevels,zfull,zhalf,y,Nglevels,newgrid_bot,newgrid_top,r,log_units)
implicit none
! Input arguments
integer,intent(in) :: Npoints !# of grid points
integer,intent(in) :: Nlevels !# of levels
integer,intent(in) :: Ncolumns !# of columns
real,dimension(Npoints,Nlevels),intent(in) :: zfull ! Height at model levels [m] (Bottom of model layer)
real,dimension(Npoints,Nlevels),intent(in) :: zhalf ! Height at half model levels [m] (Bottom of model layer)
real,dimension(Npoints,Ncolumns,Nlevels),intent(in) :: y ! Variable to be changed to a different grid
integer,intent(in) :: Nglevels !# levels in the new grid
real,dimension(Nglevels),intent(in) :: newgrid_bot ! Lower boundary of new levels [m]
real,dimension(Nglevels),intent(in) :: newgrid_top ! Upper boundary of new levels [m]
logical,optional,intent(in) :: log_units ! log units, need to convert to linear units
! Output
real,dimension(Npoints,Ncolumns,Nglevels),intent(out) :: r ! Variable on new grid
! Local variables
integer :: i,j,k
logical :: lunits
integer :: l
real :: w ! Weight
real :: dbb, dtb, dbt, dtt ! Distances between edges of both grids
integer :: Nw ! Number of weights
real :: wt ! Sum of weights
real,dimension(Nlevels) :: oldgrid_bot,oldgrid_top ! Lower and upper boundaries of model grid
real :: yp ! Local copy of y at a particular point.
! This allows for change of units.
lunits=.false.
if (present(log_units)) lunits=log_units
r = 0.0
do i=1,Npoints
! Calculate tops and bottoms of new and old grids
oldgrid_bot = zhalf(i,:)
oldgrid_top(1:Nlevels-1) = oldgrid_bot(2:Nlevels)
oldgrid_top(Nlevels) = zfull(i,Nlevels) + zfull(i,Nlevels) - zhalf(i,Nlevels) ! Top level symmetric
l = 0 ! Index of level in the old grid
! Loop over levels in the new grid
do k = 1,Nglevels
Nw = 0 ! Number of weigths
wt = 0.0 ! Sum of weights
! Loop over levels in the old grid and accumulate total for weighted average
do
l = l + 1
w = 0.0 ! Initialise weight to 0
! Distances between edges of both grids
dbb = oldgrid_bot(l) - newgrid_bot(k)
dtb = oldgrid_top(l) - newgrid_bot(k)
dbt = oldgrid_bot(l) - newgrid_top(k)
dtt = oldgrid_top(l) - newgrid_top(k)
if (dbt >= 0.0) exit ! Do next level in the new grid
if (dtb > 0.0) then
if (dbb <= 0.0) then
if (dtt <= 0) then
w = dtb
else
w = newgrid_top(k) - newgrid_bot(k)
endif
else
if (dtt <= 0) then
w = oldgrid_top(l) - oldgrid_bot(l)
else
w = -dbt
endif
endif
! If layers overlap (w/=0), then accumulate
if (w /= 0.0) then
Nw = Nw + 1
wt = wt + w
do j=1,Ncolumns
if (lunits) then
if (y(i,j,l) /= R_UNDEF) then
yp = 10.0**(y(i,j,l)/10.0)
else
yp = 0.0
endif
else
yp = y(i,j,l)
endif
r(i,j,k) = r(i,j,k) + w*yp
enddo
endif
endif
enddo
l = l - 2
if (l < 1) l = 0
! Calculate average in new grid
if (Nw > 0) then
do j=1,Ncolumns
r(i,j,k) = r(i,j,k)/wt
enddo
endif
enddo
enddo
! Set points under surface to R_UNDEF, and change to dBZ if necessary
do k=1,Nglevels
do j=1,Ncolumns
do i=1,Npoints
if (newgrid_top(k) > zhalf(i,1)) then ! Level above model bottom level
if (lunits) then
if (r(i,j,k) <= 0.0) then
r(i,j,k) = R_UNDEF
else
r(i,j,k) = 10.0*log10(r(i,j,k))
endif
endif
else ! Level below surface
r(i,j,k) = R_GROUND
endif
enddo
enddo
enddo
END SUBROUTINE COSP_CHANGE_VERTICAL_GRID
END MODULE MOD_COSP_STATS