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stats_zm_module.F90
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stats_zm_module.F90
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!-----------------------------------------------------------------------
! $Id$
!===============================================================================
module stats_zm_module
implicit none
private ! Default Scope
public :: stats_init_zm
! Constant parameters
integer, parameter, public :: nvarmax_zm = 350 ! Maximum variables allowed
contains
!-----------------------------------------------------------------------
subroutine stats_init_zm( vars_zm, l_error )
! Description:
! Initializes array indices for stats_zm
! Note:
! All code that is within subroutine stats_init_zm, including variable
! allocation code, is not called if l_stats is false. This subroutine is
! called only when l_stats is true.
!-----------------------------------------------------------------------
use constants_clubb, only: &
fstderr ! Constant(s)
use stats_variables, only: &
stats_zm, &
iwp2, &
irtp2, &
ithlp2, &
irtpthlp, &
iwprtp, &
iwpthlp, &
iwp3_zm, &
ithlp3_zm, &
irtp3_zm, &
iwp4, &
iwpthvp, &
irtpthvp, &
ithlpthvp, &
itau_zm, &
itau_no_N2_zm, &
itau_wp2_zm, &
itau_wp3_zm, &
itau_xp2_zm, &
iKh_zm, &
iK_hm, &
iwprcp, &
irc_coef_zm, &
ithlprcp, &
irtprcp, &
ircp2, &
iSkw_zm, &
iSkthl_zm, &
iSkrt_zm
use stats_variables, only: &
iupwp, &
ivpwp, &
iupthlp, &
iuprtp, &
ivpthlp, &
ivprtp, &
iupthvp, &
iuprcp, &
ivpthvp, &
ivprcp, &
irho_zm, &
isigma_sqd_w, &
irho_ds_zm, &
ithv_ds_zm, &
iem, &
ishear, &
imean_w_up, &
imean_w_down, &
iFrad, &
iFrad_LW, &
iFrad_SW, &
iFrad_LW_up, &
iFrad_SW_up, &
iFrad_LW_down, &
iFrad_SW_down, &
iFprec, &
iFcsed, &
istability_correction
use stats_variables, only: &
iup2, &
ivp2, &
iup2_bt, &
iup2_ta, &
iup2_tp, &
iup2_ma, &
iup2_dp1, &
iup2_dp2, &
iup2_pr1, &
iup2_pr2, &
iup2_sdmp, &
iup2_pd, &
iup2_cl, &
iup2_sf, &
iup2_splat, &
ivp2_bt, &
ivp2_ta, &
ivp2_tp, &
ivp2_ma, &
ivp2_dp1, &
ivp2_dp2, &
ivp2_pr1, &
ivp2_pr2, &
ivp2_sdmp, &
ivp2_pd, &
ivp2_cl, &
ivp2_sf, &
ivp2_splat
use stats_variables, only: &
icoef_wp4_implicit
use stats_variables, only: &
iwpNcp
use stats_variables, only: &
iVNr, &
iVrr, &
iVNc, &
iVrc, &
iVNi, &
iVri, &
iVNs, &
iVrs, &
iVrg, &
iVrrprrp, &
iVNrpNrp, &
iVrrprrp_expcalc, &
iVNrpNrp_expcalc
use stats_variables, only: &
iwp2_bt, &
iwp2_ma, &
iwp2_ta, &
iwp2_ac, &
iwp2_bp, &
iwp2_pr1, &
iwp2_pr2, &
iwp2_pr3, &
iwp2_dp1, &
iwp2_dp2, &
iwp2_sdmp, &
iwp2_pd, &
iwp2_cl, &
iwp2_sf, &
iwp2_splat
use stats_variables, only: &
iwprtp_bt, &
iwprtp_ma, &
iwprtp_ta, &
iwprtp_tp, &
iwprtp_ac, &
iwprtp_bp, &
iwprtp_pr1, &
iwprtp_pr2, &
iwprtp_pr3, &
iwprtp_dp1, &
iwprtp_mfl, &
iwprtp_cl, &
iwprtp_sicl, &
iwprtp_pd, &
iwprtp_forcing, &
iwprtp_mc, &
iwpthlp_bt, &
iwpthlp_ma, &
iwpthlp_ta
use stats_variables, only: &
iwpthlp_tp, &
iwpthlp_ac, &
iwpthlp_bp, &
iwpthlp_pr1, &
iwpthlp_pr2, &
iwpthlp_pr3, &
iwpthlp_dp1, &
iwpthlp_mfl, &
iwpthlp_cl, &
iwpthlp_sicl, &
iwpthlp_forcing, &
iwpthlp_mc
use stats_variables, only: &
iupwp_bt, &
iupwp_ma, &
iupwp_ta, &
iupwp_tp, &
iupwp_ac, &
iupwp_bp, &
iupwp_pr1, &
iupwp_pr2, &
iupwp_pr3, &
iupwp_pr4, &
iupwp_dp1, &
iupwp_mfl, &
iupwp_cl, &
ivpwp_bt, &
ivpwp_ma, &
ivpwp_ta, &
ivpwp_tp, &
ivpwp_ac, &
ivpwp_bp, &
ivpwp_pr1, &
ivpwp_pr2, &
ivpwp_pr3, &
ivpwp_pr4, &
ivpwp_dp1, &
ivpwp_mfl, &
ivpwp_cl
use stats_variables, only: &
irtp2_bt, &
irtp2_ma, &
irtp2_ta, &
irtp2_tp, &
irtp2_dp1, &
irtp2_dp2, &
irtp2_cl, &
irtp2_pd, &
irtp2_sf, &
irtp2_forcing, &
irtp2_mc, &
ithlp2_bt, &
ithlp2_ma, &
ithlp2_ta, &
ithlp2_tp, &
ithlp2_dp1, &
ithlp2_dp2, &
ithlp2_cl, &
ithlp2_pd
use stats_variables, only: &
ithlp2_sf, &
ithlp2_forcing, &
ithlp2_mc, &
irtpthlp_bt, &
irtpthlp_ma, &
irtpthlp_ta, &
irtpthlp_tp1, &
irtpthlp_tp2, &
irtpthlp_dp1, &
irtpthlp_dp2, &
irtpthlp_cl, &
irtpthlp_sf, &
irtpthlp_forcing, &
irtpthlp_mc
use stats_variables, only: &
iwpthlp_entermfl, & ! Variable(s)
iwpthlp_exit_mfl, &
iwpthlp_mfl_min, &
iwpthlp_mfl_max, &
iwprtp_enter_mfl, &
iwprtp_exit_mfl, &
iwprtp_mfl_min, &
iwprtp_mfl_max
use stats_variables, only: &
iwm_zm, & ! Variable
icloud_frac_zm, &
iice_supersat_frac_zm, &
ircm_zm, &
irtm_zm, &
ithlm_zm
use stats_variables, only: &
iw_1_zm, & ! Variable(s)
iw_2_zm, &
ivarnce_w_1_zm, &
ivarnce_w_2_zm, &
imixt_frac_zm
use stats_variables, only: &
isclrprtp, &
isclrp2, &
isclrpthvp, &
isclrpthlp, &
isclrprcp, &
iwpsclrp, &
iwp2sclrp, &
iwpsclrp2, &
iwpsclrprtp, &
iwpsclrpthlp, &
iwpedsclrp
use stats_variables, only: &
ia3_coef, &
iwp3_on_wp2, &
iSkw_velocity, &
igamma_Skw_fnc, &
iC6rt_Skw_fnc, &
iC6thl_Skw_fnc, &
iC7_Skw_fnc, &
iC1_Skw_fnc, &
ibrunt_vaisala_freq_sqd, &
iRichardson_num, &
ishear_sqd, &
ihydrometp2, &
iwphydrometp, &
irtphmp, &
ithlphmp, &
ihmxphmyp
use stats_variables, only: &
irtp2_from_chi
use stats_variables, only: &
ilh_rtp2_mc, &
ilh_thlp2_mc, &
ilh_wprtp_mc, &
ilh_wpthlp_mc, &
ilh_rtpthlp_mc
use stats_type_utilities, only: &
stat_assign ! Procedure
use parameters_model, only: &
hydromet_dim, & ! Variable(s)
sclr_dim, &
edsclr_dim
use array_index, only: &
hydromet_list, & ! Variable(s)
l_mix_rat_hm
implicit none
! External
intrinsic :: trim
! Input Variable
character(len= * ), dimension(nvarmax_zm), intent(in) :: vars_zm ! stats_zm variable names
! Input / Output Variable
logical, intent(inout) :: l_error
! Local Varables
integer :: tot_zm_loops
integer :: hm_idx, hmx_idx, hmy_idx
character(len=10) :: hm_type, hmx_type, hmy_type
integer :: i, j, k
character(len=50) :: sclr_idx
! The default initialization for array indices for stats_zm is zero (see module
! stats_variables)
allocate( ihydrometp2(1:hydromet_dim) )
allocate( iwphydrometp(1:hydromet_dim) )
allocate( irtphmp(1:hydromet_dim) )
allocate( ithlphmp(1:hydromet_dim) )
allocate( ihmxphmyp(1:hydromet_dim,1:hydromet_dim) )
allocate( iK_hm(1:hydromet_dim) )
ihydrometp2(:) = 0
iwphydrometp(:) = 0
irtphmp(:) = 0
ithlphmp(:) = 0
ihmxphmyp(:,:) = 0
iK_hm(:) = 0
! Allocate and then zero out passive scalar arrays on the stats_zm grid (fluxes,
! variances and other high-order moments)
allocate(isclrprtp(1:sclr_dim))
allocate(isclrp2(1:sclr_dim))
allocate(isclrpthvp(1:sclr_dim))
allocate(isclrpthlp(1:sclr_dim))
allocate(isclrprcp(1:sclr_dim))
allocate(iwpsclrp(1:sclr_dim))
allocate(iwp2sclrp(1:sclr_dim))
allocate(iwpsclrp2(1:sclr_dim))
allocate(iwpsclrprtp(1:sclr_dim))
allocate(iwpsclrpthlp(1:sclr_dim))
allocate(iwpedsclrp(1:edsclr_dim))
isclrprtp(:) = 0
isclrp2(:) = 0
isclrpthvp(:) = 0
isclrpthlp(:) = 0
isclrprcp(:) = 0
iwpsclrp(:) = 0
iwp2sclrp(:) = 0
iwpsclrp2(:) = 0
iwpsclrprtp(:) = 0
iwpsclrpthlp(:) = 0
iwpedsclrp(:) = 0
! Assign pointers for statistics variables stats_zm using stat_assign
tot_zm_loops = stats_zm%num_output_fields
if ( any( vars_zm == "hydrometp2" ) ) then
! Correct for number of variables found under "hydrometp2".
! Subtract 1 from the loop size for each hydrometeor.
tot_zm_loops = tot_zm_loops - hydromet_dim
! Add 1 for "hydrometp2" to the loop size.
tot_zm_loops = tot_zm_loops + 1
endif
if ( any( vars_zm == "wphydrometp" ) ) then
! Correct for number of variables found under "wphydrometp".
! Subtract 1 from the loop size for each hydrometeor.
tot_zm_loops = tot_zm_loops - hydromet_dim
! Add 1 for "wphydrometp" to the loop size.
tot_zm_loops = tot_zm_loops + 1
endif
if ( any( vars_zm == "rtphmp" ) ) then
! Correct for number of variables found under "rtphmp".
! Subtract 1 from the loop size for each hydrometeor.
tot_zm_loops = tot_zm_loops - hydromet_dim
! Add 1 for "rtphmp" to the loop size.
tot_zm_loops = tot_zm_loops + 1
endif
if ( any( vars_zm == "thlphmp" ) ) then
! Correct for number of variables found under "thlphmp".
! Subtract 1 from the loop size for each hydrometeor.
tot_zm_loops = tot_zm_loops - hydromet_dim
! Add 1 for "thlphmp" to the loop size.
tot_zm_loops = tot_zm_loops + 1
endif
if ( any( vars_zm == "hmxphmyp" ) ) then
! Correct for number of variables found under "hmxphmyp".
! Subtract the number of overall covariances of two hydrometeors, which
! is found by: (1/2) * hydromet_dim * ( hydromet_dim - 1 );
! from the loop size.
tot_zm_loops = tot_zm_loops - hydromet_dim * ( hydromet_dim - 1 ) / 2
! Add 1 for "hmxphmyp" to the loop size.
tot_zm_loops = tot_zm_loops + 1
endif
if ( any( vars_zm == "K_hm" ) ) then
! Correct for number of variables found under "K_hm".
! Subtract 1 from the loop size for each hydrometeor.
tot_zm_loops = tot_zm_loops - hydromet_dim
! Add 1 for "K_hm" to the loop size.
tot_zm_loops = tot_zm_loops + 1
endif
if ( any( vars_zm == "sclrprtp" ) ) then
! Correct for number of variables found under "sclrprtp".
! Subtract 1 from the loop size for each scalar.
tot_zm_loops = tot_zm_loops - sclr_dim
! Add 1 for "sclrprtp" to the loop size.
tot_zm_loops = tot_zm_loops + 1
endif
if ( any( vars_zm == "sclrp2" ) ) then
! Correct for number of variables found under "sclrp2".
! Subtract 1 from the loop size for each scalar.
tot_zm_loops = tot_zm_loops - sclr_dim
! Add 1 for "sclrp2" to the loop size.
tot_zm_loops = tot_zm_loops + 1
endif
if ( any( vars_zm == "sclrpthvp" ) ) then
! Correct for number of variables found under "sclrpthvp".
! Subtract 1 from the loop size for each scalar.
tot_zm_loops = tot_zm_loops - sclr_dim
! Add 1 for "sclrpthvp" to the loop size.
tot_zm_loops = tot_zm_loops + 1
endif
if ( any( vars_zm == "sclrpthlp" ) ) then
! Correct for number of variables found under "sclrpthlp".
! Subtract 1 from the loop size for each scalar.
tot_zm_loops = tot_zm_loops - sclr_dim
! Add 1 for "sclrpthlp" to the loop size.
tot_zm_loops = tot_zm_loops + 1
endif
if ( any( vars_zm == "sclrprcp" ) ) then
! Correct for number of variables found under "sclrprcp".
! Subtract 1 from the loop size for each scalar.
tot_zm_loops = tot_zm_loops - sclr_dim
! Add 1 for "sclrprcp" to the loop size.
tot_zm_loops = tot_zm_loops + 1
endif
if ( any( vars_zm == "wpsclrp" ) ) then
! Correct for number of variables found under "wpsclrp".
! Subtract 1 from the loop size for each scalar.
tot_zm_loops = tot_zm_loops - sclr_dim
! Add 1 for "wpsclrp" to the loop size.
tot_zm_loops = tot_zm_loops + 1
endif
if ( any( vars_zm == "wpsclrp2" ) ) then
! Correct for number of variables found under "wpsclrp2".
! Subtract 1 from the loop size for each scalar.
tot_zm_loops = tot_zm_loops - sclr_dim
! Add 1 for "wpsclrp2" to the loop size.
tot_zm_loops = tot_zm_loops + 1
endif
if ( any( vars_zm == "wp2sclrp" ) ) then
! Correct for number of variables found under "wp2sclrp".
! Subtract 1 from the loop size for each scalar.
tot_zm_loops = tot_zm_loops - sclr_dim
! Add 1 for "wp2sclrp" to the loop size.
tot_zm_loops = tot_zm_loops + 1
endif
if ( any( vars_zm == "wpsclrprtp" ) ) then
! Correct for number of variables found under "wpsclrprtp".
! Subtract 1 from the loop size for each scalar.
tot_zm_loops = tot_zm_loops - sclr_dim
! Add 1 for "wpsclrprtp" to the loop size.
tot_zm_loops = tot_zm_loops + 1
endif
if ( any( vars_zm == "wpsclrpthlp" ) ) then
! Correct for number of variables found under "wpsclrpthlp".
! Subtract 1 from the loop size for each scalar.
tot_zm_loops = tot_zm_loops - sclr_dim
! Add 1 for "wpsclrpthlp" to the loop size.
tot_zm_loops = tot_zm_loops + 1
endif
if ( any( vars_zm == "wpedsclrp" ) ) then
! Correct for number of variables found under "wpedsclrp".
! Subtract 1 from the loop size for each scalar.
tot_zm_loops = tot_zm_loops - edsclr_dim
! Add 1 for "wpedsclrp" to the loop size.
tot_zm_loops = tot_zm_loops + 1
endif
k = 1
do i = 1, tot_zm_loops
select case ( trim( vars_zm(i) ) )
case ('wp2')
iwp2 = k
call stat_assign( var_index=iwp2, var_name="wp2", &
var_description="w'^2, Variance of vertical air velocity [m^2/s^2]", &
var_units="m^2/s^2", l_silhs=.false., grid_kind=stats_zm )
k = k + 1
case ('rtp2')
irtp2 = k
call stat_assign( var_index=irtp2, var_name="rtp2", &
var_description="rt'^2, Variance of rt [(kg/kg)^2]", var_units="(kg/kg)^2", &
l_silhs=.false., grid_kind=stats_zm )
k = k + 1
case ('thlp2')
ithlp2 = k
call stat_assign( var_index=ithlp2, var_name="thlp2", &
var_description="thl'^2, Variance of thl [K^2]", var_units="K^2", l_silhs=.false., &
grid_kind=stats_zm )
k = k + 1
case ('rtpthlp')
irtpthlp = k
call stat_assign( var_index=irtpthlp, var_name="rtpthlp", &
var_description="rt'thl', Covariance of rt and thl [(kg K)/kg]", &
var_units="(kg K)/kg", l_silhs=.false., grid_kind=stats_zm )
k = k + 1
case ('wprtp')
iwprtp = k
call stat_assign( var_index=iwprtp, var_name="wprtp", &
var_description="w'rt', Vertical turbulent flux of rt [(kg/kg) m/s]", &
var_units="(m kg)/(s kg)", l_silhs=.false., grid_kind=stats_zm )
k = k + 1
case ('wpthlp')
iwpthlp = k
call stat_assign( var_index=iwpthlp, var_name="wpthlp", &
var_description="w'thl', Vertical turbulent flux of thl [K m/s]", &
var_units="(m K)/s", l_silhs=.false., grid_kind=stats_zm )
k = k + 1
case ('wp3_zm')
iwp3_zm = k
call stat_assign( var_index=iwp3_zm, var_name="wp3_zm", &
var_description="w'^3 interpolated to moment. levels [m^3/s^3]", &
var_units="(m^3)/(s^3)", l_silhs=.false., grid_kind=stats_zm )
k = k + 1
case ('thlp3_zm')
ithlp3_zm = k
call stat_assign( var_index=ithlp3_zm, var_name="thlp3_zm", &
var_description="thl'^3 interpolated to moment. levels [K^3]", &
var_units="K^3", l_silhs=.false., grid_kind=stats_zm )
k = k + 1
case ('rtp3_zm')
irtp3_zm = k
call stat_assign( var_index=irtp3_zm, var_name="rtp3_zm", &
var_description="rt'^3 interpolated to moment. levels [kg^3/kg^3]", &
var_units="(kg^3)/(kg^3)", l_silhs=.false., grid_kind=stats_zm )
k = k + 1
case ('wp4')
iwp4 = k
call stat_assign( var_index=iwp4, var_name="wp4", var_description="w'^4 [m^4/s^4]", &
var_units="(m^4)/(s^4)", l_silhs=.false., grid_kind=stats_zm )
k = k + 1
case ('wpthvp')
iwpthvp = k
call stat_assign( var_index=iwpthvp, var_name="wpthvp", &
var_description="Buoyancy flux [K m/s]", var_units="K m/s", l_silhs=.false., &
grid_kind=stats_zm )
k = k + 1
case ('rtpthvp')
irtpthvp = k
call stat_assign( var_index=irtpthvp, var_name="rtpthvp", &
var_description="rt'thv' [(kg/kg) K]", var_units="(kg/kg) K", l_silhs=.false., &
grid_kind=stats_zm )
k = k + 1
case ('thlpthvp')
ithlpthvp = k
call stat_assign( var_index=ithlpthvp, var_name="thlpthvp", &
var_description="thl'thv' [K^2]", var_units="K^2", l_silhs=.false., grid_kind=stats_zm )
k = k + 1
case ('tau_zm')
itau_zm = k
call stat_assign( var_index=itau_zm, var_name="tau_zm", &
var_description="Time-scale tau on momentum levels [s]", var_units="s", &
l_silhs=.false., grid_kind=stats_zm )
k = k + 1
case ('tau_no_N2_zm')
itau_no_N2_zm = k
call stat_assign( var_index=itau_no_N2_zm, var_name="tau_no_N2_zm", &
var_description="simple tau on momentum levels [s]", var_units="s", &
l_silhs=.false., grid_kind=stats_zm )
k = k + 1
case ('tau_wp2_zm')
itau_wp2_zm = k
call stat_assign( var_index=itau_wp2_zm, var_name="tau_wp2_zm", &
var_description="tau for wp2 on momentum levels [s]", var_units="s",&
l_silhs=.false., grid_kind=stats_zm )
k = k + 1
case ('tau_wp3_zm')
itau_wp3_zm = k
call stat_assign( var_index=itau_wp3_zm, var_name="tau_wp3_zm", &
var_description="tau for wp3 on momentum levels [s]", var_units="s",&
l_silhs=.false., grid_kind=stats_zm )
k = k + 1
case ('tau_xp2_zm')
itau_xp2_zm = k
call stat_assign( var_index=itau_xp2_zm, var_name="tau_xp2_zm", &
var_description="tau for xp2 on momentum levels [s]", var_units="s",&
l_silhs=.false., grid_kind=stats_zm )
k = k + 1
case ('Kh_zm')
iKh_zm = k
call stat_assign( var_index=iKh_zm, var_name="Kh_zm", &
var_description="Eddy diffusivity on momentum levels [m^2/s]", var_units="m^2/s", &
l_silhs=.false., grid_kind=stats_zm )
k = k + 1
case ('K_hm')
do hm_idx = 1, hydromet_dim, 1
hm_type = hydromet_list(hm_idx)
iK_hm(hm_idx) = k
call stat_assign( var_index=iK_hm(hm_idx), &
var_name="K_hm_"//trim( hm_type(1:2) ), &
var_description="Eddy. diff. coef. of " &
// trim(hm_type(1:2)) &
// " [m^2/s]", &
var_units="[m^2/s]", &
l_silhs=.false., grid_kind=stats_zm )
k = k + 1
end do
case ('wprcp')
iwprcp = k
call stat_assign( var_index=iwprcp, var_name="wprcp", &
var_description="w' rc' [(m/s) (kg/kg)]", var_units="(m/s) (kg/kg)", &
l_silhs=.false., grid_kind=stats_zm )
k = k + 1
case ('rc_coef_zm')
irc_coef_zm = k
call stat_assign( var_index=irc_coef_zm, var_name="rc_coef_zm", &
var_description="Coefficient of X'r_c' [K/(kg/kg)]", &
var_units="K/(kg/kg)", l_silhs=.false., grid_kind=stats_zm )
k = k + 1
case ('thlprcp')
ithlprcp = k
call stat_assign( var_index=ithlprcp, var_name="thlprcp", &
var_description="thl' rc' [K (kg/kg)]", var_units="K (kg/kg)", l_silhs=.false., &
grid_kind=stats_zm )
k = k + 1
case ('rtprcp')
irtprcp = k
call stat_assign( var_index=irtprcp, var_name="rtprcp", &
var_description="rt'rc' [(kg^2)/(kg^2)]", var_units="(kg^2)/(kg^2)", &
l_silhs=.false., grid_kind=stats_zm )
k = k + 1
case ('rcp2')
ircp2 = k
call stat_assign( var_index=ircp2, var_name="rcp2", &
var_description="rc'^2 [(kg^2)/(kg^2)]", var_units="(kg^2)/(kg^2)", l_silhs=.false., &
grid_kind=stats_zm )
k = k + 1
case ('upwp')
iupwp = k
call stat_assign( var_index=iupwp, var_name="upwp", &
var_description="u'w', Vertical east-west momentum flux [m^2/s^2]", &
var_units="m^2/s^2", l_silhs=.false., grid_kind=stats_zm )
k = k + 1
case ('vpwp')
ivpwp = k
call stat_assign( var_index=ivpwp, var_name="vpwp", &
var_description="v'w', Vertical north-south momentum flux [m^2/s^2]", &
var_units="m^2/s^2", l_silhs=.false., grid_kind=stats_zm )
k = k + 1
case ('upthlp')
iupthlp = k
call stat_assign( var_index=iupthlp, var_name="upthlp", &
var_description="u'thl', Eastward theta_l flux [(m/s)K]", &
var_units="(m/s)K", l_silhs=.false., grid_kind=stats_zm )
k = k + 1
case ('uprtp')
iuprtp = k
call stat_assign( var_index=iuprtp, var_name="uprtp", &
var_description="u'rt', Eastward total water flux [(m/s)(kg/kg)]", &
var_units="(m/s)(kg/kg)", l_silhs=.false., grid_kind=stats_zm )
k = k + 1
case ('vpthlp')
ivpthlp = k
call stat_assign( var_index=ivpthlp, var_name="vpthlp", &
var_description="v'thl', Northward theta_l flux [(m/s)K]", &
var_units="(m/s)K", l_silhs=.false., grid_kind=stats_zm )
k = k + 1
case ('vprtp')
ivprtp = k
call stat_assign( var_index=ivprtp, var_name="vprtp", &
var_description="v'rt', Northward total water flux [(m/s)(kg/kg)]", &
var_units="(m/s)(kg/kg)", l_silhs=.false., grid_kind=stats_zm )
k = k + 1
case ('upthvp')
iupthvp = k
call stat_assign( var_index=iupthvp, var_name="upthvp", &
var_description="u'thv', Eastward theta_v flux [(m/s)K]", &
var_units="(m/s)K", l_silhs=.false., grid_kind=stats_zm )
k = k + 1
case ('uprcp')
iuprcp = k
call stat_assign( var_index=iuprcp, var_name="uprcp", &
var_description="u'rc', Eastward liquid water flux [(m/s)(kg/kg)]", &
var_units="(m/s)(kg/kg)", l_silhs=.false., grid_kind=stats_zm )
k = k + 1
case ('vpthvp')
ivpthvp = k
call stat_assign( var_index=ivpthvp, var_name="vpthvp", &
var_description="v'thv', Northward theta_v flux [(m/s)K]", &
var_units="(m/s)K", l_silhs=.false., grid_kind=stats_zm )
k = k + 1
case ('vprcp')
ivprcp = k
call stat_assign( var_index=ivprcp, var_name="vprcp", &
var_description="v'rc', Northward liquid water flux [(m/s)(kg/kg)]", &
var_units="(m/s)(kg/kg)", l_silhs=.false., grid_kind=stats_zm )
k = k + 1
case ('rho_zm')
irho_zm = k
call stat_assign( var_index=irho_zm, var_name="rho_zm", &
var_description="Density on momentum levels [kg/m^3]", var_units="kg m^{-3}", &
l_silhs=.false., grid_kind=stats_zm )
k = k + 1
case ('sigma_sqd_w')
isigma_sqd_w = k
call stat_assign( var_index=isigma_sqd_w, var_name="sigma_sqd_w", &
var_description="Nondimensionalized w variance of Gaussian component [-]", &
var_units="-", l_silhs=.false., grid_kind=stats_zm )
k = k + 1
case ('rho_ds_zm')
irho_ds_zm = k
call stat_assign( var_index=irho_ds_zm, var_name="rho_ds_zm", &
var_description="Dry, static, base-state density [kg/m^3]", var_units="kg m^{-3}", &
l_silhs=.false., grid_kind=stats_zm )
k = k + 1
case ('thv_ds_zm')
ithv_ds_zm = k
call stat_assign( var_index=ithv_ds_zm, var_name="thv_ds_zm", &
var_description="Dry, base-state theta_v [K]", var_units="K", l_silhs=.false., &
grid_kind=stats_zm )
k = k + 1
case ('em')
iem = k
call stat_assign( var_index=iem, var_name="em", &
var_description="Turbulent kinetic energy, usu. 0.5*(u'^2+v'^2+w'^2) [m^2/s^2]", &
var_units="m^2/s^2", l_silhs=.false., grid_kind=stats_zm )
k = k + 1
case ('shear') ! Brian
ishear = k
call stat_assign( var_index=ishear, var_name="shear", &
var_description="Wind shear production term [m^2/s^3]", var_units="m^2/s^3", &
l_silhs=.false., grid_kind=stats_zm )
k = k + 1
case ('mean_w_up')
imean_w_up = k
call stat_assign( var_index=imean_w_up, var_name="mean_w_up", &
var_description="Mean w >= w_ref [m/s]", var_units="m/s", l_silhs=.false., &
grid_kind=stats_zm )
k = k + 1
case ('mean_w_down')
imean_w_down = k
call stat_assign( var_index=imean_w_down, var_name="mean_w_down", &
var_description="Mean w <= w_ref [m/s]", var_units="m/s", l_silhs=.false., &
grid_kind=stats_zm )
k = k + 1
case ('Frad')
iFrad = k
call stat_assign( var_index=iFrad, var_name="Frad", &
var_description="Total (sw+lw) net (up+down) radiative flux [W/m^2]", &
var_units="W/m^2", l_silhs=.false., grid_kind=stats_zm )
k = k + 1
case ('Frad_LW') ! Brian
iFrad_LW = k
call stat_assign( var_index=iFrad_LW, var_name="Frad_LW", &
var_description="Net long-wave radiative flux [W/m^2]", var_units="W/m^2", &
l_silhs=.false., grid_kind=stats_zm )
k = k + 1
case ('Frad_SW') ! Brian
iFrad_SW = k
call stat_assign( var_index=iFrad_SW, var_name="Frad_SW", &
var_description="Net short-wave radiative flux [W/m^2]", var_units="W/m^2", &
l_silhs=.false., grid_kind=stats_zm )
k = k + 1
case ('Frad_LW_up') ! Brian
iFrad_LW_up = k
call stat_assign( var_index=iFrad_LW_up, var_name="Frad_LW_up", &
var_description="Long-wave upwelling radiative flux [W/m^2]", var_units="W/m^2", &
l_silhs=.false., grid_kind=stats_zm )
k = k + 1
case ('Frad_SW_up') ! Brian
iFrad_SW_up = k
call stat_assign( var_index=iFrad_SW_up, var_name="Frad_SW_up", &
var_description="Short-wave upwelling radiative flux [W/m^2]", var_units="W/m^2", &
l_silhs=.false., grid_kind=stats_zm )
k = k + 1
case ('Frad_LW_down') ! Brian
iFrad_LW_down = k
call stat_assign( var_index=iFrad_LW_down, var_name="Frad_LW_down", &
var_description="Long-wave downwelling radiative flux [W/m^2]", var_units="W/m^2", &
l_silhs=.false., grid_kind=stats_zm )
k = k + 1
case ('Frad_SW_down') ! Brian
iFrad_SW_down = k
call stat_assign( var_index=iFrad_SW_down, var_name="Frad_SW_down", &
var_description="Short-wave downwelling radiative flux [W/m^2]", var_units="W/m^2", &
l_silhs=.false., grid_kind=stats_zm )
k = k + 1
case ('Fprec') ! Brian
iFprec = k
call stat_assign( var_index=iFprec, var_name="Fprec", &
var_description="Rain flux [W/m^2]", var_units="W/m^2", l_silhs=.false., &
grid_kind=stats_zm )
k = k + 1
case ('Fcsed') ! Brian
iFcsed = k
call stat_assign( var_index=iFcsed, var_name="Fcsed", &
var_description="cloud water sedimentation flux [kg/(s*m^2)]", &
var_units="kg/(s*m^2)", l_silhs=.false., grid_kind=stats_zm )
k = k + 1
case('hydrometp2')
do hm_idx = 1, hydromet_dim, 1
hm_type = hydromet_list(hm_idx)
! The overall variance of the hydrometeor.
ihydrometp2(hm_idx) = k
if ( l_mix_rat_hm(hm_idx) ) then
call stat_assign( var_index=ihydrometp2(hm_idx), &
var_name=trim( hm_type(1:2) )//"p2", &
var_description="<" &
// hm_type(1:1)//"_"//trim( hm_type(2:2) ) &
// "'^2> [(kg/kg)^2]", &
var_units="(kg/kg)^2", &
l_silhs=.false., grid_kind=stats_zm )
else ! Concentration
call stat_assign( var_index=ihydrometp2(hm_idx), &
var_name=trim( hm_type(1:2) )//"p2", &
var_description="<" &
// hm_type(1:1)//"_"//trim( hm_type(2:2) ) &
// "'^2> [(num/kg)^2]", &
var_units="(num/kg)^2", &
l_silhs=.false., grid_kind=stats_zm )
endif ! l_mix_rat_hm(hm_idx)
k = k + 1
enddo ! hm_idx = 1, hydromet_dim, 1
case ('wphydrometp')
do hm_idx = 1, hydromet_dim, 1
hm_type = hydromet_list(hm_idx)
iwphydrometp(hm_idx) = k
if ( l_mix_rat_hm(hm_idx) ) then
call stat_assign( var_index=iwphydrometp(hm_idx), &
var_name="wp"//trim( hm_type(1:2) )//"p", &
var_description="Covariance of w and " &
// hm_type(1:1)//"_"//trim( hm_type(2:2) ) &
// " [(m/s) kg/kg]", &
var_units="(m/s) kg/kg", &
l_silhs=.false., grid_kind=stats_zm )
else ! Concentration
call stat_assign( var_index=iwphydrometp(hm_idx), &
var_name="wp"//trim( hm_type(1:2) )//"p", &
var_description="Covariance of w and " &
// hm_type(1:1)//"_"//trim( hm_type(2:2) ) &
// " [(m/s) num/kg]", &
var_units="(m/s) num/kg", &
l_silhs=.false., grid_kind=stats_zm )
endif ! l_mix_rat_hm(hm_idx)
k = k + 1
enddo ! hm_idx = 1, hydromet_dim, 1
case ('wpNcp')
iwpNcp = k