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glm_aed.F90
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glm_aed.F90
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!###############################################################################
!# #
!# glm_aed.F90 #
!# #
!# The interface between glm and libaed-xxx #
!# #
!# Developed by : #
!# AquaticEcoDynamics (AED) Group #
!# School of Agriculture and Environment #
!# The University of Western Australia #
!# #
!# http://aquatic.science.uwa.edu.au/ #
!# #
!# Copyright 2013 - 2023 - The University of Western Australia #
!# #
!# This file is part of GLM (General Lake Model) #
!# #
!# GLM is free software: you can redistribute it and/or modify #
!# it under the terms of the GNU General Public License as published by #
!# the Free Software Foundation, either version 3 of the License, or #
!# (at your option) any later version. #
!# #
!# GLM is distributed in the hope that it will be useful, #
!# but WITHOUT ANY WARRANTY; without even the implied warranty of #
!# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the #
!# GNU General Public License for more details. #
!# #
!# You should have received a copy of the GNU General Public License #
!# along with this program. If not, see <http://www.gnu.org/licenses/>. #
!# #
!###############################################################################
#include "aed.h"
#undef MISVAL
#ifndef _FORTRAN_SOURCE_
#define _FORTRAN_SOURCE_ 1
#endif
#include "glm.h"
#ifdef __GFORTRAN__
# if __GNUC__ < 8
# error "You will need gfortran version 8 or better"
# endif
#else
# ifndef isnan
# define isnan(x) ieee_is_nan(x)
# define HAVE_IEEE_ARITH
# endif
#endif
!-------------------------------------------------------------------------------
MODULE glm_aed
!
USE ISO_C_BINDING
USE aed_water
USE aed_common
USE glm_types
USE glm_zones
#ifdef HAVE_IEEE_ARITH
USE IEEE_ARITHMETIC
#endif
IMPLICIT NONE
PRIVATE ! By default, make everything private
!
#include "glm_globals.h"
#include "glm_plot.h"
#include "glm_ncdf.h"
#include "glm_csv.h"
#include "glm_mobl.h"
!
#if USE_DL_LOADER
# define _WQ_INIT_GLM "wq_init_glm"
# define _WQ_SET_GLM_DATA "wq_set_glm_data"
# define _WQ_DO_GLM "wq_do_glm"
# define _WQ_CLEAN_GLM "wq_clean_glm"
# define _WQ_INIT_GLM_OUTPUT "wq_init_glm_output"
# define _WQ_WRITE_GLM_ "wq_write_glm"
# define _WQ_VAR_INDEX_C "wq_var_index_c"
# define _WQ_SET_FLAGS "wq_set_flags"
# define _WQ_IS_VAR "wq_is_var"
# define _WQ_INFLOW_UPDATE "wq_inflow_update"
#else
# define _WQ_INIT_GLM "aed_init_glm"
# define _WQ_SET_GLM_DATA "aed_set_glm_data"
# define _WQ_DO_GLM "aed_do_glm"
# define _WQ_CLEAN_GLM "aed_clean_glm"
# define _WQ_INIT_GLM_OUTPUT "aed_init_glm_output"
# define _WQ_WRITE_GLM_ "aed_write_glm"
# define _WQ_VAR_INDEX_C "aed_var_index_c"
# define _WQ_SET_FLAGS "aed_set_flags"
# define _WQ_IS_VAR "aed_is_var"
# define _WQ_INFLOW_UPDATE "aed_update_inflow_wq"
#endif
!
!-------------------------------------------------------------------------------
!
!MODULE DATA
AED_REAL :: lKw !# background light attenuation (m**-1)
LOGICAL :: lIce = .FALSE.
!# Namelist variables
INTEGER :: ode_method = 1, split_factor = 1, benthic_mode
LOGICAL :: bioshade_feedback = .TRUE., repair_state = .TRUE.
LOGICAL :: mobility_off = .FALSE. !# flag to turn mobility off
LOGICAL :: do_plots = .TRUE.
AED_REAL :: par_fraction = 0.450
AED_REAL :: nir_fraction = 0.510
AED_REAL :: uva_fraction = 0.035
AED_REAL :: uvb_fraction = 0.005
!# Arrays for state and diagnostic variables
AED_REAL,ALLOCATABLE,DIMENSION(:,:) :: cc !# water quality array: nlayers, nvars
AED_REAL,ALLOCATABLE,TARGET,DIMENSION(:,:) :: cc_diag
AED_REAL,ALLOCATABLE,TARGET,DIMENSION(:) :: cc_diag_hz
AED_REAL,ALLOCATABLE,TARGET,DIMENSION(:) :: tss
AED_REAL,ALLOCATABLE,TARGET,DIMENSION(:) :: sed_zones
!# Arrays for work, vertical movement, and cross-boundary fluxes
AED_REAL,ALLOCATABLE,DIMENSION(:,:) :: ws
AED_REAL,ALLOCATABLE,DIMENSION(:) :: total
AED_REAL,ALLOCATABLE,DIMENSION(:) :: local
AED_REAL,ALLOCATABLE,TARGET,DIMENSION(:) :: dz
!# Arrays for environmental variables not supplied externally.
AED_REAL,ALLOCATABLE,TARGET,DIMENSION(:) :: par, pres
AED_REAL,ALLOCATABLE,TARGET,DIMENSION(:) :: uva, uvb, nir
!# External variables
AED_REAL :: dt, dt_eff ! External and internal time steps
! INTEGER :: w_adv_ctr ! Scheme for vertical advection (0 IF not used)
AED_REAL,POINTER,DIMENSION(:) :: rad, z, salt, temp, rho, area
AED_REAL,POINTER,DIMENSION(:) :: extc_coef, layer_stress, vel
AED_REAL,POINTER :: precip, evap, bottom_stress, air_temp, rel_hum
AED_REAL,POINTER :: I_0, wnd, air_pres
AED_REAL,ALLOCATABLE,DIMENSION(:),TARGET :: depth,layer_area
AED_REAL,POINTER :: lon, lat
AED_REAL,POINTER :: yeardayP, timestepP
CHARACTER(len=48),ALLOCATABLE :: names(:)
CHARACTER(len=48),ALLOCATABLE :: bennames(:)
! CHARACTER(len=48),ALLOCATABLE :: diagnames(:)
AED_REAL,ALLOCATABLE,DIMENSION(:) :: min_, max_
INTEGER,ALLOCATABLE,DIMENSION(:) :: externalid
INTEGER,ALLOCATABLE,DIMENSION(:) :: zexternalid
#if PLOTS
INTEGER,ALLOCATABLE,DIMENSION(:) :: plot_id_v, plot_id_sv, plot_id_d, plot_id_sd
#endif
LOGICAL :: link_rain_loss, link_solar_shade, link_bottom_drag
AED_REAL,POINTER :: rain_factor, sw_factor, friction
LOGICAL :: reinited = .FALSE.
INTEGER :: n_aed_vars, n_vars, n_vars_ben, n_vars_diag, n_vars_diag_sheet
INTEGER :: zone_var = 0
CHARACTER(len=64) :: NULCSTR = ""
!===============================================================================
CONTAINS
!###############################################################################
FUNCTION MYTRIM(str) RESULT(res)
!-------------------------------------------------------------------------------
! Useful for passing string arguments to C functions
!-------------------------------------------------------------------------------
CHARACTER(*),TARGET :: str
CHARACTER(:),POINTER :: res
INTEGER :: len
len = LEN_TRIM(str)+1
str(len:len) = achar(0)
res => str
END FUNCTION MYTRIM
!+++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
!###############################################################################
SUBROUTINE STOPIT(message)
!-------------------------------------------------------------------------------
!ARGUMENTS
CHARACTER(*) :: message
!-------------------------------------------------------------------------------
PRINT *,message
STOP
END SUBROUTINE STOPIT
!+++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
!###############################################################################
INTEGER FUNCTION f_get_lun()
!-------------------------------------------------------------------------------
! Find the first free logical unit number
!-------------------------------------------------------------------------------
!ARGUMENTS
INTEGER :: lun
LOGICAL :: opened
!
!-------------------------------------------------------------------------------
!BEGIN
DO lun = 10,99
inquire(unit=lun, opened=opened)
IF ( .not. opened ) THEN
f_get_lun = lun
RETURN
ENDIF
ENDDO
f_get_lun = -1
END FUNCTION f_get_lun
!+++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
!###############################################################################
SUBROUTINE aed_set_flags(c_split_factor, c_mobility, c_bioshade, &
c_repair_state, c_ode, c_benthic_mode, c_do_plots, &
c_link_rain_loss, c_link_solar_shade, c_link_bottom_drag) BIND(C, name=_WQ_SET_FLAGS)
!-------------------------------------------------------------------------------
!ARGUMENTS
CLOGICAL,INTENT(in) :: c_mobility, c_bioshade, c_repair_state, c_do_plots
CINTEGER,INTENT(in) :: c_split_factor, c_ode, c_benthic_mode
! CLOGICAL,OPTIONAL,INTENT(in) :: c_link_rain_loss, c_link_solar_shade, c_link_bottom_drag
CLOGICAL,INTENT(in) :: c_link_rain_loss, c_link_solar_shade, c_link_bottom_drag
!
!-------------------------------------------------------------------------------
!BEGIN
split_factor = c_split_factor
mobility_off = c_mobility
bioshade_feedback = c_bioshade
ode_method = c_ode
repair_state = c_repair_state
benthic_mode = c_benthic_mode
do_plots = c_do_plots
! IF (PRESENT(c_link_rain_loss)) link_rain_loss = c_link_rain_loss
! IF (PRESENT(c_link_solar_shade)) link_solar_shade = c_link_solar_shade
! IF (PRESENT(c_link_bottom_drag)) link_bottom_drag = c_link_bottom_drag
link_rain_loss = c_link_rain_loss
link_solar_shade = c_link_solar_shade
link_bottom_drag = c_link_bottom_drag
END SUBROUTINE aed_set_flags
!+++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
!###############################################################################
SUBROUTINE aed_init_glm(i_fname,len,MaxLayers,NumWQ_Vars,NumWQ_Ben,pKw) BIND(C, name=_WQ_INIT_GLM)
!-------------------------------------------------------------------------------
! Initialize the GLM-AED driver by reading settings from aed.nml.
!-------------------------------------------------------------------------------
!ARGUMENTS
CCHARACTER,INTENT(in) :: i_fname(*)
CSIZET,INTENT(in) :: len
CINTEGER,INTENT(in) :: MaxLayers
CINTEGER,INTENT(out) :: NumWQ_Vars, NumWQ_Ben
AED_REAL,INTENT(in) :: pKw
!
!LOCALS
INTEGER :: i,j,namlst,status
INTEGER :: rc, av, v, sv, tv
CHARACTER(len=80) :: fname
TYPE(aed_variable_t),POINTER :: tvar
CHARACTER(len=64) :: models(64)
NAMELIST /aed_models/ models
!
!-------------------------------------------------------------------------------
!BEGIN
CALL make_string(fname, i_fname, len)
lKw = pKw
#ifdef __INTEL_COMPILER
print *,' glm_aed built using intel fortran version ', __INTEL_COMPILER
#else
# ifdef __PGI
print *,' glm_aed built using pgfortran version ', __PGIC__, '.', __PGIC_MINOR__, '.', __PGIC_PATCHLEVEL__
# else
# ifdef __GNUC__
print *,' glm_aed built using gfortran version ', __GNUC__, '.', __GNUC_MINOR__, '.', __GNUC_PATCHLEVEL__
# else
# ifdef __clang__
print*," glm_aed built using flang version ", __clang_major__, '.', __clang_minor__, '.', __clang_patchlevel__
# else
print*," glm_aed built using unknow fortran"
# endif
# endif
# endif
#endif
print *,' libaed enabled.... init_glm_aed processing: ', TRIM(fname)
namlst = f_get_lun()
write(*,"(/,5X,'---------- AED config : start ----------')")
IF ( aed_init_core('.') /= 0 ) STOP " ERROR: Initialisation of aed_core failed"
CALL aed_print_version
tv = aed_provide_global( 'temperature', 'temperature' , 'celsius' )
tv = aed_provide_global( 'salinity', 'salinity' , 'g/Kg' )
tv = aed_provide_global( 'density', 'density' , '' )
tv = aed_provide_global( 'layer_ht', 'layer heights' , 'meters' )
tv = aed_provide_global( 'layer_area', 'layer area' , 'm2' )
tv = aed_provide_sheet_global( 'rain', 'rainfall' , 'm/s' )
!rainloss
!material
!bathy
tv = aed_provide_global( 'extc_coef', 'extinction coefficient' , '' )
tv = aed_provide_global( 'tss', 'tss' , '' )
!ss1, ss2, ss3, ss4
tv = aed_provide_global( 'cell_vel', 'layer velocity' , 'm/s' )
tv = aed_provide_global( 'nir', 'nir' , 'W/m2' )
tv = aed_provide_global( 'par', 'par' , 'W/m2' )
tv = aed_provide_global( 'uva', 'uva' , 'W/m2' )
tv = aed_provide_global( 'uvb', 'uvb' , 'W/m2' )
tv = aed_provide_global( 'pressure', 'pressure' , '' )
tv = aed_provide_global( 'depth', 'depth' , 'm' )
tv = aed_provide_sheet_global( 'sed_zone', 'sediment zone' , '' )
tv = aed_provide_sheet_global( 'wind_speed', 'wind speed' , 'm/s' )
tv = aed_provide_sheet_global( 'par_sf', 'par_sf' , '' )
tv = aed_provide_sheet_global( 'taub', 'layer stress' , 'N/m2' )
tv = aed_provide_sheet_global( 'air_temp', 'air temperature', 'celsius' )
tv = aed_provide_sheet_global( 'humidity', 'relative humidity', '-' )
!longwave
!col_num
!col_depth
tv = aed_provide_sheet_global( 'col_depth', 'lake depth', 'meters' )
! added for oasim
tv = aed_provide_sheet_global( 'longitude', 'longitude', 'radians' )
tv = aed_provide_sheet_global( 'latitude', 'latitude', 'radians' )
tv = aed_provide_sheet_global( 'yearday', 'yearday', 'day' )
tv = aed_provide_sheet_global( 'timestep', 'timestep', 'seconds' )
! new var air_pressure
tv = aed_provide_sheet_global( 'air_pres', 'air_pressure', 'Pa' )
!# Create model tree
print *," Processing aed_models config from ",TRIM(fname)
OPEN(namlst,file=fname,action='read',status='old',iostat=status)
IF ( status /= 0 ) CALL STOPIT("Cannot open file " // TRIM(fname))
models = ''
READ(namlst, nml=aed_models, iostat=status)
IF ( status /= 0 ) STOP "Cannot read namelist entry aed_models"
DO i=1,size(models)
IF ( models(i) == '' ) EXIT
IF ( benthic_mode .GT. 1 ) models(i) = TRIM(models(i)) // ':za' ! make all models zone averaged
CALL aed_define_model(models(i), namlst)
ENDDO
!# should be finished with this file
CLOSE(namlst)
print *," ... nml file parsing completed."
n_aed_vars = aed_core_status(n_vars, n_vars_ben, n_vars_diag, n_vars_diag_sheet)
#if DEBUG
DO i=1,n_aed_vars
IF ( aed_get_var(i, tvar) ) THEN
print *,"AED var ", i, tvar%sheet, tvar%diag, tvar%extern, TRIM(tvar%name)
ELSE
print *,"AED var ", i, " is empty"
ENDIF
ENDDO
#endif
print "(/,5X,'AED : n_aed_vars = ',I3,' ; MaxLayers = ',I4)",n_aed_vars,MaxLayers
print "( 5X,'AED : n_vars = ',I3,' ; n_vars_ben = ',I3)",n_vars,n_vars_ben
print "( 5X,'AED : n_vars_diag = ',I3,' ; n_vars_diag_sheet = ',I3,/)",n_vars_diag,n_vars_diag_sheet
CALL check_data
!# names = grab the names from info
ALLOCATE(names(n_vars),stat=status)
IF (status /= 0) STOP 'allocate_memory(): Error allocating (names)'
ALLOCATE(bennames(n_vars_ben),stat=status)
IF (status /= 0) STOP 'allocate_memory(): Error allocating (bennames)'
#if PLOTS
ALLOCATE(plot_id_v(n_vars))
ALLOCATE(plot_id_sv(n_vars_ben))
ALLOCATE(plot_id_d(n_vars_diag))
ALLOCATE(plot_id_sd(n_vars_diag_sheet))
plot_id_v = -1; plot_id_sv = -1; plot_id_d = -1; plot_id_sd = -1
#endif
NumWQ_Vars = n_vars
NumWQ_Ben = n_vars_ben
!# Now that we know how many vars we need, we can allocate space for them
ALLOCATE(cc(MaxLayers, (n_vars + n_vars_ben)),stat=status)
IF (status /= 0) STOP 'allocate_memory(): Error allocating (CC)'
cc = 0. !# initialise to zero
CALL set_c_wqvars_ptr(cc)
ALLOCATE(min_((n_vars + n_vars_ben))) ; ALLOCATE(max_((n_vars + n_vars_ben)))
print "(5X,'Configured AED variables to simulate:')"
j = 0
DO i=1,n_aed_vars
IF ( aed_get_var(i, tvar) ) THEN
IF ( .NOT. (tvar%sheet .OR. tvar%diag .OR. tvar%extern) ) THEN
j = j + 1
names(j) = TRIM(tvar%name)
min_(j) = tvar%minimum
max_(j) = tvar%maximum
!print *," S(",j,") AED pelagic(3D) variable: ", TRIM(names(j))
print "(7X,'S(',I4,') water column variable : ',A)",j , TRIM(names(j))
ENDIF
ENDIF
ENDDO
j = 0
DO i=1,n_aed_vars
IF ( aed_get_var(i, tvar) ) THEN
IF ( tvar%sheet .AND. .NOT. (tvar%diag .OR. tvar%extern) ) THEN
j = j + 1
bennames(j) = TRIM(tvar%name)
min_(n_vars+j) = tvar%minimum
max_(n_vars+j) = tvar%maximum
!print *," B(",j,") AED benthic(2D) variable: ", TRIM(bennames(j))
print "(7X,'B(',I4,') bottom variable + ',A)",j , TRIM(bennames(j))
ENDIF
ENDIF
ENDDO
j = 0
DO i=1,n_aed_vars
IF ( aed_get_var(i, tvar) ) THEN
IF ( tvar%diag ) THEN
IF ( .NOT. tvar%sheet ) THEN
j = j + 1
print "(7X,'D(',I4,') water column diagnostic > ',A)",j , TRIM(tvar%name)
!print *," D(",j,") AED diagnostic 3Dvariable: ", TRIM(tvar%name)
ENDIF
ENDIF
ENDIF
ENDDO
j = 0
DO i=1,n_aed_vars
IF ( aed_get_var(i, tvar) ) THEN
IF ( tvar%diag ) THEN
IF (tvar%sheet ) THEN
j = j + 1
!print *," D(",j,") AED diagnostic 2Dvariable: ", TRIM(tvar%name)
print "(7X,'D(',I4,') bottom/surface diagnostic ~ ',A)",j , TRIM(tvar%name)
ENDIF
ENDIF
ENDIF
ENDDO
! ALLOCATE(column(n_aed_vars))
ALLOCATE(externalid(n_aed_vars))
! IF ( n_zones .GT. 0 ) &
ALLOCATE(zexternalid(n_aed_vars))
!----------------------------------------------------------------------------
!# Now set initial values
v = 0 ; sv = 0;
DO av=1,n_aed_vars
IF ( .NOT. aed_get_var(av, tvar) ) STOP " ERROR getting variable info"
IF ( .NOT. ( tvar%extern .OR. tvar%diag) ) THEN !# neither global nor diagnostic variable
IF ( tvar%sheet ) THEN
sv = sv + 1
cc(:, n_vars+sv) = tvar%initial
ELSE
v = v + 1
cc(:, v) = tvar%initial
ENDIF
ENDIF
ENDDO
!# Allocate diagnostic variable array and set all values to zero.
!# (needed because time-integrated/averaged variables will increment rather than set the array)
ALLOCATE(cc_diag(MaxLayers, n_vars_diag),stat=rc)
IF (rc /= 0) STOP 'allocate_memory(): Error allocating (cc_diag)'
cc_diag = zero_
!# Allocate diagnostic variable array and set all values to zero.
!# (needed because time-integrated/averaged variables will increment rather than set the array)
ALLOCATE(cc_diag_hz(n_vars_diag_sheet),stat=rc)
IF (rc /= 0) STOP 'allocate_memory(): Error allocating (cc_diag_hz)'
cc_diag_hz = zero_
!# Allocate array with vertical movement rates (m/s, positive for upwards),
!# and set these to the values provided by the model.
!# allocated for all vars even though only state vars entries will be used
ALLOCATE(ws(MaxLayers, n_aed_vars),stat=rc)
IF (rc /= 0) STOP 'allocate_memory(): Error allocating (ws)'
ws = zero_
!# Allocate array for photosynthetically active radiation (PAR).
!# This will be calculated internally during each time step.
ALLOCATE(par(MaxLayers),stat=rc)
IF (rc /= 0) STOP 'allocate_memory(): Error allocating (par)'
par = zero_
ALLOCATE(nir(MaxLayers),stat=rc)
IF (rc /= 0) STOP 'allocate_memory(): Error allocating (nir)'
nir = zero_
ALLOCATE(uva(MaxLayers),stat=rc)
IF (rc /= 0) STOP 'allocate_memory(): Error allocating (uva)'
uva = zero_
ALLOCATE(uvb(MaxLayers),stat=rc)
IF (rc /= 0) STOP 'allocate_memory(): Error allocating (uvb)'
uvb = zero_
ALLOCATE(dz(MaxLayers),stat=rc)
dz = zero_
!# Allocate array for local pressure.
!# This will be calculated [approximated] from layer depths internally
!# during each time step.
ALLOCATE(pres(MaxLayers),stat=rc)
IF (rc /= 0) STOP 'allocate_memory(): Error allocating (pres)'
pres = zero_
ALLOCATE(tss(MaxLayers),stat=rc)
IF (rc /= 0) STOP 'allocate_memory(): Error allocating (tss)'
tss = zero_
write(*,"(/,5X,'---------- AED config : end ----------',/)")
END SUBROUTINE aed_init_glm
!+++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
!###############################################################################
CINTEGER FUNCTION aed_is_var(id,i_vname,len) BIND(C, name=_WQ_IS_VAR)
!-------------------------------------------------------------------------------
!ARGUMENTS
CINTEGER,INTENT(in) :: id
CCHARACTER,INTENT(in) :: i_vname(*)
CSIZET,INTENT(in) :: len
!LOCALS
CHARACTER(len=45) :: vname
TYPE(aed_variable_t),POINTER :: tvar
INTEGER :: i, v, sv, d, sd
!-------------------------------------------------------------------------------
!BEGIN
CALL make_string(vname, i_vname, len)
v = 0; sv = 0; d = 0; sd = 0
DO i=1,n_aed_vars
IF ( aed_get_var(i, tvar) ) THEN
IF ( .NOT. (tvar%diag .OR. tvar%extern) ) THEN
IF ( tvar%sheet ) THEN ; sv=sv+1; ELSE ; v=v+1 ; ENDIF
IF ( TRIM(tvar%name) == vname ) THEN
IF (tvar%sheet) THEN
aed_is_var=-sv
#ifdef PLOTS
plot_id_sv(sv) = id;
#endif
ELSE
aed_is_var=v
#ifdef PLOTS
plot_id_v(v) = id;
#endif
ENDIF
RETURN
ENDIF
ELSEIF ( tvar%diag ) THEN
IF ( tvar%sheet ) THEN ; sd=sd+1; ELSE ; d=d+1 ; ENDIF
IF ( TRIM(tvar%name) == vname ) THEN
IF (tvar%sheet) THEN
aed_is_var=-sd
#ifdef PLOTS
plot_id_sd(sd) = id;
#endif
ELSE
aed_is_var=d
#ifdef PLOTS
plot_id_d(d) = id;
#endif
ENDIF
RETURN
ENDIF
ENDIF
ENDIF
ENDDO
aed_is_var = 0
END FUNCTION aed_is_var
!+++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
!###############################################################################
SUBROUTINE aed_set_glm_data(Lake, MaxLayers, MetData, SurfData, dt_, &
c_rain_factor, c_sw_factor, c_friction) &
BIND(C, name=_WQ_SET_GLM_DATA)
!-------------------------------------------------------------------------------
!ARGUMENTS
CINTEGER, INTENT(in) :: MaxLayers
TYPE(C_PTR),VALUE :: Lake
TYPE(MetDataType),TARGET :: MetData !# Meteorological data
TYPE(SurfaceDataType),TARGET :: SurfData !# Surface Data
AED_REAL,INTENT(in) :: dt_
! AED_REAL,OPTIONAL,TARGET :: c_rain_factor, c_sw_factor, c_friction
AED_REAL,TARGET :: c_rain_factor, c_sw_factor, c_friction
!LOCALS
INTEGER :: i
!
!-------------------------------------------------------------------------------
!BEGIN
CALL C_F_POINTER(Lake, theLake, [MaxLayers])
!# Save pointers to external dynamic variables that we need later (in do_glm_wq)
z => theLake%Height
temp => theLake%Temp
salt => theLake%Salinity
rho => theLake%Density
area => theLake%LayerArea
rad => theLake%Light
vel => theLake%Umean
extc_coef => theLake%ExtcCoefSW
layer_stress => theLake%LayerStress
IF (benthic_mode .GT. 1) zz => z
ALLOCATE(depth(MaxLayers))
ALLOCATE(layer_area(MaxLayers))
ALLOCATE(sed_zones(MaxLayers))
sed_zones = 0.
IF (benthic_mode .GT. 1) THEN
ALLOCATE(z_diag(n_zones, n_vars_diag)) ; z_diag = zero_
ALLOCATE(z_diag_hz(n_zones+1, n_vars_diag_sheet)) ; z_diag_hz = zero_
!# At this point we have z_cc allocated, so now we can copy the initial values
!# from cc benthic vars to it
DO i=1,n_zones
z_cc(i, n_vars+1:n_vars+n_vars_ben) = cc(1, n_vars+1:n_vars+n_vars_ben)
ENDDO
ENDIF
precip => MetData%Rain
air_temp => MetData%AirTemp
rel_hum => MetData%RelHum
air_pres => MetData%AirPres
evap => SurfData%Evap
bottom_stress => layer_stress(botmLayer)
!# Copy scalars that will not change during simulation, and are needed in do_glm_wq)
dt = dt_
!# Provide pointers to arrays with environmental variables to aed.
wnd => MetData%WindSpeed
I_0 => MetData%ShortWave
!# Calculate and save internal time step.
dt_eff = dt/FLOAT(split_factor)
! IF (PRESENT(c_rain_factor)) rain_factor => c_rain_factor
! IF (PRESENT(c_sw_factor)) sw_factor => c_sw_factor
! IF (PRESENT(c_friction)) friction => c_friction
rain_factor => c_rain_factor
sw_factor => c_sw_factor
friction => c_friction
!# Trigger an error if WQ hasn't got all it needs from us.
CALL check_data
END SUBROUTINE aed_set_glm_data
!+++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
!###############################################################################
SUBROUTINE aed_set_glm_where(Longitude, Latitude, yearday, timestep) &
BIND(C, name="aed_set_glm_where")
!-------------------------------------------------------------------------------
!ARGUMENTS
AED_REAL,TARGET :: Longitude, Latitude, yearday, timestep
!LOCALS
!
!-------------------------------------------------------------------------------
!BEGIN
lon => Longitude
lat => Latitude
yeardayP => yearday
timestepP => timestep
END SUBROUTINE aed_set_glm_where
!+++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
!###############################################################################
SUBROUTINE check_data
!-------------------------------------------------------------------------------
! Check that all variable dependencies have been met
!-------------------------------------------------------------------------------
!ARGUMENTS
!
!LOCALS
INTEGER :: av !, i
INTEGER :: v, d, sv, sd, ev, err_count
TYPE(aed_variable_t),POINTER :: tvar
!-------------------------------------------------------------------------------
!BEGIN
v = 0 ; d = 0; sv = 0; sd = 0 ; ev = 0
err_count = 0
DO av=1,n_aed_vars
IF ( .NOT. aed_get_var(av, tvar) ) STOP "Error getting variable info"
IF ( tvar%extern ) THEN !# global variable
ev = ev + 1
SELECT CASE (tvar%name)
CASE ( 'temperature' ) ; tvar%found = .true.
CASE ( 'salinity' ) ; tvar%found = .true.
CASE ( 'density' ) ; tvar%found = .true.
CASE ( 'layer_ht' ) ; tvar%found = .true.
CASE ( 'extc_coef' ) ; tvar%found = .true.
CASE ( 'tss' ) ; tvar%found = .true.
CASE ( 'cell_vel' ) ; tvar%found = .true.
CASE ( 'par' ) ; tvar%found = .true.
CASE ( 'nir' ) ; tvar%found = .true.
CASE ( 'uva' ) ; tvar%found = .true.
CASE ( 'uvb' ) ; tvar%found = .true.
CASE ( 'pressure' ) ; tvar%found = .true.
CASE ( 'depth' ) ; tvar%found = .true.
CASE ( 'sed_zone' ) ; tvar%found = .true.
CASE ( 'wind_speed' ) ; tvar%found = .true.
CASE ( 'par_sf' ) ; tvar%found = .true.
CASE ( 'taub' ) ; tvar%found = .true.
CASE ( 'col_depth' ) ; tvar%found = .true.
CASE ( 'layer_area' ) ; tvar%found = .true.
CASE ( 'rain' ) ; tvar%found = .true.
CASE ( 'air_temp' ) ; tvar%found = .true.
CASE ( 'air_pres' ) ; tvar%found = .true.
CASE ( 'humidity' ) ; tvar%found = .true.
CASE ( 'longitude' ) ; tvar%found = .true.
CASE ( 'latitude' ) ; tvar%found = .true.
CASE ( 'yearday' ) ; tvar%found = .true.
CASE ( 'timestep' ) ; tvar%found = .true.
CASE DEFAULT ; CALL STOPIT("ERROR: external variable "//TRIM(tvar%name)//" not found.")
END SELECT
ELSEIF ( tvar%diag ) THEN !# Diagnostic variable
IF ( tvar%sheet ) THEN
sd = sd + 1
ELSE
d = d + 1
ENDIF
ELSE !# state variable
IF ( tvar%sheet ) THEN
sv = sv + 1
ELSE
v = v + 1
ENDIF
ENDIF
IF ( .NOT. tvar%found ) THEN
print *, "ERROR: Undefined variable ", TRIM(tvar%name)
err_count = err_count + 1
ENDIF
ENDDO
IF ( n_vars < v ) print *,"More vars than expected",v,n_vars
IF ( n_vars_ben < sv ) print *,"More sheet vars than expected"
IF ( n_vars_diag < d ) print *,"More diag vars than expected"
IF ( n_vars_diag_sheet < sd ) print *,"More sheet diag vars than expected"
IF ( err_count > 0 ) CALL STOPIT("*** Errors in configuration")
END SUBROUTINE check_data
!+++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
!###############################################################################
SUBROUTINE define_column(column, top, cc, cc_diag, flux_pel, flux_atm, flux_ben)
!-------------------------------------------------------------------------------
! Set up the current column pointers
!-------------------------------------------------------------------------------
!ARGUMENTS
TYPE (aed_column_t), INTENT(inout) :: column(:)
INTEGER, INTENT(in) :: top
AED_REAL, TARGET, INTENT(in) :: cc(:,:) !# (n_layers, n_vars)
AED_REAL, TARGET, INTENT(in) :: cc_diag(:,:) !# (n_layers, n_vars)
AED_REAL, TARGET, INTENT(inout) :: flux_pel(:,:) !# (n_layers, n_vars)
AED_REAL, TARGET, INTENT(inout) :: flux_atm(:) !# (n_vars)
AED_REAL, TARGET, INTENT(inout) :: flux_ben(:) !# (n_vars)
!
!LOCALS
INTEGER :: av !, i
INTEGER :: v, d, sv, sd, ev
TYPE(aed_variable_t),POINTER :: tvar
!-------------------------------------------------------------------------------
!BEGIN
v = 0 ; d = 0; sv = 0; sd = 0 ; ev = 0
DO av=1,n_aed_vars
IF ( .NOT. aed_get_var(av, tvar) ) STOP "Error getting variable info"
IF ( tvar%extern ) THEN !# global variable
ev = ev + 1
SELECT CASE (tvar%name)
CASE ( 'temperature' ) ; column(av)%cell => temp(:)
CASE ( 'salinity' ) ; column(av)%cell => salt(:)
CASE ( 'density' ) ; column(av)%cell => rho(:)
CASE ( 'layer_ht' ) ; column(av)%cell => dz(:)
CASE ( 'extc_coef' ) ; column(av)%cell => extc_coef(:)
CASE ( 'tss' ) ; column(av)%cell => tss(:)
CASE ( 'cell_vel' ) ; column(av)%cell => vel(:)
CASE ( 'par' ) ; column(av)%cell => par(:)
CASE ( 'nir' ) ; column(av)%cell => nir(:)
CASE ( 'uva' ) ; column(av)%cell => uva(:)
CASE ( 'uvb' ) ; column(av)%cell => uvb(:)
CASE ( 'pressure' ) ; column(av)%cell => pres(:)
CASE ( 'depth' ) ; column(av)%cell => depth(:)
CASE ( 'sed_zone' ) ; column(av)%cell_sheet => sed_zones(1)
CASE ( 'wind_speed' ) ; column(av)%cell_sheet => wnd
CASE ( 'par_sf' ) ; column(av)%cell_sheet => I_0
CASE ( 'taub' ) ; column(av)%cell_sheet => bottom_stress
CASE ( 'col_depth' ) ; column(av)%cell_sheet => depth(1)
CASE ( 'layer_area' ) ; column(av)%cell => layer_area(:)
CASE ( 'rain' ) ; column(av)%cell_sheet => precip
CASE ( 'air_temp' ) ; column(av)%cell_sheet => air_temp
CASE ( 'air_pres' ) ; column(av)%cell_sheet => air_pres
CASE ( 'humidity' ) ; column(av)%cell_sheet => rel_hum
CASE ( 'longitude' ) ; column(av)%cell_sheet => lon
CASE ( 'latitude' ) ; column(av)%cell_sheet => lat
CASE ( 'yearday' ) ; column(av)%cell_sheet => yeardayP
CASE ( 'timestep' ) ; column(av)%cell_sheet => timestepP
CASE DEFAULT ; CALL STOPIT("ERROR: external variable "//TRIM(tvar%name)//" not found.")
END SELECT
ELSEIF ( tvar%diag ) THEN !# Diagnostic variable
IF ( tvar%sheet ) THEN
sd = sd + 1
column(av)%cell_sheet => cc_diag_hz(sd)
ELSE
d = d + 1
column(av)%cell => cc_diag(:, d)
ENDIF
ELSE !# state variable
IF ( tvar%sheet ) THEN
sv = sv + 1
IF ( tvar%bot ) THEN
column(av)%cell_sheet => cc(1, n_vars+sv)
! print *,'av',av,sv
ELSEIF ( tvar%top ) THEN
column(av)%cell_sheet => cc(top, n_vars+sv)
ENDIF
column(av)%flux_ben => flux_ben(n_vars+sv)
column(av)%flux_atm => flux_atm(n_vars+sv)
ELSE
v = v + 1
column(av)%cell => cc(:, v)
column(av)%flux_atm => flux_atm(v)
column(av)%flux_pel => flux_pel(:, v)
column(av)%flux_ben => flux_ben(v)
ENDIF
ENDIF
ENDDO
END SUBROUTINE define_column
!+++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
!###############################################################################
SUBROUTINE check_states(column, wlev)
!-------------------------------------------------------------------------------
!ARGUMENTS
TYPE (aed_column_t),INTENT(inout) :: column(:)
INTEGER,INTENT(in) :: wlev
!
!LOCALS
TYPE(aed_variable_t),POINTER :: tv
INTEGER :: i,v,lev
#if DEBUG
INTEGER :: last_naned
#endif
!
!-------------------------------------------------------------------------------
!BEGIN
#if DEBUG
last_naned = -1
#endif
DO lev=1, wlev
CALL aed_equilibrate(column, lev) !MH this should be in the main do_glm routine ????!!!
v = 0
DO i=1,n_aed_vars
IF ( aed_get_var(i, tv) ) THEN
IF ( .NOT. (tv%diag .OR. tv%extern) ) THEN
v = v + 1
IF ( repair_state ) THEN
#if DEBUG
IF ( isnan(cc(lev, v)) ) last_naned = i
#endif
IF ( .NOT. isnan(min_(v)) ) THEN
IF ( cc(lev, v) < min_(v) ) cc(lev, v) = min_(v)
ENDIF
IF ( .NOT. isnan(max_(v)) ) THEN
IF ( cc(lev, v) > max_(v) ) cc(lev, v) = max_(v)
ENDIF
ENDIF
ENDIF
ENDIF
ENDDO
ENDDO
#if DEBUG
IF ( last_naned > -1 ) THEN
print*
IF ( aed_get_var(last_naned, tv) ) THEN
print*,"NaNs detected in CC in var ", TRIM(tv%name)
ELSE
print*,"NaNs detected in CC unidentified var"
ENDIF
! STOP
ENDIF
#endif
END SUBROUTINE check_states
!+++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
!###############################################################################
SUBROUTINE aed_do_glm(wlev, pIce) BIND(C, name=_WQ_DO_GLM)
!-------------------------------------------------------------------------------
! wlev is the number of levels used;
!-------------------------------------------------------------------------------
!ARGUMENTS
CINTEGER,INTENT(in) :: wlev
CLOGICAL,INTENT(in) :: pIce
!
!LOCALS
TYPE(aed_variable_t),POINTER :: tv
AED_REAL :: min_C, surf
INTEGER :: i, j, v, lev, split
TYPE (aed_column_t) :: column(n_aed_vars)
TYPE (aed_column_t) :: column_sed(n_aed_vars)
AED_REAL,TARGET :: flux_ben(n_vars+n_vars_ben), flux_atm(n_vars+n_vars_ben)
! AED_REAL,TARGET :: flux_pel(wlev, n_vars+n_vars_ben)
AED_REAL,TARGET,ALLOCATABLE :: flux_pel(:, :)
AED_REAL,TARGET :: flux_zon(n_zones, n_vars+n_vars_ben)
!
!-------------------------------------------------------------------------------
!BEGIN
lIce = pIce
ALLOCATE(flux_pel(MAX(wlev,n_zones),n_vars+n_vars_ben))
surf = z(wlev)
!# re-compute the layer heights and depths
dz(1) = z(1)
depth(1) = surf - z(1)
layer_area(1) = 1
DO i=2,wlev
dz(i) = z(i) - z(i-1)
depth(i) = surf - z(i)
layer_area(i) = (area(i)-area(i-1))/area(i)
ENDDO
IF ( benthic_mode .GT. 1 ) THEN
j = 1
DO i=1,wlev
! print *,'j',i,j
! print *,'zone_heights',z(i),zone_heights(j),theZones(1)%zheight,theZones(2)%zheight
IF (z(i) .GT. zone_heights(j)) THEN
sed_zones(i) = j * area(i)
j = j+1
ELSE
sed_zones(i) = j
ENDIF
ENDDO
ENDIF
!# Calculate local pressure
pres(1:wlev) = -z(1:wlev)
CALL define_column(column, wlev, cc, cc_diag, flux_pel, flux_atm, flux_ben)
IF ( .NOT. reinited ) CALL re_initialize
cc_diag = 0.
cc_diag_hz = 0.
IF ( .NOT. mobility_off ) THEN
v = 0
DO i=1,n_aed_vars
IF ( aed_get_var(i, tv) ) THEN
IF ( .NOT. (tv%sheet .OR. tv%diag .OR. tv%extern) ) THEN
v = v + 1
ws(:,i) = zero_
! only for state_vars that are not sheet
IF ( .NOT. isnan(tv%mobility) ) THEN
! default to ws that was set during initialisation
ws(1:wlev,i) = tv%mobility
ENDIF
ENDIF
ENDIF
ENDDO
DO i = 1, wlev
! update ws for modules that use the mobility method
CALL aed_mobility(column, i, ws(i,:))
ENDDO
!# (3) Calculate source/sink terms due to the settling or rising of