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accumulator.f90
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! ----------------------------------------------------------------
! file: accumulator.f90
! ----------------------------------------------------------------
! ----------------------------------------------------------------
! Battelle Memorial Institute
! Pacific Northwest Laboratory
! ----------------------------------------------------------------
! ----------------------------------------------------------------
! Created October 25, 2000 by William A. Perkins
! Last Change: Tue Apr 6 11:29:15 2010 by William A. Perkins <[email protected]>
! ----------------------------------------------------------------
! ----------------------------------------------------------------
! MODULE accumulator
! ----------------------------------------------------------------
MODULE accumulator
USE globals
USE scalars
USE scalars_source
USE bed_module
USE misc_vars, ONLY: do_flow, do_flow_output, do_transport, salinity, delta_t, &
&i_index_min, i_index_extra, j_index_min, j_index_extra
USE date_time
IMPLICIT NONE
CHARACTER (LEN=80), PRIVATE, SAVE :: rcsid = "$Id$"
! the accumulation module can
! accumulate several statistics.
! Currently only one is output, and
! that choice is made at compile time,
! here.
INTEGER, PRIVATE, PARAMETER :: ACCUMAVG = 1, ACCUMMIN = 2, ACCUMMAX = 3
INTEGER, PRIVATE, PARAMETER :: accum_mode = ACCUMAVG
TYPE accum_var_rec
DOUBLE PRECISION, POINTER :: max(:, :)
DOUBLE PRECISION, POINTER :: min(:, :)
DOUBLE PRECISION, POINTER :: sum(:, :)
END TYPE accum_var_rec
TYPE accum_tdg_rec
TYPE (accum_var_rec) :: press
TYPE (accum_var_rec) :: deltap
TYPE (accum_var_rec) :: sat
END TYPE accum_tdg_rec
TYPE accum_hydro_rec
TYPE (accum_var_rec) :: uvelp
TYPE (accum_var_rec) :: vvelp
TYPE (accum_var_rec) :: ucart
TYPE (accum_var_rec) :: vcart
TYPE (accum_var_rec) :: uflux
TYPE (accum_var_rec) :: vflux
TYPE (accum_var_rec) :: vmag
TYPE (accum_var_rec) :: depth
TYPE (accum_var_rec) :: wsel
TYPE (accum_var_rec) :: shear
TYPE (accum_var_rec) :: froude
TYPE (accum_var_rec) :: courant
TYPE (accum_var_rec) :: eddyvisc
END TYPE accum_hydro_rec
TYPE accum_bed_rec
TYPE (accum_var_rec), POINTER :: mass(:)
TYPE (accum_var_rec), POINTER :: erosion(:)
TYPE (accum_var_rec), POINTER :: deposit(:)
TYPE (accum_var_rec), POINTER :: conc(:)
TYPE (accum_var_rec), POINTER :: pore(:)
TYPE (accum_var_rec) :: depth
END TYPE accum_bed_rec
TYPE accum_block_rec
TYPE (accum_hydro_rec) :: hydro
TYPE (accum_var_rec), POINTER :: conc(:)
TYPE (accum_tdg_rec) :: tdg
TYPE (accum_bed_rec) :: bed
END TYPE accum_block_rec
TYPE (accum_block_rec), ALLOCATABLE :: accum_block(:)
DOUBLE PRECISION, SAVE :: accum_start_time, accum_end_time
TYPE (datetime_struct) :: accum_time
DOUBLE PRECISION, SAVE, ALLOCATABLE, PRIVATE :: accum_tmp(:,:)
INTEGER, SAVE :: accum_count
DOUBLE PRECISION, PARAMETER, PRIVATE :: realbig = 1.0d50, realsmall = - 1.0d50
CONTAINS
! ----------------------------------------------------------------
! SUBROUTINE accum_init_var
! ----------------------------------------------------------------
SUBROUTINE accum_init_var(mx, my, accum)
IMPLICIT NONE
INTEGER, INTENT(IN) :: mx, my
TYPE (accum_var_rec) :: accum
INTEGER :: nx, ny
nx = mx + i_index_extra
ny = my + j_index_extra
ALLOCATE(accum%max(i_index_min:nx, j_index_min:ny))
ALLOCATE(accum%min(i_index_min:nx, j_index_min:ny))
ALLOCATE(accum%sum(i_index_min:nx, j_index_min:ny))
accum%min = 1e20
accum%max = -1e20
accum%sum = 0.0
END SUBROUTINE accum_init_var
! ----------------------------------------------------------------
! SUBROUTINE accum_init_bed
! ----------------------------------------------------------------
SUBROUTINE accum_init_bed(bed, nx, ny)
IMPLICIT NONE
TYPE (accum_bed_rec) :: bed
INTEGER, INTENT(IN) :: nx, ny
INTEGER :: ispecies
ALLOCATE(bed%mass(max_species), bed%conc(max_species), &
&bed%erosion(max_species), bed%deposit(max_species), &
&bed%pore(max_species))
DO ispecies = 1, max_species
SELECT CASE (scalar_source(ispecies)%srctype)
CASE (GEN)
CALL accum_init_var(nx, ny, bed%pore(ispecies))
END SELECT
SELECT CASE (scalar_source(ispecies)%srctype)
CASE (GEN,SED,PART)
CALL accum_init_var(nx, ny, bed%mass(ispecies))
CALL accum_init_var(nx, ny, bed%conc(ispecies))
CALL accum_init_var(nx, ny, bed%erosion(ispecies))
CALL accum_init_var(nx, ny, bed%deposit(ispecies))
END SELECT
END DO
CALL accum_init_var(nx, ny, bed%depth)
END SUBROUTINE accum_init_bed
! ----------------------------------------------------------------
! SUBROUTINE accum_initialize
! ----------------------------------------------------------------
SUBROUTINE accum_initialize()
IMPLICIT NONE
INTEGER :: iblk, ispec
INTEGER :: mx, my
ALLOCATE(accum_block(max_blocks))
DO iblk = 1, max_blocks
IF (do_flow .OR. do_flow_output) THEN
CALL accum_init_var(block(iblk)%xmax, block(iblk)%ymax, accum_block(iblk)%hydro%uvelp)
CALL accum_init_var(block(iblk)%xmax, block(iblk)%ymax, accum_block(iblk)%hydro%vvelp)
CALL accum_init_var(block(iblk)%xmax, block(iblk)%ymax, accum_block(iblk)%hydro%ucart)
CALL accum_init_var(block(iblk)%xmax, block(iblk)%ymax, accum_block(iblk)%hydro%vcart)
CALL accum_init_var(block(iblk)%xmax, block(iblk)%ymax, accum_block(iblk)%hydro%uflux)
CALL accum_init_var(block(iblk)%xmax, block(iblk)%ymax, accum_block(iblk)%hydro%vflux)
CALL accum_init_var(block(iblk)%xmax, block(iblk)%ymax, accum_block(iblk)%hydro%vmag)
CALL accum_init_var(block(iblk)%xmax, block(iblk)%ymax, accum_block(iblk)%hydro%depth)
CALL accum_init_var(block(iblk)%xmax, block(iblk)%ymax, accum_block(iblk)%hydro%wsel)
CALL accum_init_var(block(iblk)%xmax, block(iblk)%ymax, accum_block(iblk)%hydro%shear)
CALL accum_init_var(block(iblk)%xmax, block(iblk)%ymax, accum_block(iblk)%hydro%froude)
CALL accum_init_var(block(iblk)%xmax, block(iblk)%ymax, accum_block(iblk)%hydro%courant)
CALL accum_init_var(block(iblk)%xmax, block(iblk)%ymax, accum_block(iblk)%hydro%eddyvisc)
END IF
IF (do_transport) THEN
ALLOCATE(accum_block(iblk)%conc(max_species))
DO ispec = 1, max_species
CALL accum_init_var(block(iblk)%xmax, block(iblk)%ymax, accum_block(iblk)%conc(ispec))
SELECT CASE (scalar_source(ispec)%srctype)
CASE (TDG)
CALL accum_init_var(block(iblk)%xmax, block(iblk)%ymax, accum_block(iblk)%tdg%press)
CALL accum_init_var(block(iblk)%xmax, block(iblk)%ymax, accum_block(iblk)%tdg%deltap)
CALL accum_init_var(block(iblk)%xmax, block(iblk)%ymax, accum_block(iblk)%tdg%sat)
END SELECT
IF (source_doing_sed) THEN
CALL accum_init_bed(accum_block(iblk)%bed, block(iblk)%xmax, block(iblk)%ymax)
END IF
END DO
END IF
END DO
! allocate some temporary work space
mx = MAXVAL(block(:)%xmax) + i_index_extra
my = MAXVAL(block(:)%ymax) + j_index_extra
ALLOCATE(accum_tmp(i_index_min:mx, j_index_min:my))
! zero out the accumulators
CALL accum_reset()
END SUBROUTINE accum_initialize
! ----------------------------------------------------------------
! SUBROUTINE accum_reset_var
! ----------------------------------------------------------------
SUBROUTINE accum_reset_var(accum)
IMPLICIT NONE
TYPE (accum_var_rec) :: accum
accum%max = realsmall
accum%min = realbig
accum%sum = 0.0
END SUBROUTINE accum_reset_var
! ----------------------------------------------------------------
! SUBROUTINE accum_reset_bed
! ----------------------------------------------------------------
SUBROUTINE accum_reset_bed(bed)
IMPLICIT NONE
TYPE (accum_bed_rec) :: bed
INTEGER :: ispecies
DO ispecies = 1, max_species
SELECT CASE (scalar_source(ispecies)%srctype)
CASE (GEN)
CALL accum_reset_var(bed%pore(ispecies))
END SELECT
SELECT CASE (scalar_source(ispecies)%srctype)
CASE (GEN,SED,PART)
CALL accum_reset_var(bed%mass(ispecies))
CALL accum_reset_var(bed%conc(ispecies))
CALL accum_reset_var(bed%erosion(ispecies))
CALL accum_reset_var(bed%deposit(ispecies))
END SELECT
END DO
CALL accum_reset_var(bed%depth)
END SUBROUTINE accum_reset_bed
! ----------------------------------------------------------------
! SUBROUTINE accum_reset
! ----------------------------------------------------------------
SUBROUTINE accum_reset()
IMPLICIT NONE
INTEGER :: iblk, ispec
DO iblk = 1, max_blocks
IF (do_flow .OR. do_flow_output) THEN
CALL accum_reset_var(accum_block(iblk)%hydro%uvelp)
CALL accum_reset_var(accum_block(iblk)%hydro%vvelp)
CALL accum_reset_var(accum_block(iblk)%hydro%ucart)
CALL accum_reset_var(accum_block(iblk)%hydro%vcart)
CALL accum_reset_var(accum_block(iblk)%hydro%uflux)
CALL accum_reset_var(accum_block(iblk)%hydro%vflux)
CALL accum_reset_var(accum_block(iblk)%hydro%vmag)
CALL accum_reset_var(accum_block(iblk)%hydro%depth)
CALL accum_reset_var(accum_block(iblk)%hydro%wsel)
CALL accum_reset_var(accum_block(iblk)%hydro%shear)
CALL accum_reset_var(accum_block(iblk)%hydro%froude)
CALL accum_reset_var(accum_block(iblk)%hydro%courant)
CALL accum_reset_var(accum_block(iblk)%hydro%eddyvisc)
END IF
IF (do_transport) THEN
DO ispec = 1, max_species
CALL accum_reset_var(accum_block(iblk)%conc(ispec))
SELECT CASE (scalar_source(ispec)%srctype)
CASE (TDG)
CALL accum_reset_var(accum_block(iblk)%tdg%press)
CALL accum_reset_var(accum_block(iblk)%tdg%deltap)
CALL accum_reset_var(accum_block(iblk)%tdg%sat)
END SELECT
END DO
IF (source_doing_sed) CALL accum_reset_bed(accum_block(iblk)%bed)
END IF
END DO
accum_count = 0.0
accum_start_time = 0.0
accum_end_time = 0.0
accum_time%date_string = '01-01-1900'
accum_time%time_string = '00:00:00'
END SUBROUTINE accum_reset
! ----------------------------------------------------------------
! SUBROUTINE accum_var
! ----------------------------------------------------------------
SUBROUTINE accum_var(var, accum)
IMPLICIT NONE
DOUBLE PRECISION, INTENT(IN) :: var(i_index_min:,j_index_min:)
TYPE (accum_var_rec) :: accum
SELECT CASE (accum_mode)
CASE (ACCUMAVG)
accum%sum = accum%sum + var
CASE (ACCUMMIN)
WHERE (var .LT. accum%min) accum%min = var
CASE (ACCUMMAX)
WHERE (var .GT. accum%max) accum%max = var
END SELECT
END SUBROUTINE accum_var
! ----------------------------------------------------------------
! SUBROUTINE accumulate_tdg
! ----------------------------------------------------------------
SUBROUTINE accumulate_tdg(iblk, ispec)
USE gas_functions
USE met_data_module, ONLY: baro_press
IMPLICIT NONE
INTEGER, INTENT(IN) :: iblk, ispec
INTEGER :: i, j
accum_tmp = 0.0
DO i = i_index_min, block(iblk)%xmax + i_index_extra
DO j = j_index_min, block(iblk)%ymax + j_index_extra
accum_tmp(i, j) = &
&TDGasPress(species(ispec)%scalar(iblk)%conc(i,j), &
&species(source_temp_idx)%scalar(iblk)%conc(i,j), salinity)
END DO
END DO
CALL accum_var(accum_tmp(&
&i_index_min:block(iblk)%xmax + i_index_extra,&
&j_index_min:block(iblk)%ymax + j_index_extra), &
&accum_block(iblk)%tdg%press)
accum_tmp = 0.0
DO i = i_index_min, block(iblk)%xmax + i_index_extra
DO j = j_index_min, block(iblk)%ymax + j_index_extra
accum_tmp(i, j) = TDGasDP(species(ispec)%scalar(iblk)%conc(i,j), &
&species(source_temp_idx)%scalar(iblk)%conc(i,j), salinity, baro_press)
END DO
END DO
CALL accum_var(accum_tmp(&
&i_index_min:block(iblk)%xmax + i_index_extra,&
&j_index_min:block(iblk)%ymax + j_index_extra), &
&accum_block(iblk)%tdg%deltap)
accum_tmp = 0.0
DO i = i_index_min, block(iblk)%xmax + i_index_extra
DO j = j_index_min, block(iblk)%ymax + j_index_extra
accum_tmp(i, j) = TDGasSaturation(species(ispec)%scalar(iblk)%conc(i,j), &
&species(source_temp_idx)%scalar(iblk)%conc(i,j), salinity, baro_press)
END DO
END DO
CALL accum_var(accum_tmp(&
&i_index_min:block(iblk)%xmax + i_index_extra,&
&j_index_min:block(iblk)%ymax + j_index_extra), &
&accum_block(iblk)%tdg%sat)
END SUBROUTINE accumulate_tdg
! ----------------------------------------------------------------
! SUBROUTINE accumulate_bed
! ----------------------------------------------------------------
SUBROUTINE accumulate_bed(iblk)
IMPLICIT NONE
INTEGER, INTENT(IN) :: iblk
INTEGER :: ispec, ifract, i, j
DO ispec = 1, max_species
SELECT CASE (scalar_source(ispec)%srctype)
CASE (SED)
ifract = scalar_source(ispec)%sediment_param%ifract
CALL accum_var(bed(iblk)%sediment(ifract, :, :), &
&accum_block(iblk)%bed%conc(ispec))
accum_tmp = 0.0
accum_tmp(&
&i_index_min:block(iblk)%xmax + i_index_extra,&
&j_index_min:block(iblk)%ymax + j_index_extra) = &
&bed(iblk)%sediment(ifract, :, :)*&
&block(iblk)%hp1*block(iblk)%hp2
CALL accum_var(accum_tmp(&
&i_index_min:block(iblk)%xmax + i_index_extra,&
&j_index_min:block(iblk)%ymax + j_index_extra), &
&accum_block(iblk)%bed%mass(ispec))
CALL accum_var(scalar_source(ispec)%sediment_param%block(iblk)%deposition,&
&accum_block(iblk)%bed%deposit(ispec))
CALL accum_var(scalar_source(ispec)%sediment_param%block(iblk)%erosion,&
&accum_block(iblk)%bed%erosion(ispec))
CASE (PART)
CALL accum_var(bed(iblk)%particulate(ispec, :, :), &
&accum_block(iblk)%bed%conc(ispec))
accum_tmp = 0.0
accum_tmp(&
&i_index_min:block(iblk)%xmax + i_index_extra,&
&j_index_min:block(iblk)%ymax + j_index_extra) = &
&bed(iblk)%particulate(ispec, :, :)* &
&block(iblk)%hp1*block(iblk)%hp2
CALL accum_var(accum_tmp(&
&i_index_min:block(iblk)%xmax + i_index_extra,&
&j_index_min:block(iblk)%ymax + j_index_extra), &
&accum_block(iblk)%bed%mass(ispec))
CALL accum_var(scalar_source(ispec)%part_param%block(iblk)%bedexch,&
&accum_block(iblk)%bed%deposit(ispec))
CASE (GEN)
CALL accum_var(bed(iblk)%pore(ispec, :, :), &
&accum_block(iblk)%bed%conc(ispec))
accum_tmp = 0.0
accum_tmp(&
&i_index_min:block(iblk)%xmax + i_index_extra,&
&j_index_min:block(iblk)%ymax + j_index_extra) = &
&bed(iblk)%pore(ispec, :, :)* &
&block(iblk)%hp1*block(iblk)%hp2
CALL accum_var(accum_tmp(&
&i_index_min:block(iblk)%xmax + i_index_extra,&
&j_index_min:block(iblk)%ymax + j_index_extra), &
&accum_block(iblk)%bed%mass(ispec))
accum_tmp = 0.0
DO i = 1, block(iblk)%xmax + i_index_extra
DO j = 1, block(iblk)%ymax + j_index_extra
IF (REAL(bed(iblk)%depth(i,j)) .GT. 1e-8) &
&accum_tmp(i,j) = &
&bed(iblk)%pore(ispec, i, j)/ &
&(bed(iblk)%depth(i,j)* bed(iblk)%porosity(i,j))
END DO
END DO
CALL accum_var(accum_tmp(&
&i_index_min:block(iblk)%xmax + i_index_extra,&
&j_index_min:block(iblk)%ymax + j_index_extra), &
&accum_block(iblk)%bed%pore(ispec))
END SELECT
END DO
CALL accum_var(bed(iblk)%depth, accum_block(iblk)%bed%depth)
END SUBROUTINE accumulate_bed
! ----------------------------------------------------------------
! SUBROUTINE accumulate
! ----------------------------------------------------------------
SUBROUTINE accumulate(time)
IMPLICIT NONE
DOUBLE PRECISION, INTENT(IN) :: time
INTEGER :: iblk, ispec, i, j
IF (accum_count .EQ. 0) accum_start_time = time
accum_end_time = time
CALL velocity_shift()
DO iblk = 1, max_blocks
! cell centered velocities
IF (do_flow .OR. do_flow_output) THEN
CALL accum_var(block(iblk)%uvel_p, accum_block(iblk)%hydro%uvelp)
CALL accum_var(block(iblk)%vvel_p, accum_block(iblk)%hydro%vvelp)
CALL accum_var(block(iblk)%u_cart, accum_block(iblk)%hydro%ucart)
CALL accum_var(block(iblk)%v_cart, accum_block(iblk)%hydro%vcart)
CALL accum_var(block(iblk)%uflux, accum_block(iblk)%hydro%uflux)
CALL accum_var(block(iblk)%vflux, accum_block(iblk)%hydro%vflux)
! velocity magnitudes
accum_tmp = 0.0
DO i = i_index_min, block(iblk)%xmax + i_index_extra
DO j = j_index_min, block(iblk)%ymax + j_index_extra
! FORALL (i = i_index_min:block(iblk)%xmax + i_index_extra, j = j_index_min:block(iblk)%ymax + j_index_extra)
accum_tmp(i, j) = &
&SQRT(block(iblk)%vvel_p(i,j)*block(iblk)%vvel_p(i,j) + &
&block(iblk)%uvel_p(i,j)*block(iblk)%uvel_p(i,j))
! END FORALL
END DO
END DO
CALL accum_var(accum_tmp(i_index_min:block(iblk)%xmax + i_index_extra, &
&j_index_min:block(iblk)%ymax + j_index_extra), &
&accum_block(iblk)%hydro%vmag)
! remaining hydrodynamics variables
CALL accum_var(block(iblk)%depth, accum_block(iblk)%hydro%depth)
CALL accum_var(block(iblk)%wsel, accum_block(iblk)%hydro%wsel)
CALL accum_var(block(iblk)%shear, accum_block(iblk)%hydro%shear)
CALL accum_var(block(iblk)%froude_num, accum_block(iblk)%hydro%froude)
CALL accum_var(block(iblk)%courant_num, accum_block(iblk)%hydro%courant)
CALL accum_var(block(iblk)%eddy, accum_block(iblk)%hydro%eddyvisc)
END IF
IF (do_transport) THEN
DO ispec = 1, max_species
CALL accum_var(species(ispec)%scalar(iblk)%conc, &
&accum_block(iblk)%conc(ispec))
SELECT CASE (scalar_source(ispec)%srctype)
CASE (TDG)
CALL accumulate_tdg(iblk, ispec)
END SELECT
END DO
IF (source_doing_sed) CALL accumulate_bed(iblk)
END IF
END DO
accum_count = accum_count + 1
END SUBROUTINE accumulate
! ----------------------------------------------------------------
! SUBROUTINE accum_calc_var
! ----------------------------------------------------------------
SUBROUTINE accum_calc_var(accum)
IMPLICIT NONE
TYPE (accum_var_rec) :: accum
SELECT CASE (accum_mode)
CASE (ACCUMAVG)
accum%sum = accum%sum/DBLE(accum_count)
CASE (ACCUMMIN)
accum%sum = accum%min
CASE (ACCUMMAX)
accum%sum = accum%max
END SELECT
END SUBROUTINE accum_calc_var
! ----------------------------------------------------------------
! SUBROUTINE accum_calc_bed
! ----------------------------------------------------------------
SUBROUTINE accum_calc_bed(bed)
IMPLICIT NONE
TYPE (accum_bed_rec) :: bed
INTEGER :: ispecies
DO ispecies = 1, max_species
SELECT CASE (scalar_source(ispecies)%srctype)
CASE (GEN)
CALL accum_calc_var(bed%pore(ispecies))
END SELECT
SELECT CASE (scalar_source(ispecies)%srctype)
CASE (GEN,SED,PART)
CALL accum_calc_var(bed%mass(ispecies))
CALL accum_calc_var(bed%conc(ispecies))
CALL accum_calc_var(bed%erosion(ispecies))
CALL accum_calc_var(bed%deposit(ispecies))
END SELECT
END DO
CALL accum_calc_var(bed%depth)
END SUBROUTINE accum_calc_bed
! ----------------------------------------------------------------
! SUBROUTINE accum_calc
! be sure to call accum_reset after calling this
! ----------------------------------------------------------------
SUBROUTINE accum_calc()
IMPLICIT NONE
INTEGER :: iblk, ispec
IF (accum_count .LE. 0) accum_count = 1
DO iblk = 1, max_blocks
IF (do_flow .OR. do_flow_output) THEN
CALL accum_calc_var(accum_block(iblk)%hydro%uvelp)
CALL accum_calc_var(accum_block(iblk)%hydro%vvelp)
CALL accum_calc_var(accum_block(iblk)%hydro%ucart)
CALL accum_calc_var(accum_block(iblk)%hydro%vcart)
CALL accum_calc_var(accum_block(iblk)%hydro%uflux)
CALL accum_calc_var(accum_block(iblk)%hydro%vflux)
CALL accum_calc_var(accum_block(iblk)%hydro%vmag)
CALL accum_calc_var(accum_block(iblk)%hydro%depth)
CALL accum_calc_var(accum_block(iblk)%hydro%shear)
CALL accum_calc_var(accum_block(iblk)%hydro%froude)
CALL accum_calc_var(accum_block(iblk)%hydro%courant)
CALL accum_calc_var(accum_block(iblk)%hydro%eddyvisc)
END IF
IF (do_transport) THEN
DO ispec = 1, max_species
CALL accum_calc_var(accum_block(iblk)%conc(ispec))
SELECT CASE (scalar_source(ispec)%srctype)
CASE (TDG)
CALL accum_calc_var(accum_block(iblk)%tdg%press)
CALL accum_calc_var(accum_block(iblk)%tdg%deltap)
CALL accum_calc_var(accum_block(iblk)%tdg%sat)
END SELECT
END DO
IF (source_doing_sed) CALL accum_calc_bed(accum_block(iblk)%bed)
END IF
END DO
accum_time%time = (accum_start_time + accum_end_time)/2.0
CALL decimal_to_date(accum_time%time, accum_time%date_string, accum_time%time_string)
END SUBROUTINE accum_calc
! ----------------------------------------------------------------
! SUBROUTINE accum_done
! ----------------------------------------------------------------
SUBROUTINE accum_done()
IMPLICIT NONE
INTEGER :: iblk, ispec
DO iblk = 1, max_blocks
IF (do_flow .OR. do_flow_output) THEN
DEALLOCATE(accum_block(iblk)%hydro%uvelp%max)
DEALLOCATE(accum_block(iblk)%hydro%uvelp%min)
DEALLOCATE(accum_block(iblk)%hydro%uvelp%sum)
DEALLOCATE(accum_block(iblk)%hydro%vvelp%max)
DEALLOCATE(accum_block(iblk)%hydro%vvelp%min)
DEALLOCATE(accum_block(iblk)%hydro%vvelp%sum)
DEALLOCATE(accum_block(iblk)%hydro%depth%max)
DEALLOCATE(accum_block(iblk)%hydro%depth%min)
DEALLOCATE(accum_block(iblk)%hydro%depth%sum)
DEALLOCATE(accum_block(iblk)%hydro%wsel%max)
DEALLOCATE(accum_block(iblk)%hydro%wsel%min)
DEALLOCATE(accum_block(iblk)%hydro%wsel%sum)
DEALLOCATE(accum_block(iblk)%hydro%shear%max)
DEALLOCATE(accum_block(iblk)%hydro%shear%min)
DEALLOCATE(accum_block(iblk)%hydro%shear%sum)
END IF
IF (do_transport) THEN
DO ispec = 1, max_species
DEALLOCATE(accum_block(iblk)%conc(ispec)%max)
DEALLOCATE(accum_block(iblk)%conc(ispec)%min)
DEALLOCATE(accum_block(iblk)%conc(ispec)%sum)
END DO
DEALLOCATE(accum_block(iblk)%conc)
END IF
END DO
DEALLOCATE(accum_block)
END SUBROUTINE accum_done
END MODULE accumulator