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/*@@
@file GRHydro_TVDReconstruct.F90
@date Sat Jan 26 02:11:44 2002
@author Luca Baiotti
@desc
The TVD reconstruction routine.
@enddesc
@@*/
#include "cctk.h"
#include "cctk_Arguments.h"
#include "cctk_Parameters.h"
#include "cctk_Functions.h"
#include "SpaceMask.h"
/*@@
@routine tvdreconstruct
@date Sat Jan 26 02:12:12 2002
@author Luca Baiotti
@desc
Performs slope limited TVD reconstruction on the given input GF
@enddesc
@calls
@calledby
@history
Follows (in philosophy) old code by Ian Hawke
@endhistory
@@*/
subroutine tvdreconstruct(nx, ny, nz, xoffset, yoffset, zoffset, &
orig, bextp, bextm, trivial_rp, hydro_excision_mask)
USE GRHydro_Scalars
implicit none
DECLARE_CCTK_PARAMETERS
DECLARE_CCTK_FUNCTIONS
integer :: i, j, k, xoffset, yoffset, zoffset, nx, ny, nz
CCTK_REAL, dimension(nx, ny, nz) :: orig, bextp, bextm
CCTK_REAL :: dupw, dloc, delta, ratio, hdelta
logical, dimension(nx,ny,nz) :: trivial_rp
CCTK_INT, dimension(nx,ny,nz) :: hydro_excision_mask
bextp = 0.d0
bextm = 0.d0
!!$ Initially all Riemann problems are NON-trivial
trivial_rp = .false.
!$OMP PARALLEL DO PRIVATE(i,j,dupw,dloc,delta,ratio,hdelta)
do k = GRHydro_stencil, nz-GRHydro_stencil+1
do j = GRHydro_stencil, ny-GRHydro_stencil+1
do i = GRHydro_stencil, nx-GRHydro_stencil+1
if (GRHydro_enable_internal_excision /= 0 .and. &
(hydro_excision_mask(i,j,k) .ne. 0)) then
trivial_rp(i-xoffset, j-yoffset, k-zoffset) = .true.
trivial_rp(i, j, k) = .true.
bextm(i, j, k) = orig(i, j, k)
bextp(i, j, k) = orig(i, j, k)
if (GRHydro_enable_internal_excision /= 0 .and. &
(hydro_excision_mask(i+xoffset,j+yoffset,k+zoffset) .eq. 0)) then
bextm(i, j, k) = orig(i+xoffset, j+yoffset, k+zoffset)
bextp(i, j, k) = orig(i+xoffset, j+yoffset, k+zoffset)
end if
else if (GRHydro_enable_internal_excision /= 0 .and. &
((hydro_excision_mask(i-xoffset,j-yoffset,k-zoffset) .ne. 0) .or. &
(hydro_excision_mask(i+xoffset,j+yoffset,k+zoffset) .ne. 0))) then
bextm(i, j, k) = orig(i, j, k)
bextp(i, j, k) = orig(i, j, k)
else
dupw = orig(i, j, k) - orig(i-xoffset, j-yoffset, k-zoffset)
dloc = orig(i+xoffset, j+yoffset, k+zoffset) - orig(i, j, k)
if (MINMOD) then
delta = minmod_func(dupw,dloc)
else if (MC2) then
!!$ This is an alternative equivalent implementation
!!$ of vanLeeer MC slopelimiter
if (dupw*dloc < 0.d0) then
delta=0.d0
else
delta=sign(min(2.d0*abs(dupw),2.d0*abs(dloc),&
0.5d0*(abs(dupw)+abs(dloc))),dupw+dloc)
end if
else
delta = 0.5d0*(dupw + dloc)
if (abs(dupw) < myfloor ) dupw = myfloor*sign(1.d0, dupw)
if (abs(dloc) < myfloor ) dloc = myfloor*sign(1.d0, dloc)
ratio = dupw / dloc
call slopelimiter(ratio, delta)
end if
hdelta = 0.5d0 * delta
bextm(i, j, k) = orig(i, j, k) - hdelta
bextp(i, j, k) = orig(i, j, k) + hdelta
end if
end do
end do
end do
!$OMP END PARALLEL DO
contains
function minmod_func(a_in,b_in) result(minmod_result)
implicit none
CCTK_REAL,intent(IN)::a_in,b_in
CCTK_REAL::minmod_result
minmod_result=0.5D0*(sign(1.0D0,a_in)+sign(1.0D0,b_in))*min(abs(a_in),abs(b_in))
end function minmod_func
end subroutine tvdreconstruct
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