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#include "cctk.h"
! This routine performs "TVD" prolongation. It is intended to be used
! with GFs that are not expected to be smooth, particularly those
! that must also obey certain constraints. The obvious example is the
! density in hydrodynamics, which may be discontinuous yet must be
! strictly positive.
!
! To ensure that this prolongation method is used you should add the
! tag
!
! tags='Prolongation="TVD"'
!
! to the interface.ccl on the appropriate group.
!
! This applies minmod type limiting to the slope, checking over the
! entire coarse grid cell for the minimum modulus in each direction.
#define CHKIDX(i,j,k, imax,jmax,kmax, where) \
if ((i)<1 .or. (i)>(imax) .or. (j)<1 .or. (j)>(jmax) .or. (k)<1 .or. (k)>(kmax)) then &&\
write (msg, '(a, " array index out of bounds: shape is (",i4,",",i4,",",i4,"), index is (",i4,",",i4,",",i4,")")') (where), (imax),(jmax),(kmax), (i),(j),(k) &&\
call CCTK_WARN (CCTK_WARN_ABORT, msg) &&\
end if
subroutine prolongate_3d_real8_tvd ( &
src, srcipadext, srcjpadext, srckpadext, srciext, srcjext, srckext, &
dst, dstipadext, dstjpadext, dstkpadext, dstiext, dstjext, dstkext, &
srcbbox, dstbbox, regbbox)
implicit none
CCTK_REAL8 one
parameter (one = 1)
integer srcipadext, srcjpadext, srckpadext
integer srciext, srcjext, srckext
CCTK_REAL8 src(srcipadext,srcjpadext,srckpadext)
integer dstipadext, dstjpadext, dstkpadext
integer dstiext, dstjext, dstkext
CCTK_REAL8 dst(dstipadext,dstjpadext,dstkpadext)
! bbox(:,1) is lower boundary (inclusive)
! bbox(:,2) is upper boundary (inclusive)
! bbox(:,3) is stride
integer srcbbox(3,3), dstbbox(3,3), regbbox(3,3)
character*1000 msg
integer offsetlo, offsethi
integer regiext, regjext, regkext
integer dstifac, dstjfac, dstkfac
integer srcioff, srcjoff, srckoff
integer dstioff, dstjoff, dstkoff
integer i, j, k
integer i0, j0, k0
integer fi, fj, fk
integer ii, jj, kk
integer d
CCTK_REAL8 half, zero
parameter (half = 0.5)
parameter (zero = 0)
CCTK_REAL8 dupw, dloc, slopex, slopey, slopez
logical firstloop
call CCTK_WARN (CCTK_WARN_ABORT, "This routine has been resurrected from an older version of Carpet. It is not clear whether it is working correctly. If you want to try it out, then disable this statement.")
do d=1,3
if (srcbbox(d,3).eq.0 .or. dstbbox(d,3).eq.0 &
.or. regbbox(d,3).eq.0) then
call CCTK_WARN (0, "Internal error: stride is zero")
end if
if (srcbbox(d,3).le.regbbox(d,3) &
.or. dstbbox(d,3).ne.regbbox(d,3)) then
call CCTK_WARN (0, "Internal error: strides disagree")
end if
if (mod(srcbbox(d,3), dstbbox(d,3)).ne.0) then
call CCTK_WARN (0, "Internal error: destination strides are not integer multiples of the source strides")
end if
if (mod(srcbbox(d,1), srcbbox(d,3)).ne.0 &
.or. mod(dstbbox(d,1), dstbbox(d,3)).ne.0 &
.or. mod(regbbox(d,1), regbbox(d,3)).ne.0) then
call CCTK_WARN (0, "Internal error: array origins are not integer multiples of the strides")
end if
if (regbbox(d,1).gt.regbbox(d,2)) then
! This could be handled, but is likely to point to an error elsewhere
call CCTK_WARN (0, "Internal error: region extent is empty")
end if
regkext = (regbbox(d,2) - regbbox(d,1)) / regbbox(d,3) + 1
dstkfac = srcbbox(d,3) / dstbbox(d,3)
srckoff = (regbbox(d,1) - srcbbox(d,1)) / dstbbox(d,3)
offsetlo = regbbox(d,3)
if (mod(srckoff + 0, dstkfac).eq.0) then
offsetlo = 0
if (regkext.gt.1) then
offsetlo = regbbox(d,3)
end if
end if
offsethi = regbbox(d,3)
if (mod(srckoff + regkext-1, dstkfac).eq.0) then
offsethi = 0
if (regkext.gt.1) then
offsethi = regbbox(d,3)
end if
end if
if (regbbox(d,1)-offsetlo.lt.srcbbox(d,1) &
.or. regbbox(d,2)+offsethi.gt.srcbbox(d,2) &
.or. regbbox(d,1).lt.dstbbox(d,1) &
.or. regbbox(d,2).gt.dstbbox(d,2)) then
call CCTK_WARN (0, "Internal error: region extent is not contained in array extent")
end if
end do
if (srciext.ne.(srcbbox(1,2)-srcbbox(1,1))/srcbbox(1,3)+1 &
.or. srcjext.ne.(srcbbox(2,2)-srcbbox(2,1))/srcbbox(2,3)+1 &
.or. srckext.ne.(srcbbox(3,2)-srcbbox(3,1))/srcbbox(3,3)+1 &
.or. dstiext.ne.(dstbbox(1,2)-dstbbox(1,1))/dstbbox(1,3)+1 &
.or. dstjext.ne.(dstbbox(2,2)-dstbbox(2,1))/dstbbox(2,3)+1 &
.or. dstkext.ne.(dstbbox(3,2)-dstbbox(3,1))/dstbbox(3,3)+1) then
call CCTK_WARN (0, "Internal error: array sizes don't agree with bounding boxes")
end if
regiext = (regbbox(1,2) - regbbox(1,1)) / regbbox(1,3) + 1
regjext = (regbbox(2,2) - regbbox(2,1)) / regbbox(2,3) + 1
regkext = (regbbox(3,2) - regbbox(3,1)) / regbbox(3,3) + 1
dstifac = srcbbox(1,3) / dstbbox(1,3)
dstjfac = srcbbox(2,3) / dstbbox(2,3)
dstkfac = srcbbox(3,3) / dstbbox(3,3)
srcioff = (regbbox(1,1) - srcbbox(1,1)) / dstbbox(1,3)
srcjoff = (regbbox(2,1) - srcbbox(2,1)) / dstbbox(2,3)
srckoff = (regbbox(3,1) - srcbbox(3,1)) / dstbbox(3,3)
dstioff = (regbbox(1,1) - dstbbox(1,1)) / dstbbox(1,3)
dstjoff = (regbbox(2,1) - dstbbox(2,1)) / dstbbox(2,3)
dstkoff = (regbbox(3,1) - dstbbox(3,1)) / dstbbox(3,3)
! Loop over fine region
!$omp parallel do collapse(3) private(i,j,k, i0,fi,j0,fj,k0,fk, firstloop, ii,jj,kk, dupw,dloc, slopex,slopey,slopez)
do k = 0, regkext-1
do j = 0, regjext-1
do i = 0, regiext-1
i0 = (srcioff + i) / dstifac
fi = mod(srcioff + i, dstifac)
j0 = (srcjoff + j) / dstjfac
fj = mod(srcjoff + j, dstjfac)
k0 = (srckoff + k) / dstkfac
fk = mod(srckoff + k, dstkfac)
firstloop = .true.
CHKIDX (i0 ,j0 ,k0 , srciext,srcjext,srckext, "src")
CHKIDX (i0+2,j0+2,k0+2, srciext,srcjext,srckext, "src")
! TODO: use three fluxes instead of only two (when in
! between grid points) to remain symmetric
do kk = 1, 2
do jj = 1, 2
dupw = src(i0+1 ,j0+jj,k0+kk) - src(i0+0 ,j0+jj,k0+kk)
dloc = src(i0+2 ,j0+jj,k0+kk) - src(i0+1 ,j0+kk,k0+kk)
if (firstloop) then
slopex = half * fi * minmod(dupw,dloc)
firstloop = .false.
else
slopex = minmod(slopex, half * fi * minmod(dupw,dloc))
end if
end do
end do
firstloop = .true.
do kk = 1, 2
do ii = 1, 2
dupw = src(i0+ii,j0+1 ,k0+kk) - src(i0+ii,j0+0 ,k0+kk)
dloc = src(i0+ii,j0+2 ,k0+kk) - src(i0+ii,j0+1 ,k0+kk)
if (firstloop) then
slopey = half * fj * minmod(dupw,dloc)
firstloop = .false.
else
slopey = minmod(slopey, half * fj * minmod(dupw,dloc))
end if
end do
end do
firstloop = .true.
do jj = 1, 2
do ii = 1, 2
dupw = src(i0+ii,j0+jj,k0+1 ) - src(i0+ii,j0+jj,k0+0 )
dloc = src(i0+ii,j0+jj,k0+2 ) - src(i0+ii,j0+jj,k0+1 )
if (firstloop) then
slopez = half * fk * minmod(dupw,dloc)
firstloop = .false.
else
slopez = minmod(slopez, half * fk * minmod(dupw,dloc))
end if
end do
end do
CHKIDX (dstioff+i+1, dstjoff+j+1, dstkoff+k+1, dstiext,dstjext,dstkext, "dst")
dst (dstioff+i+1, dstjoff+j+1, dstkoff+k+1) = &
src(i0+1,j0+1,k0+1) + slopex + slopey + slopez
end do
end do
end do
contains
function minmod(a, b)
CCTK_REAL8 minmod
CCTK_REAL8 a, b
if (a * b < 0) then
minmod = 0
else if (abs(a) < abs(b)) then
minmod = a
else
minmod = b
end if
end function minmod
end subroutine prolongate_3d_real8_tvd
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