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! Calculate first order upwinded differences.
! $Header$
if ( eh_mask(i,j,k,l) .ge. 0 ) then
if ( ( .not. btest(eh_mask(i,j,k,l),0) ) .and. &
( .not. btest(eh_mask(i,j,k,l),1) ) ) then
al = idx * ( f(i,j,k,l) - f(i-1,j,k,l) )
ar = idx * ( f(i+1,j,k,l) - f(i,j,k,l) )
else if ( btest(eh_mask(i,j,k,l),0) ) then
al = zero
ar = idx * ( f(i+1,j,k,l) - f(i,j,k,l) )
else
al = idx * ( f(i,j,k,l) - f(i-1,j,k,l) )
ar = zero
end if
if ( ( .not. btest(eh_mask(i,j,k,l),2) ) .and. &
( .not. btest(eh_mask(i,j,k,l),3) ) ) then
bl = idy * ( f(i,j,k,l) - f(i,j-1,k,l) )
br = idy * ( f(i,j+1,k,l) - f(i,j,k,l) )
else if ( btest(eh_mask(i,j,k,l),2) ) then
bl = zero
br = idy * ( f(i,j+1,k,l) - f(i,j,k,l) )
else
bl = idy * ( f(i,j,k,l) - f(i,j-1,k,l) )
br = zero
end if
if ( ( .not. btest(eh_mask(i,j,k,l),4) ) .and. &
( .not. btest(eh_mask(i,j,k,l),5) ) ) then
cl = idz * ( f(i,j,k,l) - f(i,j,k-1,l) )
cr = idz * ( f(i,j,k+1,l) - f(i,j,k,l) )
else if ( btest(eh_mask(i,j,k,l),4) ) then
cl = zero
cr = idz * ( f(i,j,k+1,l) - f(i,j,k,l) )
else
cl = idz * ( f(i,j,k,l) - f(i,j,k-1,l) )
cr = zero
end if
alminus = half*(al-abs(al))
alplus = half*(al+abs(al))
arminus = half*(ar-abs(ar))
arplus = half*(ar+abs(ar))
blminus = half*(bl-abs(bl))
blplus = half*(bl+abs(bl))
brminus = half*(br-abs(br))
brplus = half*(br+abs(br))
clminus = half*(cl-abs(cl))
clplus = half*(cl+abs(cl))
crminus = half*(cr-abs(cr))
crplus = half*(cr+abs(cr))
if ( f(i,j,k,l) .gt. 0 ) then
if ( abs(alplus) .gt. abs(arminus) ) then
dfx(i,j,k,l) = alplus
else
dfx(i,j,k,l) = arminus
end if
if ( abs(blplus) .gt. abs(brminus) ) then
dfy(i,j,k,l) = blplus
else
dfy(i,j,k,l) = brminus
end if
if ( abs(clplus) .gt. abs(crminus) ) then
dfz(i,j,k,l) = clplus
else
dfz(i,j,k,l) = crminus
end if
endif
if ( f(i,j,k,l) .lt. 0 ) then
if ( abs(alminus) .gt. abs(arplus) ) then
dfx(i,j,k,l) = alminus
else
dfx(i,j,k,l) = arplus
end if
if ( abs(blminus) .gt. abs(brplus) ) then
dfy(i,j,k,l) = blminus
else
dfy(i,j,k,l) = brplus
end if
if ( abs(clminus) .gt. abs(crplus) ) then
dfz(i,j,k,l) = clminus
else
dfz(i,j,k,l) = crplus
end if
end if
else
dfx(i,j,k,l) = zero
dfy(i,j,k,l) = zero
dfz(i,j,k,l) = zero
end if
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