c
c ==========================================================
subroutine in2eurhok(qi,mxi,myi,lbi,ubi,q,mx,my,lb,ub,
& lbr,ubr,shaper,meqn,nc,time)
c ==========================================================
c
c # Copyright (C) 2003-2007 California Institute of Technology
c # Ralf Deiterding, ralf@cacr.caltech.edu
c
implicit double precision(a-h,o-z)
include "ck.i"
common /Energy/ NEnergy
c
integer meqn, mx, my, mxi, myi
dimension q(meqn,mx,my), qi(mxi,myi)
c
integer lb(2), ub(2), lbi(2), ubi(2), lbr(2), ubr(2), shaper(2),
& mresult, stride, imin(2), imax(2), i, j, d, getindx
c
stride = (ub(1) - lb(1))/(mx-1)
do 5 d = 1, 2
imin(d) = max(lb(d), lbr(d))
imax(d) = min(ub(d), ubr(d))
if (mod(imin(d)-lb(d),stride) .ne. 0) then
imin(d) = imin(d) + stride - mod(imin(d)-lb(d),stride)
endif
imin(d) = getindx(imin(d), lb(d), stride)
if (mod(imax(d)-lb(d),stride) .ne. 0) then
imax(d) = imax(d) - mod(imax(d)-lb(d),stride)
endif
imax(d) = getindx(imax(d), lb(d), stride)
5 continue
c
if (nc.eq.1) NEnergy = 0
if (nc.eq.4) NEnergy = 1
if (nc.eq.5) NEnergy = 2
if (nc.eq.6) NEnergy = 3
c
do 10 i = imin(1), imax(1)
do 10 j = imin(2), imax(2)
c
c # Total density
if (nc.eq.1) then
q(1,i,j) = qi(i,j)
c # Convert kg/m**3 into g/cm**3
if (ckunits) q(1,i,j) = q(1,i,j)*1.d-3
do k = 2, Nsp
q(k,i,j) = q(1,i,j)
enddo
endif
c
c # Velocity u
if (nc.eq.2) then
q(Nsp+1,i,j) = q(1,i,j)*qi(i,j)
c # Convert cm/sec into m/sec
if (ckunits) q(Nsp+1,i,j) = q(Nsp+1,i,j)*1.d2
endif
c
c # Velocity v
if (nc.eq.3) then
q(Nsp+2,i,j) = q(1,i,j)*qi(i,j)
c # Convert cm/sec into m/sec
if (ckunits) q(Nsp+2,i,j) = q(Nsp+2,i,j)*1.d2
endif
c
c # Total energy density
if (nc.eq.4) then
q(Nsp+3,i,j) = qi(i,j)
c # Convert J/m**3 into ergs/cm**3
if (ckunits) q(Nsp+3,i,j) = q(Nsp+3,i,j)*1.d1
endif
c
c # Temperature - No unit conversion
if (nc.eq.5) q(Nsp+4,i,j) = qi(i,j)
c
c # Pressure
if (nc.eq.6) then
q(Nsp+4,i,j) = qi(i,j)
c # Convert Pa = J/m**2 into dynes/cm**2
if (ckunits) q(Nsp+4,i,j) = q(Nsp+4,i,j)*1.d1
endif
c
c # Mass fractions - No unit conversion
if (nc.ge.8.and.nc.le.Nsp+7)
& q(nc-7,i,j) = q(nc-7,i,j)*qi(i,j)
c
c # Total energy density
if (nc.eq.Nsp+7.and.NEnergy.gt.0) then
rho = 0.d0
rhoW = 0.d0
do k = 1, Nsp
rho = rho + q(k,i,j)
rhoW = rhoW + q(k,i,j)/Wk(k)
enddo
if (NEnergy.eq.1) then
rhoe = q(Nsp+3,i,j)-0.5d0*(q(Nsp+1,i,j)**2+
& q(Nsp+2,i,j)**2)/rho
call SolveTrhok(q(Nsp+4,i,j),rhoe,rhoW,
& q(1,i,j),Nsp,ifail)
endif
if (NEnergy.eq.3)
& q(Nsp+4,i,j) = q(Nsp+4,i,j)/(rhoW*RU)
if (NEnergy.eq.2.or.NEnergy.eq.3)
& q(Nsp+3,i,j) = 0.5d0*(q(Nsp+1,i,j)**2+
& q(Nsp+2,i,j)**2)/rho - rhoW*RU*q(Nsp+4,i,j)
& + avgtabip(q(Nsp+4,i,j),q(1,i,j),hms,Nsp)
endif
c
10 continue
c
return
end