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|
/*@@
@file GRHydro_Con2PrimM.F90
@date Sep 3, 2010
@author Scott Noble, Joshua Faber, Bruno Mundim
@desc
The routines for converting conservative to primitive variables.
@enddesc
@@*/
#include "cctk.h"
#include "cctk_Parameters.h"
#include "cctk_Arguments.h"
#include "cctk_Functions.h"
#include "SpaceMask.h"
#include "GRHydro_InterfacesM.h"
#include "GRHydro_Macros.h"
#define ITER_TOL (1.0e-8)
#define MAXITER (50)
/*@@
@routine Conservative2PrimitiveM
@date Sep 3, 2010
@author Scott Noble, Joshua Faber, Bruno Mundim, Ian Hawke
@desc
Wrapper routine that converts from conserved to primitive variables
at every grid cell centre.
@enddesc
@calls
@calledby
@history
Trimmed and altered from the GR3D routines, original author Mark Miller.
2007?: Bruno excluded the points in the atmosphere and excision region from the computation.
Aug. 2008: Luca added a check on whether a failure at a given point may be disregarded,
because that point will then be restricted from a finer level. This should be completely
safe only if *regridding happens at times when all levels are evolved.*
Feb. 2009: The above procedure proved to be wrong, so Luca implemented another one.
When a failure occurs, it is temporarily ignored, except for storing the location of where
it occured in a mask. At the end, after a Carpet restriction, the mask is checked and if
it still contains failures, the run is aborted with an error message. Only used routines
have been updated to use this procedure.
@endhistory
@@*/
subroutine Conservative2PrimitiveM(CCTK_ARGUMENTS)
use Con2PrimM_fortran_interfaces
implicit none
! save memory when MP is not used
! TARGET as to be before DECLARE_CCTK_ARGUMENTS for gcc 4.1
TARGET gaa, gab, gac, gbb, gbc, gcc
TARGET gxx, gxy, gxz, gyy, gyz, gzz
TARGET lvel, vel
TARGET lBvec, Bvec
DECLARE_CCTK_ARGUMENTS
DECLARE_CCTK_PARAMETERS
DECLARE_CCTK_FUNCTIONS
integer :: i, j, k, itracer, nx, ny, nz
CCTK_REAL :: uxx, uxy, uxz, uyy, uyz, uzz, det, sdet, pmin(1), epsmin(1)
CCTK_REAL :: oob, b2, d2, s2, bscon, bxhat, byhat, bzhat, bhatscon
CCTK_REAL :: Wm, Wm0, Wm_resid, Wmold
CCTK_REAL :: s2m, s2m0, s2m_resid, s2mold, s2max, taum
CCTK_INT :: niter
CCTK_INT :: epsnegative
character(len=100) warnline
CCTK_REAL :: local_min_tracer, local_gam(1), local_pgam,local_K, sc
CCTK_REAL :: local_perc_ptol
! begin EOS Omni vars
integer :: n,keytemp,anyerr,keyerr(1)
real*8 :: xpress(1),xtemp(1),xye(1),xeps(1),xrho(1),one(1)=1.0d0
! end EOS Omni vars
! save memory when MP is not used
CCTK_INT :: GRHydro_UseGeneralCoordinates
CCTK_REAL, DIMENSION(:,:,:), POINTER :: g11, g12, g13, g22, g23, g33
CCTK_REAL, DIMENSION(:,:,:,:), POINTER :: vup, Bprim
logical :: posdef
CCTK_REAL :: g11c, g12c, g13c, g22c, g23c, g33c
CCTK_REAL :: tmp1
! Save the primitive variables to temporary functions before calling the
! con2prim pointwise routines:
CCTK_REAL :: rho_tmp, press_tmp, eps_tmp
CCTK_REAL :: velx_tmp, vely_tmp, velz_tmp, w_lorentz_tmp
CCTK_REAL :: Bvecx_tmp, Bvecy_tmp, Bvecz_tmp
CCTK_REAL :: bdotv, magpress
! Assume 3-metric is positive definite. Check deep inside the horizon
! if this is actually satisfied and if it is not then cast the metric
!as conformally flat only for con2prim inversion purposes.
posdef = .true.
if (GRHydro_UseGeneralCoordinates(cctkGH).ne.0) then
g11 => gaa
g12 => gab
g13 => gac
g22 => gbb
g23 => gbc
g33 => gcc
vup => lvel
Bprim => lBvec
else
g11 => gxx
g12 => gxy
g13 => gxz
g22 => gyy
g23 => gyz
g33 => gzz
vup => vel
Bprim => Bvec
end if
#define gxx faulty_gxx
#define gxy faulty_gxy
#define gxz faulty_gxz
#define gyy faulty_gyy
#define gyz faulty_gyz
#define gzz faulty_gzz
#define betax faulty_betax
#define betay faulty_betay
#define betaz faulty_betaz
#define vel faulty_vel
#define Bvec faulty_Bvec
! begin EOS Omni vars
n=1;keytemp=0;anyerr=0;keyerr(1)=0
xpress(1)=0.0d0;xtemp(1)=0.0d0;xye(1)=0.0d0;xeps(1)=0.0d0
! end EOS Omni vars
nx = cctk_lsh(1)
ny = cctk_lsh(2)
nz = cctk_lsh(3)
if (use_min_tracer .ne. 0) then
local_min_tracer = min_tracer
else
local_min_tracer = 0d0
end if
! call EOS_Omni_press(GRHydro_polytrope_handle,keytemp,GRHydro_eos_rf_prec,n,&
! GRHydro_rho_min,xeps,xtemp,xye,pmin,keyerr,anyerr)
! call EOS_Omni_EpsFromPress(GRHydro_polytrope_handle,keytemp,GRHydro_eos_rf_prec,n,&
! GRHydro_rho_min,xeps,xtemp,xye,pmin,epsmin,keyerr,anyerr)
! this is a poly call
xrho(1)=GRHydro_rho_min
call EOS_Omni_press(GRHydro_polytrope_handle,keytemp,GRHydro_eos_rf_prec,n,&
xrho,xeps,xtemp,xye,pmin,keyerr,anyerr)
call EOS_Omni_EpsFromPress(GRHydro_polytrope_handle,keytemp,GRHydro_eos_rf_prec,n,&
xrho,xeps,xtemp,xye,pmin,epsmin,keyerr,anyerr)
call EOS_Omni_press(GRHydro_eos_handle,keytemp,GRHydro_eos_rf_prec,n,&
one,one,xtemp,xye,local_gam,keyerr,anyerr)
local_gam = local_gam+1.d0
!$OMP PARALLEL DO PRIVATE(i,j,k,itracer,&
!$OMP uxx, uxy, uxz, uyy, uyz, uzz, det, epsnegative, &
!$OMP b2,xrho,xeps,xpress,xtemp,local_K,local_pgam,sc,keyerr,anyerr,keytemp, &
!$OMP local_perc_ptol,posdef,g11c,g12c,g13c,g22c,g23c,g33c,tmp1, &
!$OMP sdet,d2,s2,oob,bscon,bxhat,byhat,bzhat, &
!$OMP bhatscon,Wm,Wm0,Wm_resid,Wmold,s2m,s2m0,s2m_resid,s2mold,s2max, &
!$OMP taum,niter,rho_tmp,press_tmp,eps_tmp,velx_tmp,vely_tmp,velz_tmp, &
!$OMP w_lorentz_tmp,Bvecx_tmp,Bvecy_tmp,Bvecz_tmp,bdotv,magpress)
do k = 1, nz
do j = 1, ny
do i = 1, nx
!do not compute if in atmosphere or in excised region
if ((atmosphere_mask(i,j,k) .ne. 0) .or. &
(hydro_excision_mask(i,j,k) .ne. 0)) cycle
epsnegative = 0
det = SPATIAL_DETERMINANT(g11(i,j,k),g12(i,j,k),g13(i,j,k),g22(i,j,k),g23(i,j,k),g33(i,j,k))
sdet = sqrt(det)
call UpperMetric(uxx,uxy,uxz,uyy,uyz,uzz,det,&
g11(i,j,k),g12(i,j,k),g13(i,j,k),g22(i,j,k),&
g23(i,j,k),g33(i,j,k))
!!$ Tracers don't need an MHD treatment!
if (evolve_tracer .ne. 0) then
do itracer=1,number_of_tracers
call Con2Prim_ptTracer(cons_tracer(i,j,k,itracer), tracer(i,j,k,itracer), &
dens(i,j,k))
if (use_min_tracer .ne. 0) then
if (tracer(i,j,k,itracer) .le. local_min_tracer) then
tracer(i,j,k,itracer) = local_min_tracer
end if
end if
enddo
endif
if(evolve_Y_e.ne.0) then
Y_e(i,j,k) = max(min(Y_e_con(i,j,k) / dens(i,j,k),GRHydro_Y_e_max),&
GRHydro_Y_e_min)
endif
b2=g11(i,j,k)*Bprim(i,j,k,1)**2+g22(i,j,k)*Bprim(i,j,k,2)**2+g33(i,j,k)*Bprim(i,j,k,3)**2+ &
2.0*(g12(i,j,k)*Bprim(i,j,k,1)*Bprim(i,j,k,2)+g13(i,j,k)*Bprim(i,j,k,1)*Bprim(i,j,k,3)+ &
g23(i,j,k)*Bprim(i,j,k,2)*Bprim(i,j,k,3))
if ( dens(i,j,k) .le. sdet*GRHydro_rho_min*(1.d0+GRHydro_atmo_tolerance) ) then
!call CCTK_WARN(1,"Con2Prim: Resetting to atmosphere")
!write(warnline,"(3i5,1P10E15.6)") i,j,k,x(i,j,k),y(i,j,k),z(i,j,k)
!call CCTK_WARN(1,warnline)
!write(warnline,"(1P10E15.6)") rho(i,j,k),dens(i,j,k),eps(i,j,k),&
! temperature(i,j,k),y_e(i,j,k)
!call CCTK_WARN(1,warnline)
dens(i,j,k) = sdet*GRHydro_rho_min !/(1.d0+GRHydro_atmo_tolerance)
rho(i,j,k) = GRHydro_rho_min
scon(i,j,k,:) = 0.d0
vup(i,j,k,:) = 0.d0
w_lorentz(i,j,k) = 1.d0
if(evolve_temper.ne.0) then
! set hot atmosphere values
temperature(i,j,k) = grhydro_hot_atmo_temp
y_e(i,j,k) = grhydro_hot_atmo_Y_e
y_e_con(i,j,k) = y_e(i,j,k) * dens(i,j,k)
keytemp = 1
call EOS_Omni_press(GRHydro_eos_handle,keytemp,GRHydro_eos_rf_prec,n,&
rho(i,j,k),eps(i,j,k),temperature(i,j,k),y_e(i,j,k),&
press(i,j,k),keyerr,anyerr)
else
keytemp = 0
call EOS_Omni_press(GRHydro_polytrope_handle,keytemp,GRHydro_eos_rf_prec,n,&
rho(i,j,k),eps(i,j,k),xtemp,xye,press(i,j,k),keyerr,anyerr)
call EOS_Omni_EpsFromPress(GRHydro_polytrope_handle,keytemp,GRHydro_eos_rf_prec,n,&
rho(i,j,k),eps(i,j,k),xtemp,xye,press(i,j,k),eps(i,j,k),keyerr,anyerr)
endif
!call EOS_Omni_press(GRHydro_polytrope_handle,keytemp,GRHydro_eos_rf_prec,n,&
! rho(i,j,k),eps(i,j,k),xtemp,xye,press(i,j,k),keyerr,anyerr)
!
!call EOS_Omni_EpsFromPress(GRHydro_polytrope_handle,keytemp,GRHydro_eos_rf_prec,n,&
! rho(i,j,k),eps(i,j,k),xtemp,xye,press(i,j,k),eps(i,j,k),keyerr,anyerr)
! w_lorentz=1, so the expression for tau reduces to:
!!$ tau does need to take into account the existing B-field
!!$ with w_lorentz=1, we find tau = sqrtdet*(rho (1+eps+b^2/2)) - dens [Press drops out]
tau(i,j,k) = sdet * (rho(i,j,k)*(1.0+eps(i,j,k)+b2/2.0)) - dens(i,j,k)
if(tau(i,j,k).le.sdet*b2*0.5d0)then
tau(i,j,k) = GRHydro_tau_min + sdet*b2*0.5d0
endif
cycle
end if
if(evolve_temper.eq.0) then
if(sqrtdet_thr.gt.0d0 .and. sdet.ge.sqrtdet_thr) then
d2 = dens(i,j,k)**2
s2 = uxx*scon(i,j,k,1)**2 + uyy*scon(i,j,k,2)**2 &
+ uzz*scon(i,j,k,3)**2 &
+ 2.0d0*uxy*scon(i,j,k,1)*scon(i,j,k,2) &
+ 2.0d0*uxz*scon(i,j,k,1)*scon(i,j,k,3) &
+ 2.0d0*uyz*scon(i,j,k,2)*scon(i,j,k,3)
oob = 1.0d0/sqrt(b2)
bxhat = oob*Bprim(i,j,k,1)
byhat = oob*Bprim(i,j,k,2)
bzhat = oob*Bprim(i,j,k,3)
bhatscon = bxhat*scon(i,j,k,1)+byhat*scon(i,j,k,2) &
+bzhat*scon(i,j,k,3)
bscon = Bprim(i,j,k,1)*scon(i,j,k,1) &
+ Bprim(i,j,k,2)*scon(i,j,k,2) &
+ Bprim(i,j,k,3)*scon(i,j,k,3)
! Initial guesses for iterative procedure to find Wm:
Wm0 = sdet*sqrt(bhatscon**2+d2)
s2m0 = (Wm0**2*s2+bhatscon**2*(b2+2.0d0*Wm0)) &
/ (Wm0+b2)**2
Wm = sdet*sqrt(s2m0+d2)
s2m = (Wm**2*s2+bscon**2*(b2+2.0d0*Wm)) &
/ (Wm+b2)**2
s2m_resid = 1.0d60
Wm_resid = 1.0d60
niter = 0
do while((s2m_resid.ge.ITER_TOL.and.Wm_resid.ge.ITER_TOL).and.&
niter.le.MAXITER)
Wmold = Wm
s2mold = s2m
Wm = sdet*sqrt(s2m+d2)
s2m = (Wm**2*s2+bscon**2*(b2+2.0d0*Wm)) &
/ (Wm+b2)**2
Wm_resid = abs(Wmold-Wm)
s2m_resid = abs(s2mold-s2m)
niter = niter + 1
end do
!TODO: abort execution if niter .eq. MAXITER and warn user
taum = tau(i,j,k) - 0.5d0*sdet*b2 -0.5d0*(b2*s2-bscon**2)/ &
(sdet*(Wm+b2)**2)
s2max = taum*(taum+2.0d0*dens(i,j,k))
if(taum.lt.GRHydro_tau_min)then
tau(i,j,k) = GRHydro_tau_min + 0.5d0*sdet*b2 + 0.5d0* &
(b2*s2-bscon**2)/(sdet*(Wm+b2)**2)
end if
if(s2.gt.s2max) then
scon(i,j,k,1) = scon(i,j,k,1)*sqrt(s2max/s2)
scon(i,j,k,2) = scon(i,j,k,2)*sqrt(s2max/s2)
scon(i,j,k,3) = scon(i,j,k,3)*sqrt(s2max/s2)
end if
endif
rho_tmp = rho(i,j,k)
press_tmp = press(i,j,k)
eps_tmp = eps(i,j,k)
velx_tmp = vup(i,j,k,1)
vely_tmp = vup(i,j,k,2)
velz_tmp = vup(i,j,k,3)
w_lorentz_tmp = w_lorentz(i,j,k)
Bvecx_tmp = Bprim(i,j,k,1)
Bvecy_tmp = Bprim(i,j,k,2)
Bvecz_tmp = Bprim(i,j,k,3)
keytemp = 0
!Watch out for the values returned to b2. Here b2 is the Bprim^2
!while inside the point-wise con2prim routines it is the square
!of the comoving B-field, b^{\mu} b_{\mu}. It is overwritten
!in this routine, but we may need to find a better notation
!avoid future confusions.
call GRHydro_Con2PrimM_pt(GRHydro_eos_handle, keytemp, &
GRHydro_eos_rf_prec, local_gam(1), dens(i,j,k), &
scon(i,j,k,1),scon(i,j,k,2),scon(i,j,k,3), tau(i,j,k), &
Bcons(i,j,k,1),Bcons(i,j,k,2),Bcons(i,j,k,3),xye(1), &
xtemp(1),rho_tmp,velx_tmp,vely_tmp,velz_tmp,&
eps_tmp,press_tmp,Bvecx_tmp,Bvecy_tmp,Bvecz_tmp,b2,&
w_lorentz_tmp,g11(i,j,k),g12(i,j,k),g13(i,j,k),&
g22(i,j,k),g23(i,j,k),g33(i,j,k), &
uxx,uxy,uxz,uyy,uyz,uzz,det, &
epsnegative,GRHydro_C2P_failed(i,j,k))
if(evolve_entropy.ne.0) then
if(GRHydro_C2P_failed(i,j,k).ne.0) then
!Use previous time step for rho:
entropy(i,j,k) = entropycons(i,j,k)/dens(i,j,k)*rho(i,j,k)
else
!Use the current correct value of rho returned by con2prim:
entropy(i,j,k) = entropycons(i,j,k)/dens(i,j,k)*rho_tmp
endif
endif
if(GRHydro_C2P_failed(i,j,k).ne.0) then
xrho=1.0d0; xtemp=0.0d0; xeps=1.0d0
call EOS_Omni_press(GRHydro_polytrope_handle,keytemp,GRHydro_eos_rf_prec,n,&
xrho,xeps,xtemp,xye,xpress,keyerr,anyerr)
local_K = xpress(1);
xrho=10.0d0; xeps=1.0d0
call EOS_Omni_press(GRHydro_polytrope_handle,keytemp,GRHydro_eos_rf_prec,n,&
xrho,xeps,xtemp,xye,xpress,keyerr,anyerr)
local_pgam=log(xpress(1)/local_K)/log(xrho(1))
sc = local_K*dens(i,j,k)
if(sqrtdet_thr.gt.0d0 .and. sdet.ge.sqrtdet_thr) then
GRHydro_C2P_failed(i,j,k) = 0
rho_tmp = rho(i,j,k)
press_tmp = press(i,j,k)
eps_tmp = eps(i,j,k)
velx_tmp = vup(i,j,k,1)
vely_tmp = vup(i,j,k,2)
velz_tmp = vup(i,j,k,3)
w_lorentz_tmp = w_lorentz(i,j,k)
Bvecx_tmp = Bprim(i,j,k,1)
Bvecy_tmp = Bprim(i,j,k,2)
Bvecz_tmp = Bprim(i,j,k,3)
call GRHydro_Con2PrimM_Polytype_pt(GRHydro_eos_handle, local_pgam, &
dens(i,j,k),scon(i,j,k,1),scon(i,j,k,2),scon(i,j,k,3), sc, &
Bcons(i,j,k,1), Bcons(i,j,k,2), Bcons(i,j,k,3),rho_tmp,&
velx_tmp,vely_tmp,velz_tmp,eps_tmp,press_tmp,&
Bvecx_tmp,Bvecy_tmp,Bvecz_tmp,b2,w_lorentz_tmp,&
g11(i,j,k),g12(i,j,k),g13(i,j,k),g22(i,j,k),g23(i,j,k),g33(i,j,k), &
uxx,uxy,uxz,uyy,uyz,uzz,det, &
epsnegative,GRHydro_C2P_failed(i,j,k))
if(GRHydro_C2P_failed(i,j,k).ne.0) then
GRHydro_C2P_failed(i,j,k) = 0
call prim2conM(GRHydro_eos_handle,g11(i,j,k),g12(i,j,k), &
g13(i,j,k),g22(i,j,k),g23(i,j,k),g33(i,j,k),det, &
dens(i,j,k),scon(i,j,k,1),scon(i,j,k,2),scon(i,j,k,3), &
tau(i,j,k),Bcons(i,j,k,1),Bcons(i,j,k,2),Bcons(i,j,k,3), &
rho(i,j,k),vup(i,j,k,1),vup(i,j,k,2),vup(i,j,k,3), &
eps(i,j,k),press(i,j,k), &
Bprim(i,j,k,1),Bprim(i,j,k,2),Bprim(i,j,k,3),w_lorentz(i,j,k))
cycle
end if
end if
bdotv=g11(i,j,k)*Bprim(i,j,k,1)*vup(i,j,k,1)+ &
g22(i,j,k)*Bprim(i,j,k,2)*vup(i,j,k,2)+ &
g33(i,j,k)*Bprim(i,j,k,3)*vup(i,j,k,3)+ &
2.0*(g12(i,j,k)*Bprim(i,j,k,1)*vup(i,j,k,2)+ &
g13(i,j,k)*Bprim(i,j,k,1)*vup(i,j,k,3)+ &
g23(i,j,k)*Bprim(i,j,k,2)*vup(i,j,k,3))
magpress = 0.5d0*(b2/w_lorentz(i,j,k)**2+bdotv**2)
if(rho(i,j,k)*eps(i,j,k)*max_magnetic_to_gas_pressure_ratio.le.magpress) then
GRHydro_C2P_failed(i,j,k) = 0
if(evolve_entropy.ne.0) then
local_K = entropycons(i,j,k)/dens(i,j,k)
xrho=10.0d0; xeps=1.0d0
call EOS_Omni_press(GRHydro_polytrope_handle,keytemp,GRHydro_eos_rf_prec,n,&
xrho,xeps,xtemp,xye,xpress,keyerr,anyerr)
local_pgam=log(xpress(1)/local_K)/log(xrho(1))
sc = local_K*dens(i,j,k)
end if
rho_tmp = rho(i,j,k)
press_tmp = press(i,j,k)
eps_tmp = eps(i,j,k)
velx_tmp = vup(i,j,k,1)
vely_tmp = vup(i,j,k,2)
velz_tmp = vup(i,j,k,3)
w_lorentz_tmp = w_lorentz(i,j,k)
Bvecx_tmp = Bprim(i,j,k,1)
Bvecy_tmp = Bprim(i,j,k,2)
Bvecz_tmp = Bprim(i,j,k,3)
if(evolve_entropy.ne.0) then
call GRHydro_Con2PrimM_ptee(GRHydro_eos_handle, keytemp, &
GRHydro_eos_rf_prec, local_gam(1), dens(i,j,k), &
scon(i,j,k,1),scon(i,j,k,2),scon(i,j,k,3), tau(i,j,k), &
Bcons(i,j,k,1),Bcons(i,j,k,2),Bcons(i,j,k,3), &
entropycons(i,j,k), xye(1), &
xtemp(1),rho_tmp,velx_tmp,vely_tmp,velz_tmp,&
eps_tmp,press_tmp,Bvecx_tmp,Bvecy_tmp,Bvecz_tmp,b2,&
w_lorentz_tmp,g11(i,j,k),g12(i,j,k),g13(i,j,k),&
g22(i,j,k),g23(i,j,k),g33(i,j,k), &
uxx,uxy,uxz,uyy,uyz,uzz,det, &
epsnegative,GRHydro_C2P_failed(i,j,k))
else
call GRHydro_Con2PrimM_Polytype_pt(GRHydro_eos_handle, local_pgam, &
dens(i,j,k),scon(i,j,k,1),scon(i,j,k,2),scon(i,j,k,3), sc, &
Bcons(i,j,k,1), Bcons(i,j,k,2), Bcons(i,j,k,3),rho_tmp,&
velx_tmp,vely_tmp,velz_tmp,eps_tmp,press_tmp,&
Bvecx_tmp,Bvecy_tmp,Bvecz_tmp,b2,w_lorentz_tmp,&
g11(i,j,k),g12(i,j,k),g13(i,j,k),g22(i,j,k),g23(i,j,k),g33(i,j,k), &
uxx,uxy,uxz,uyy,uyz,uzz,det, &
epsnegative,GRHydro_C2P_failed(i,j,k))
end if
rho(i,j,k) = rho_tmp
press(i,j,k) = press_tmp
eps(i,j,k) = eps_tmp
vup(i,j,k,1) = velx_tmp
vup(i,j,k,2) = vely_tmp
vup(i,j,k,3) = velz_tmp
w_lorentz(i,j,k) = w_lorentz_tmp
Bprim(i,j,k,1) = Bvecx_tmp
Bprim(i,j,k,2) = Bvecy_tmp
Bprim(i,j,k,3) = Bvecz_tmp
cycle
end if
end if
else ! if(evolve_temper.eq.0) then
rho_tmp = rho(i,j,k)
press_tmp = press(i,j,k)
eps_tmp = eps(i,j,k)
velx_tmp = vup(i,j,k,1)
vely_tmp = vup(i,j,k,2)
velz_tmp = vup(i,j,k,3)
w_lorentz_tmp = w_lorentz(i,j,k)
Bvecx_tmp = Bprim(i,j,k,1)
Bvecy_tmp = Bprim(i,j,k,2)
Bvecz_tmp = Bprim(i,j,k,3)
keytemp = 0
call GRHydro_Con2PrimM_pt(GRHydro_eos_handle, keytemp, &
GRHydro_eos_rf_prec, local_gam(1), dens(i,j,k), &
scon(i,j,k,1),scon(i,j,k,2),scon(i,j,k,3), tau(i,j,k), &
Bcons(i,j,k,1),Bcons(i,j,k,2),Bcons(i,j,k,3), Y_e(i,j,k), &
temperature(i,j,k),rho_tmp,velx_tmp,vely_tmp,velz_tmp,&
eps_tmp,press_tmp,Bvecx_tmp,Bvecy_tmp,Bvecz_tmp,b2,&
w_lorentz_tmp,g11(i,j,k),g12(i,j,k),g13(i,j,k),&
g22(i,j,k),g23(i,j,k),g33(i,j,k), &
uxx,uxy,uxz,uyy,uyz,uzz,det, &
epsnegative,GRHydro_C2P_failed(i,j,k))
if(GRHydro_C2P_failed(i,j,k).ne.0) then
! this means c2p did not converge.
! In this case, we attempt to call c2p with a reduced
! accuracy requirement; if it fails again, we abort
GRHydro_C2P_failed(i,j,k) = 0
local_perc_ptol = GRHydro_eos_rf_prec*100.0d0
! Use the previous primitive values as initial guesses
rho_tmp = rho(i,j,k)
press_tmp = press(i,j,k)
eps_tmp = eps(i,j,k)
velx_tmp = vup(i,j,k,1)
vely_tmp = vup(i,j,k,2)
velz_tmp = vup(i,j,k,3)
w_lorentz_tmp = w_lorentz(i,j,k)
Bvecx_tmp = Bprim(i,j,k,1)
Bvecy_tmp = Bprim(i,j,k,2)
Bvecz_tmp = Bprim(i,j,k,3)
call GRHydro_Con2PrimM_pt(GRHydro_eos_handle, keytemp, &
local_perc_ptol, local_gam(1), dens(i,j,k), &
scon(i,j,k,1),scon(i,j,k,2),scon(i,j,k,3), tau(i,j,k), &
Bcons(i,j,k,1),Bcons(i,j,k,2),Bcons(i,j,k,3), Y_e(i,j,k), &
temperature(i,j,k),rho_tmp,velx_tmp,vely_tmp,velz_tmp,&
eps_tmp,press_tmp,Bvecx_tmp,Bvecy_tmp,Bvecz_tmp,b2,&
w_lorentz_tmp,g11(i,j,k),g12(i,j,k),g13(i,j,k),&
g22(i,j,k),g23(i,j,k),g33(i,j,k), &
uxx,uxy,uxz,uyy,uyz,uzz,det, &
epsnegative,GRHydro_C2P_failed(i,j,k))
if(GRHydro_C2P_failed(i,j,k).ne.0) then
!$OMP CRITICAL
if (GRHydro_reflevel.ge.GRHydro_c2p_warn_from_reflevel) then
call CCTK_WARN(1,"Convergence problem in c2p")
write(warnline,"(A10,i5)") "reflevel: ",GRHydro_reflevel
call CCTK_WARN(1,warnline)
write(warnline,"(3i5,1P10E15.6)") i,j,k,x(i,j,k),y(i,j,k),z(i,j,k)
call CCTK_WARN(1,warnline)
write(warnline,"(1P10E15.6)") rho(i,j,k),dens(i,j,k),eps(i,j,k),&
temperature(i,j,k),y_e(i,j,k)
call CCTK_WARN(1,warnline)
call CCTK_WARN(0,"Aborting!!!")
endif
!$OMP END CRITICAL
endif
endif
endif ! if(evolve_temper.eq.0) then
if (epsnegative .ne. 0) then
#if 0
! cott 2010/03/30:
! Set point to atmosphere, but continue evolution -- this is better than using
! the poly EOS -- it will lead the code to crash if this happens inside a (neutron) star,
! but will allow the job to continue if it happens in the atmosphere or in a
! zone that contains garbage (i.e. boundary, buffer zones)
! Ultimately, we want this fixed via a new carpet mask presently under development
! GRHydro_C2P_failed(i,j,k) = 1
!$OMP CRITICAL
call CCTK_WARN(GRHydro_NaN_verbose+2, 'Specific internal energy just went below 0! ')
write(warnline,'(a28,i2)') 'on carpet reflevel: ',GRHydro_reflevel
call CCTK_WARN(GRHydro_NaN_verbose+2,warnline)
write(warnline,'(a20,3g16.7)') 'xyz location: ',&
x(i,j,k),y(i,j,k),z(i,j,k)
call CCTK_WARN(GRHydro_NaN_verbose+2,warnline)
write(warnline,'(a20,g16.7)') 'radius: ',r(i,j,k)
call CCTK_WARN(GRHydro_NaN_verbose+2,warnline)
call CCTK_WARN(GRHydro_NaN_verbose+2,"Setting the point to atmosphere")
!$OMP END CRITICAL
! for safety, let's set the point to atmosphere
dens(i,j,k) = sqrt(det)*GRHydro_rho_min !/(1.d0+GRHydro_atmo_tolerance)
rho(i,j,k) = GRHydro_rho_min
scon(i,j,k,:) = 0.d0
vup(i,j,k,:) = 0.d0
w_lorentz(i,j,k) = 1.d0
call EOS_Omni_press(GRHydro_polytrope_handle,keytemp,GRHydro_eos_rf_prec,n,&
rho(i,j,k),eps(i,j,k),xtemp,xye,press(i,j,k),keyerr,anyerr)
call EOS_Omni_EpsFromPress(GRHydro_polytrope_handle,keytemp,GRHydro_eos_rf_prec,n,&
rho(i,j,k),eps(i,j,k),xtemp,xye,press(i,j,k),eps(i,j,k),keyerr,anyerr)
b2=g11(i,j,k)*Bprim(i,j,k,1)**2+g22(i,j,k)*Bprim(i,j,k,2)**2+g33(i,j,k)*Bprim(i,j,k,3)**2+ &
2.0*(g12(i,j,k)*Bprim(i,j,k,1)*Bprim(i,j,k,2)+g13(i,j,k)*Bprim(i,j,k,1)*Bprim(i,j,k,3)+ &
g23(i,j,k)*Bprim(i,j,k,2)*Bprim(i,j,k,3))
! w_lorentz=1, so the expression for tau reduces to [see above]:
tau(i,j,k) = sqrt(det) * (rho(i,j,k)*(1.0+eps(i,j,k)+b2/2.0)) - dens(i,j,k)
#else
! cott 2010/03/27:
! Honestly, this should never happen. We need to flag the point where
! this happened as having led to failing con2prim.
!$OMP CRITICAL
call CCTK_WARN(GRHydro_NaN_verbose+2, 'Specific internal energy just went below 0, trying polytype.')
!$OMP END CRITICAL
xrho=1.0d0; xtemp=0.0d0; xeps=1.0d0
call EOS_Omni_press(GRHydro_polytrope_handle,keytemp,GRHydro_eos_rf_prec,n,&
xrho,xeps,xtemp,xye,xpress,keyerr,anyerr)
local_K = xpress(1);
xrho=10.0d0; xeps=1.0d0
call EOS_Omni_press(GRHydro_polytrope_handle,keytemp,GRHydro_eos_rf_prec,n,&
xrho,xeps,xtemp,xye,xpress,keyerr,anyerr)
local_pgam=log(xpress(1)/local_K)/log(xrho(1))
sc = local_K*dens(i,j,k)
rho_tmp = rho(i,j,k)
press_tmp = press(i,j,k)
eps_tmp = eps(i,j,k)
velx_tmp = vup(i,j,k,1)
vely_tmp = vup(i,j,k,2)
velz_tmp = vup(i,j,k,3)
w_lorentz_tmp = w_lorentz(i,j,k)
Bvecx_tmp = Bprim(i,j,k,1)
Bvecy_tmp = Bprim(i,j,k,2)
Bvecz_tmp = Bprim(i,j,k,3)
call GRHydro_Con2PrimM_Polytype_pt(GRHydro_eos_handle, local_pgam, dens(i,j,k), &
scon(i,j,k,1),scon(i,j,k,2),scon(i,j,k,3), sc, &
Bcons(i,j,k,1), Bcons(i,j,k,2), Bcons(i,j,k,3),rho_tmp,&
velx_tmp,vely_tmp,velz_tmp,eps_tmp,press_tmp,&
Bvecx_tmp,Bvecy_tmp,Bvecz_tmp,b2,w_lorentz_tmp,&
g11(i,j,k),g12(i,j,k),g13(i,j,k),g22(i,j,k),g23(i,j,k),g33(i,j,k), &
uxx,uxy,uxz,uyy,uyz,uzz,det, &
epsnegative,GRHydro_C2P_failed(i,j,k))
#endif
end if ! if (epsnegative .ne. 0) then
rho(i,j,k) = rho_tmp
press(i,j,k) = press_tmp
eps(i,j,k) = eps_tmp
vup(i,j,k,1) = velx_tmp
vup(i,j,k,2) = vely_tmp
vup(i,j,k,3) = velz_tmp
w_lorentz(i,j,k) = w_lorentz_tmp
Bprim(i,j,k,1) = Bvecx_tmp
Bprim(i,j,k,2) = Bvecy_tmp
Bprim(i,j,k,3) = Bvecz_tmp
if ( rho(i,j,k) .le. GRHydro_rho_min*(1.d0+GRHydro_atmo_tolerance)) then
! if ( rho(i,j,k) .le. GRHydro_rho_min*(1.d0+GRHydro_atmo_tolerance) .or. GRHydro_C2P_failed(i,j,k) .ge. 1) then
b2=g11(i,j,k)*Bprim(i,j,k,1)**2+g22(i,j,k)*Bprim(i,j,k,2)**2+g33(i,j,k)*Bprim(i,j,k,3)**2+ &
2.0*(g12(i,j,k)*Bprim(i,j,k,1)*Bprim(i,j,k,2)+g13(i,j,k)*Bprim(i,j,k,1)*Bprim(i,j,k,3)+ &
g23(i,j,k)*Bprim(i,j,k,2)*Bprim(i,j,k,3))
dens(i,j,k) = sdet*GRHydro_rho_min !/(1.d0+GRHydro_atmo_tolerance)
rho(i,j,k) = GRHydro_rho_min
scon(i,j,k,:) = 0.d0
vup(i,j,k,:) = 0.d0
w_lorentz(i,j,k) = 1.d0
if(evolve_temper.ne.0) then
! set hot atmosphere values
temperature(i,j,k) = grhydro_hot_atmo_temp
y_e(i,j,k) = grhydro_hot_atmo_Y_e
y_e_con(i,j,k) = y_e(i,j,k) * dens(i,j,k)
keytemp = 1
call EOS_Omni_press(GRHydro_eos_handle,keytemp,GRHydro_eos_rf_prec,n,&
rho(i,j,k),eps(i,j,k),temperature(i,j,k),y_e(i,j,k),&
press(i,j,k),keyerr,anyerr)
else
keytemp = 0
call EOS_Omni_press(GRHydro_polytrope_handle,keytemp,GRHydro_eos_rf_prec,n,&
rho(i,j,k),eps(i,j,k),xtemp,xye,press(i,j,k),keyerr,anyerr)
call EOS_Omni_EpsFromPress(GRHydro_polytrope_handle,keytemp,GRHydro_eos_rf_prec,n,&
rho(i,j,k),eps(i,j,k),xtemp,xye,press(i,j,k),eps(i,j,k),keyerr,anyerr)
endif
! w_lorentz=1, so the expression for tau reduces to:
!!$ tau does need to take into account the existing B-field
!!$ with w_lorentz=1, we find tau = sqrtdet*(rho (1+eps+b^2/2)) - dens [Press drops out]
tau(i,j,k) = sdet * (rho(i,j,k)*eps(i,j,k)+b2/2.0)
end if
end do
end do
end do
!$OMP END PARALLEL DO
return
#undef faulty_gxx
#undef faulty_gxy
#undef faulty_gxz
#undef faulty_gyy
#undef faulty_gyz
#undef faulty_gzz
#undef faulty_betax
#undef faulty_betay
#undef faulty_betaz
#undef faulty_vel
#undef faulty_Bvec
end subroutine Conservative2PrimitiveM
/*@@
@routine Conservative2PrimitiveBoundariesM
@date Sep 15, 2010
@author Scott Noble, Joshua Faber, Bruno Mundim, The GRHydro Developers
@desc
This routine is used only if the reconstruction is performed on the conserved variables.
It computes the primitive variables on cell boundaries.
Since reconstruction on conservative had not proved to be very successful,
some of the improvements to the C2P routines (e.g. the check about
whether a failure happens in a point that will be restriced anyway)
are not implemented here yet.
@enddesc
@calls
@calledby
@history
@endhistory
@@*/
subroutine Conservative2PrimitiveBoundsM(CCTK_ARGUMENTS)
use Con2PrimM_fortran_interfaces
implicit none
! save memory when MP is not used
! TARGET as to be before DECLARE_CCTK_ARGUMENTS for gcc 4.1
TARGET gaa, gab, gac, gbb, gbc, gcc
TARGET gxx, gxy, gxz, gyy, gyz, gzz
DECLARE_CCTK_ARGUMENTS
DECLARE_CCTK_PARAMETERS
DECLARE_CCTK_FUNCTIONS
integer :: i, j, k, itracer, nx, ny, nz
CCTK_REAL :: uxxl, uxyl, uxzl, uyyl, uyzl, uzzl,&
uxxr, uxyr, uxzr, uyyr, uyzr, uzzr, pmin(1), epsmin(1)
CCTK_REAL :: gxxl,gxyl,gxzl,gyyl,gyzl,gzzl,avg_detl,&
gxxr,gxyr,gxzr,gyyr,gyzr,gzzr,avg_detr
CCTK_REAL :: b2minus, b2plus, local_gam(1), local_pgam,local_K,scminus,scplus
CCTK_INT :: epsnegative
character(len=100) warnline
CCTK_REAL :: local_min_tracer
! begin EOS Omni vars
integer :: n,keytemp,anyerr,keyerr(1)
real*8 :: xpress(1),xtemp(1),xye(1),xeps(1),xrho(1),one(1)=1.0d0
! end EOS Omni vars
! save memory when MP is not used
CCTK_INT :: GRHydro_UseGeneralCoordinates
CCTK_REAL, DIMENSION(:,:,:), POINTER :: g11, g12, g13, g22, g23, g33
if (GRHydro_UseGeneralCoordinates(cctkGH).ne.0) then
g11 => gaa
g12 => gab
g13 => gac
g22 => gbb
g23 => gbc
g33 => gcc
else
g11 => gxx
g12 => gxy
g13 => gxz
g22 => gyy
g23 => gyz
g33 => gzz
end if
#define gxx faulty_gxx
#define gxy faulty_gxy
#define gxz faulty_gxz
#define gyy faulty_gyy
#define gyz faulty_gyz
#define gzz faulty_gzz
#define betax faulty_betax
#define betay faulty_betay
#define betaz faulty_betaz
#define vel faulty_vel
#define Bvec faulty_Bvec
! begin EOS Omni vars
n=1;keytemp=0;anyerr=0;keyerr(1)=0
xpress(1)=0.0d0;xeps(1)=0.0d0;xtemp(1)=0.0d0;xye(1)=0.0d0
! end EOS Omni vars
! this is a poly call
xrho(1)=GRHydro_rho_min
call EOS_Omni_press(GRHydro_polytrope_handle,keytemp,GRHydro_eos_rf_prec,n,&
xrho,one,xtemp,xye,pmin,keyerr,anyerr)
call EOS_Omni_EpsFromPress(GRHydro_polytrope_handle,keytemp,GRHydro_eos_rf_prec,n,&
xrho,epsmin,xtemp,xye,pmin,epsmin,keyerr,anyerr)
call EOS_Omni_press(GRHydro_eos_handle,keytemp,GRHydro_eos_rf_prec,n,&
one,one,xtemp,xye,local_gam,keyerr,anyerr)
local_gam=local_gam+1.0
nx = cctk_lsh(1)
ny = cctk_lsh(2)
nz = cctk_lsh(3)
if (use_min_tracer .ne. 0) then
local_min_tracer = min_tracer
else
local_min_tracer = 0d0
end if
do k = GRHydro_stencil, nz - GRHydro_stencil + 1
do j = GRHydro_stencil, ny - GRHydro_stencil + 1
do i = GRHydro_stencil, nx - GRHydro_stencil + 1
!do not compute if in atmosphere or in an excised region
if ((atmosphere_mask(i,j,k) .ne. 0) .or. &
GRHydro_enable_internal_excision /= 0 .and. (hydro_excision_mask(i,j,k) .ne. 0)) cycle
gxxl = 0.5d0 * (g11(i,j,k) + g11(i-xoffset,j-yoffset,k-zoffset))
gxyl = 0.5d0 * (g12(i,j,k) + g12(i-xoffset,j-yoffset,k-zoffset))
gxzl = 0.5d0 * (g13(i,j,k) + g13(i-xoffset,j-yoffset,k-zoffset))
gyyl = 0.5d0 * (g22(i,j,k) + g22(i-xoffset,j-yoffset,k-zoffset))
gyzl = 0.5d0 * (g23(i,j,k) + g23(i-xoffset,j-yoffset,k-zoffset))
gzzl = 0.5d0 * (g33(i,j,k) + g33(i-xoffset,j-yoffset,k-zoffset))
gxxr = 0.5d0 * (g11(i,j,k) + g11(i+xoffset,j+yoffset,k+zoffset))
gxyr = 0.5d0 * (g12(i,j,k) + g12(i+xoffset,j+yoffset,k+zoffset))
gxzr = 0.5d0 * (g13(i,j,k) + g13(i+xoffset,j+yoffset,k+zoffset))
gyyr = 0.5d0 * (g22(i,j,k) + g22(i+xoffset,j+yoffset,k+zoffset))
gyzr = 0.5d0 * (g23(i,j,k) + g23(i+xoffset,j+yoffset,k+zoffset))
gzzr = 0.5d0 * (g33(i,j,k) + g33(i+xoffset,j+yoffset,k+zoffset))
epsnegative = 0
avg_detl = SPATIAL_DETERMINANT(gxxl,gxyl,gxzl,gyyl, gyzl,gzzl)
avg_detr = SPATIAL_DETERMINANT(gxxr,gxyr,gxzr,gyyr, gyzr,gzzr)
call UpperMetric(uxxl,uxyl,uxzl,uyyl,uyzl,uzzl,avg_detl,&
gxxl,gxyl,gxzl,gyyl,gyzl,gzzl)
call UpperMetric(uxxr,uxyr,uxzr,uyyr,uyzr,uzzr,avg_detr,&
gxxr,gxyr,gxzr,gyyr,gyzr,gzzr)
!!$ Tracers get no update for MHD!
if (evolve_tracer .ne. 0) then
do itracer=1,number_of_tracers
call Con2Prim_ptTracer(cons_tracer(i,j,k,itracer), &
tracer(i,j,k,itracer), dens(i,j,k))
enddo
if (use_min_tracer .ne. 0) then
if (tracer(i,j,k,itracer) .le. local_min_tracer) then
tracer(i,j,k,itracer) = local_min_tracer
end if
end if
endif
if(evolve_Y_e.ne.0) then
Y_e(i,j,k) = Y_e_con(i,j,k) / dens(i,j,k)
endif
call GRHydro_Con2PrimM_pt(GRHydro_eos_handle, keytemp, GRHydro_eos_rf_prec, local_gam(1),densminus(i,j,k), &
sxminus(i,j,k),syminus(i,j,k),szminus(i,j,k), tauminus(i,j,k), &
Bconsxminus(i,j,k), Bconsyminus(i,j,k), Bconszminus(i,j,k), xye(1), xtemp(1), rhominus(i,j,k),&
velxminus(i,j,k),velyminus(i,j,k),velzminus(i,j,k),epsminus(i,j,k),pressminus(i,j,k),&
Bvecxminus(i,j,k), Bvecyminus(i,j,k), Bveczminus(i,j,k),b2minus, w_lorentzminus(i,j,k),&
gxxl,gxyl,gxzl,gyyl,gyzl,gzzl, &
uxxl,uxyl,uxzl,uyyl,uyzl,uzzl,avg_detl, &
epsnegative,GRHydro_C2P_failed(i,j,k))
if (epsnegative .ne. 0) then
!$OMP CRITICAL
call CCTK_WARN(GRHydro_NaN_verbose+2, 'Specific internal energy just went below 0, trying polytype!')
!$OMP END CRITICAL
xrho=10.0d0
call EOS_Omni_press(GRHydro_polytrope_handle,keytemp,GRHydro_eos_rf_prec,n,&
one,one,xtemp,xye,xpress,keyerr,anyerr)
local_K = xpress(1)
call EOS_Omni_press(GRHydro_polytrope_handle,keytemp,GRHydro_eos_rf_prec,n,&
xrho,one,xtemp,xye,xpress,keyerr,anyerr)
local_pgam=log(xpress(1)/local_K)/log(xrho(1))
scminus = local_K*densminus(i,j,k)
call GRHydro_Con2PrimM_Polytype_pt(GRHydro_eos_handle, local_pgam, densminus(i,j,k), &
sxminus(i,j,k),syminus(i,j,k),szminus(i,j,k), scminus, &
Bconsxminus(i,j,k), Bconsyminus(i,j,k), Bconszminus(i,j,k), rhominus(i,j,k),&
velxminus(i,j,k),velyminus(i,j,k),velzminus(i,j,k),epsminus(i,j,k),pressminus(i,j,k),&
Bvecxminus(i,j,k), Bvecyminus(i,j,k), Bveczminus(i,j,k),b2minus, w_lorentzminus(i,j,k),&
gxxl,gxyl,gxzl,gyyl,gyzl,gzzl, &
uxxl,uxyl,uxzl,uyyl,uyzl,uzzl,avg_detl, &
epsnegative,GRHydro_C2P_failed(i,j,k))
end if
if (epsminus(i,j,k) .lt. 0.0d0) then
if (GRHydro_reflevel.ge.GRHydro_c2p_warn_from_reflevel) then
!$OMP CRITICAL
call CCTK_WARN(1,'Con2Prim: stopping the code.')
call CCTK_WARN(1, ' specific internal energy just went below 0! ')
write(warnline,'(a28,i2)') 'on carpet reflevel: ',GRHydro_reflevel
call CCTK_WARN(1,warnline)
write(warnline,'(a20,3g16.7)') 'xyz location: ',&
x(i,j,k),y(i,j,k),z(i,j,k)
call CCTK_WARN(1,warnline)
write(warnline,'(a20,g16.7)') 'radius: ',r(i,j,k)
call CCTK_WARN(1,warnline)
write(warnline,'(a20,3g16.7)') 'velocities: ',&
velxminus(i,j,k),velyminus(i,j,k),velzminus(i,j,k)
call CCTK_WARN(1,warnline)
call CCTK_WARN(GRHydro_c2p_warnlevel, "Specific internal energy negative")
!$OMP END CRITICAL
exit
endif
endif
epsnegative = 0
call GRHydro_Con2PrimM_pt(GRHydro_eos_handle, keytemp, GRHydro_eos_rf_prec, local_gam(1),densplus(i,j,k), &
sxplus(i,j,k),syplus(i,j,k),szplus(i,j,k), tauplus(i,j,k), &
Bconsxplus(i,j,k), Bconsyplus(i,j,k), Bconszplus(i,j,k), xye(1), xtemp(1), rhoplus(i,j,k),&
velxplus(i,j,k),velyplus(i,j,k),velzplus(i,j,k),epsplus(i,j,k),pressplus(i,j,k),&
Bvecxplus(i,j,k), Bvecyplus(i,j,k), Bveczplus(i,j,k),b2plus, w_lorentzplus(i,j,k),&
gxxr,gxyr,gxzr,gyyr,gyzr,gzzr, &
uxxr,uxyr,uxzr,uyyr,uyzr,uzzr,avg_detr, &
epsnegative,GRHydro_C2P_failed(i,j,k))
if (epsnegative .ne. 0) then
!$OMP CRITICAL
call CCTK_WARN(GRHydro_NaN_verbose+2, 'Specific internal energy just went below 0, trying polytype!!')
!$OMP END CRITICAL
xrho=10.0d0
call EOS_Omni_press(GRHydro_polytrope_handle,keytemp,GRHydro_eos_rf_prec,n,&
one,one,xtemp,xye,xpress,keyerr,anyerr)
local_K = xpress(1)
call EOS_Omni_press(GRHydro_polytrope_handle,keytemp,GRHydro_eos_rf_prec,n,&
xrho,one,xtemp,xye,xpress,keyerr,anyerr)
local_pgam=log(xpress(1)/local_K)/log(xrho(1))
scplus = local_K*densplus(i,j,k)
call GRHydro_Con2PrimM_Polytype_pt(GRHydro_eos_handle, local_pgam, densplus(i,j,k), &
sxplus(i,j,k),syplus(i,j,k),szplus(i,j,k), scplus,&
Bconsxplus(i,j,k), Bconsyplus(i,j,k), Bconszplus(i,j,k), rhoplus(i,j,k),&
velxplus(i,j,k),velyplus(i,j,k),velzplus(i,j,k),epsplus(i,j,k),pressplus(i,j,k),&
Bvecxplus(i,j,k), Bvecyplus(i,j,k), Bveczplus(i,j,k),b2plus, w_lorentzplus(i,j,k),&
gxxr,gxyr,gxzr,gyyr,gyzr,gzzr, &
uxxr,uxyr,uxzr,uyyr,uyzr,uzzr,avg_detr, &
epsnegative,GRHydro_C2P_failed(i,j,k))
end if
if (epsplus(i,j,k) .lt. 0.0d0) then
if (GRHydro_reflevel.ge.GRHydro_c2p_warn_from_reflevel) then
!$OMP CRITICAL
call CCTK_WARN(1,'Con2Prim: stopping the code.')
call CCTK_WARN(1, ' specific internal energy just went below 0! ')
write(warnline,'(a28,i2)') 'on carpet reflevel: ',GRHydro_reflevel
call CCTK_WARN(1,warnline)
write(warnline,'(a20,3g16.7)') 'xyz location: ',&
x(i,j,k),y(i,j,k),z(i,j,k)
call CCTK_WARN(1,warnline)
write(warnline,'(a20,g16.7)') 'radius: ',r(i,j,k)
call CCTK_WARN(1,warnline)
write(warnline,'(a20,3g16.7)') 'velocities: ',&
velxplus(i,j,k),velyplus(i,j,k),velzplus(i,j,k)
call CCTK_WARN(1,warnline)
call CCTK_WARN(GRHydro_c2p_warnlevel, "Specific internal energy negative")
write(warnline,'(a25,4g15.6)') 'coordinates: x,y,z,r:',&
x(i,j,k),y(i,j,k),z(i,j,k),r(i,j,k)
call CCTK_WARN(1,warnline)
!$OMP END CRITICAL
endif
endif
end do
end do
end do
#undef faulty_gxx
#undef faulty_gxy
#undef faulty_gxz
#undef faulty_gyy
#undef faulty_gyz
#undef faulty_gzz
#undef faulty_betax
#undef faulty_betay
#undef faulty_betaz
#undef faulty_vel
#undef faulty_Bvec
end subroutine Conservative2PrimitiveBoundsM
/*@@
@routine Con2PrimPolytypeM
@date Sep 16, 2010
@author SCott Noble, Joshua Faber, Bruno Mundim, Ian Hawke
@desc
All routines below are identical to those above, just
specialised from polytropic type EOS.
@enddesc
@calls
@calledby
@history
@endhistory
@@*/
subroutine Conservative2PrimitivePolytypeM(CCTK_ARGUMENTS)
implicit none
! save memory when MP is not used
! TARGET as to be before DECLARE_CCTK_ARGUMENTS for gcc 4.1
TARGET gaa, gab, gac, gbb, gbc, gcc
TARGET gxx, gxy, gxz, gyy, gyz, gzz
TARGET lvel, vel
TARGET lBvec, Bvec
DECLARE_CCTK_ARGUMENTS
DECLARE_CCTK_PARAMETERS
integer :: i, j, k, itracer, nx, ny, nz
CCTK_REAL :: uxx, uxy, uxz, uyy, uyz, uzz, det,b2
CCTK_INT :: epsnegative
CCTK_REAL :: local_min_tracer, local_pgam,local_K, sc
! character(len=400) :: warnline
! begin EOS Omni vars
integer :: n,keytemp,anyerr,keyerr(1)
real*8 :: xpress,xtemp,xye,xeps,xrho
! end EOS Omni vars
! save memory when MP is not used
CCTK_INT :: GRHydro_UseGeneralCoordinates
CCTK_REAL, DIMENSION(:,:,:), POINTER :: g11, g12, g13, g22, g23, g33
CCTK_REAL, DIMENSION(:,:,:,:), POINTER :: vup, Bprim
if (GRHydro_UseGeneralCoordinates(cctkGH).ne.0) then
g11 => gaa
g12 => gab
g13 => gac
g22 => gbb
g23 => gbc
g33 => gcc
vup => lvel
Bprim => lBvec
else
g11 => gxx
g12 => gxy
g13 => gxz
g22 => gyy
g23 => gyz
g33 => gzz
vup => vel
Bprim => Bvec
end if
#define gxx faulty_gxx
#define gxy faulty_gxy
#define gxz faulty_gxz
#define gyy faulty_gyy
#define gyz faulty_gyz
#define gzz faulty_gzz
#define betax faulty_betax
#define betay faulty_betay
#define betaz faulty_betaz
#define vel faulty_vel
#define Bvec faulty_Bvec
! begin EOS Omni vars
n=1;keytemp=0;anyerr=0;keyerr(1)=0
xpress=0.0d0;xtemp=0.0d0;xye=0.0d0;xeps=0.0d0
! end EOS Omni vars
nx = cctk_lsh(1)
ny = cctk_lsh(2)
nz = cctk_lsh(3)
if (use_min_tracer .ne. 0) then
local_min_tracer = min_tracer
else
local_min_tracer = 0d0
end if
!!$ do k = GRHydro_stencil + 1, nz - GRHydro_stencil
!!$ do j = GRHydro_stencil + 1, ny - GRHydro_stencil
!!$ do i = GRHydro_stencil + 1, nx - GRHydro_stencil
!$OMP PARALLEL DO PRIVATE(i,j,k,itracer,&
!$OMP uxx, uxy, uxz, uyy, uyz, uzz, det, epsnegative, &
!$OMP b2, xrho, xpress, local_K, local_pgam, sc)
do k = 1, nz
do j = 1, ny
do i = 1, nx
!do not compute if in atmosphere or in an excised region
if ((atmosphere_mask(i,j,k) .ne. 0) .or. &
GRHydro_enable_internal_excision /= 0 .and. (hydro_excision_mask(i,j,k) .ne. 0)) cycle
det = SPATIAL_DETERMINANT(g11(i,j,k),g12(i,j,k),g13(i,j,k),g22(i,j,k),g23(i,j,k),g33(i,j,k))
call UpperMetric(uxx,uxy,uxz,uyy,uyz,uzz,det,&
g11(i,j,k),g12(i,j,k),g13(i,j,k),g22(i,j,k),&
g23(i,j,k),g33(i,j,k))
!!$ No MHD changes to tracers
if (evolve_tracer .ne. 0) then
do itracer=1,number_of_tracers
call Con2Prim_ptTracer(cons_tracer(i,j,k,itracer), &
tracer(i,j,k,itracer), dens(i,j,k))
enddo
if (use_min_tracer .ne. 0) then
if (tracer(i,j,k,itracer) .le. local_min_tracer) then
tracer(i,j,k,itracer) = local_min_tracer
end if
end if
endif
if(evolve_Y_e.ne.0) then
Y_e(i,j,k) = Y_e_con(i,j,k) / dens(i,j,k)
endif
xrho=10.0d0
call EOS_Omni_press(GRHydro_polytrope_handle,keytemp,GRHydro_eos_rf_prec,n,&
1.d0,1.0d0,xtemp,xye,xpress,keyerr,anyerr)
local_K = xpress
call EOS_Omni_press(GRHydro_polytrope_handle,keytemp,GRHydro_eos_rf_prec,n,&
xrho,1.0d0,xtemp,xye,xpress,keyerr,anyerr)
local_pgam=log(xpress/local_K)/log(xrho)
sc = local_K*dens(i,j,k)
call GRHydro_Con2PrimM_Polytype_pt(GRHydro_eos_handle, local_pgam, dens(i,j,k), &
scon(i,j,k,1),scon(i,j,k,2),scon(i,j,k,3), sc, &
Bcons(i,j,k,1), Bcons(i,j,k,2), Bcons(i,j,k,3), rho(i,j,k),&
vup(i,j,k,1),vup(i,j,k,2),vup(i,j,k,3),eps(i,j,k),press(i,j,k),&
Bprim(i,j,k,1), Bprim(i,j,k,2), Bprim(i,j,k,3),b2, w_lorentz(i,j,k),&
g11(i,j,k),g12(i,j,k),g13(i,j,k),g22(i,j,k),g23(i,j,k),g33(i,j,k), &
uxx,uxy,uxz,uyy,uyz,uzz,det, &
epsnegative,GRHydro_C2P_failed(i,j,k))
end do
end do
end do
!$OMP END PARALLEL DO
return
#undef faulty_gxx
#undef faulty_gxy
#undef faulty_gxz
#undef faulty_gyy
#undef faulty_gyz
#undef faulty_gzz
#undef faulty_betax
#undef faulty_betay
#undef faulty_betaz
#undef faulty_vel
#undef faulty_Bvec
end subroutine Conservative2PrimitivePolytypeM
/*@@
@routine Cons2PrimBoundsPolytypeM
@date Sep 16, 2010
@author Scott Noble, Joshua Faber, Bruno Mundim, The GRHydro Developers
@desc
This routine is used only if the reconstruction is performed on the conserved variables.
It computes the primitive variables on cell boundaries.
Since reconstruction on conservative had not proved to be very successful,
some of the improvements to the C2P routines (e.g. the check about
whether a failure happens in a point that will be restriced anyway) are not implemented here yet.
@enddesc
@calls
@calledby
@history
@endhistory
@@*/
subroutine Con2PrimBoundsPolytypeM(CCTK_ARGUMENTS)
implicit none
! save memory when MP is not used
! TARGET as to be before DECLARE_CCTK_ARGUMENTS for gcc 4.1
TARGET gaa, gab, gac, gbb, gbc, gcc
TARGET gxx, gxy, gxz, gyy, gyz, gzz
DECLARE_CCTK_ARGUMENTS
DECLARE_CCTK_PARAMETERS
integer :: i, j, k, nx, ny, nz
CCTK_REAL :: uxxl, uxyl, uxzl, uyyl, uyzl, uzzl,&
uxxr, uxyr, uxzr, uyyr, uyzr, uzzr
CCTK_REAL :: gxxl,gxyl,gxzl,gyyl,gyzl,gzzl,avg_detl,&
gxxr,gxyr,gxzr,gyyr,gyzr,gzzr,avg_detr
CCTK_REAL :: b2minus, b2plus
CCTK_INT :: epsnegative
CCTK_REAL :: local_pgam,local_K,scplus,scminus
! begin EOS Omni vars
integer :: n,keytemp,anyerr,keyerr(1)
real*8 :: xpress,xtemp,xye,xeps,xrho
! end EOS Omni vars
! save memory when MP is not used
CCTK_INT :: GRHydro_UseGeneralCoordinates
CCTK_REAL, DIMENSION(:,:,:), POINTER :: g11, g12, g13, g22, g23, g33
if (GRHydro_UseGeneralCoordinates(cctkGH).ne.0) then
g11 => gaa
g12 => gab
g13 => gac
g22 => gbb
g23 => gbc
g33 => gcc
else
g11 => gxx
g12 => gxy
g13 => gxz
g22 => gyy
g23 => gyz
g33 => gzz
end if
#define gxx faulty_gxx
#define gxy faulty_gxy
#define gxz faulty_gxz
#define gyy faulty_gyy
#define gyz faulty_gyz
#define gzz faulty_gzz
#define betax faulty_betax
#define betay faulty_betay
#define betaz faulty_betaz
#define vel faulty_vel
#define Bvec faulty_Bvec
! begin EOS Omni vars
n=1;keytemp=0;anyerr=0;keyerr(1)=0
xpress=0.0d0;xtemp=0.0d0;xye=0.0d0;xeps=0.0d0
! end EOS Omni vars
nx = cctk_lsh(1)
ny = cctk_lsh(2)
nz = cctk_lsh(3)
do k = GRHydro_stencil, nz - GRHydro_stencil + 1
do j = GRHydro_stencil, ny - GRHydro_stencil + 1
do i = GRHydro_stencil, nx - GRHydro_stencil + 1
!do not compute if in atmosphere or in an excised region
if ((atmosphere_mask(i,j,k) .ne. 0) .or. &
GRHydro_enable_internal_excision /= 0 .and. (hydro_excision_mask(i,j,k) .ne. 0)) cycle
gxxl = 0.5d0 * (g11(i,j,k) + g11(i-xoffset,j-yoffset,k-zoffset))
gxyl = 0.5d0 * (g12(i,j,k) + g12(i-xoffset,j-yoffset,k-zoffset))
gxzl = 0.5d0 * (g13(i,j,k) + g13(i-xoffset,j-yoffset,k-zoffset))
gyyl = 0.5d0 * (g22(i,j,k) + g22(i-xoffset,j-yoffset,k-zoffset))
gyzl = 0.5d0 * (g23(i,j,k) + g23(i-xoffset,j-yoffset,k-zoffset))
gzzl = 0.5d0 * (g33(i,j,k) + g33(i-xoffset,j-yoffset,k-zoffset))
gxxr = 0.5d0 * (g11(i,j,k) + g11(i+xoffset,j+yoffset,k+zoffset))
gxyr = 0.5d0 * (g12(i,j,k) + g12(i+xoffset,j+yoffset,k+zoffset))
gxzr = 0.5d0 * (g13(i,j,k) + g13(i+xoffset,j+yoffset,k+zoffset))
gyyr = 0.5d0 * (g22(i,j,k) + g22(i+xoffset,j+yoffset,k+zoffset))
gyzr = 0.5d0 * (g23(i,j,k) + g23(i+xoffset,j+yoffset,k+zoffset))
gzzr = 0.5d0 * (g33(i,j,k) + g33(i+xoffset,j+yoffset,k+zoffset))
avg_detl = SPATIAL_DETERMINANT(gxxl,gxyl,gxzl,gyyl, gyzl,gzzl)
avg_detr = SPATIAL_DETERMINANT(gxxr,gxyr,gxzr,gyyr, gyzr,gzzr)
call UpperMetric(uxxl,uxyl,uxzl,uyyl,uyzl,uzzl,avg_detl,&
gxxl,gxyl,gxzl,gyyl,gyzl,gzzl)
call UpperMetric(uxxr,uxyr,uxzr,uyyr,uyzr,uzzr,avg_detr,&
gxxr,gxyr,gxzr,gyyr,gyzr,gzzr)
xrho=10.0d0
call EOS_Omni_press(GRHydro_polytrope_handle,keytemp,GRHydro_eos_rf_prec,n,&
1.d0,1.0d0,xtemp,xye,xpress,keyerr,anyerr)
local_K = xpress
call EOS_Omni_press(GRHydro_polytrope_handle,keytemp,GRHydro_eos_rf_prec,n,&
xrho,1.0d0,xtemp,xye,xpress,keyerr,anyerr)
local_pgam=log(xpress/local_K)/log(xrho)
scminus = local_K*densminus(i,j,k)
scplus = local_K*densplus(i,j,k)
call GRHydro_Con2PrimM_Polytype_pt(GRHydro_eos_handle, local_pgam,densminus(i,j,k), &
sxminus(i,j,k),syminus(i,j,k),szminus(i,j,k), scminus,&
Bconsxminus(i,j,k), Bconsyminus(i,j,k), Bconszminus(i,j,k), rhominus(i,j,k),&
velxminus(i,j,k),velyminus(i,j,k),velzminus(i,j,k),epsminus(i,j,k),pressminus(i,j,k),&
Bvecxminus(i,j,k), Bvecyminus(i,j,k), Bveczminus(i,j,k),b2minus, w_lorentzminus(i,j,k),&
gxxl,gxyl,gxzl,gyyl,gyzl,gzzl, &
uxxl,uxyl,uxzl,uyyl,uyzl,uzzl,avg_detl, &
epsnegative,GRHydro_C2P_failed(i,j,k))
call GRHydro_Con2PrimM_Polytype_pt(GRHydro_eos_handle, local_pgam,densplus(i,j,k), &
sxplus(i,j,k),syplus(i,j,k),szplus(i,j,k), scplus,&
Bconsxplus(i,j,k), Bconsyplus(i,j,k), Bconszplus(i,j,k), rhoplus(i,j,k),&
velxplus(i,j,k),velyplus(i,j,k),velzplus(i,j,k),epsplus(i,j,k),pressplus(i,j,k),&
Bvecxplus(i,j,k), Bvecyplus(i,j,k),Bveczplus(i,j,k),b2plus,w_lorentzplus(i,j,k),&
gxxr,gxyr,gxzr,gyyr,gyzr,gzzr, &
uxxr,uxyr,uxzr,uyyr,uyzr,uzzr,avg_detr, &
epsnegative,GRHydro_C2P_failed(i,j,k))
end do
end do
end do
#undef faulty_gxx
#undef faulty_gxy
#undef faulty_gxz
#undef faulty_gyy
#undef faulty_gyz
#undef faulty_gzz
#undef faulty_betax
#undef faulty_betay
#undef faulty_betaz
#undef faulty_vel
#undef faulty_Bvec
end subroutine Con2PrimBoundsPolytypeM
!!$ Con2Prim_ptTracer, Con2Prim_BoundsTracer, and Con2Prim_ptBoundsTracer need not be rewritten!
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