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|
/*@@
@file GRHydro_UpdateMaskM.F90
@date Sep 2, 2010
@author
@desc
Alter the update terms if inside the atmosphere or excision region
@enddesc
@@*/
#include "cctk.h"
#include "cctk_Parameters.h"
#include "cctk_Arguments.h"
#include "GRHydro_Macros.h"
#include "SpaceMask.h"
#define velx(i,j,k) vup(i,j,k,1)
#define vely(i,j,k) vup(i,j,k,2)
#define velz(i,j,k) vup(i,j,k,3)
#define velx_p(i,j,k) vup_p(i,j,k,1)
#define vely_p(i,j,k) vup_p(i,j,k,2)
#define velz_p(i,j,k) vup_p(i,j,k,3)
#define velx_p_p(i,j,k) vup_p_p(i,j,k,1)
#define vely_p_p(i,j,k) vup_p_p(i,j,k,2)
#define velz_p_p(i,j,k) vup_p_p(i,j,k,3)
!!$ We don't need to adapt GRHydroUpdateAtmosphereMask, GRHydro_SetupMask, or
!!$ since we need to evolve Bvec in the atmosphere
!!$ In GRHydro_AtmosphereResetM, we just need to switch the P2C calls to MHD
/*@@
@routine GRHydro_AtmosphereResetM
@date Sep 2, 2010
@author Joshua Faber, Scott Noble, Bruno Mundim, Ian Hawke
@desc
After MoL has evolved, if a point is supposed to be reset then do so.
@enddesc
@calls
@calledby
@history
@endhistory
@@*/
subroutine GRHydro_AtmosphereResetM(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
CCTK_INT :: i, j, k
CCTK_REAL :: det
! begin EOS Omni vars
integer :: n,keytemp,anyerr,keyerr(1)
real*8 :: xpress,xeps,xtemp,xye
! 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
! begin EOS Omni vars
n=1;keytemp=0;anyerr=0;keyerr(1)=0
xpress=0.0d0;xye=0.0d0;xeps=0.0d0;xtemp=0.0d0
! end EOS Omni vars
! save memory when MP is not used
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 vel faulty_vel
#define Bvec faulty_Bvec
if (verbose.eq.1) call CCTK_INFO("Entering AtmosphereReset.")
!$OMP PARALLEL DO PRIVATE(det,keytemp,i,j,k,anyerr,keyerr)
do k = 1, cctk_lsh(3)
do j = 1, cctk_lsh(2)
do i = 1, cctk_lsh(1)
if (atmosphere_mask(i, j, k) .ne. 0) then
rho(i,j,k) = GRHydro_rho_min
vup(i,j,k,1) = 0.0d0
vup(i,j,k,2) = 0.0d0
vup(i,j,k,3) = 0.0d0
det = SPATIAL_DETERMINANT(g11(i,j,k), g12(i,j,k), g13(i,j,k), \
g22(i,j,k), g23(i,j,k), g33(i,j,k))
if(evolve_temper.ne.0) then
! set the temperature to be relatively low
temperature(i,j,k) = grhydro_hot_atmo_temp
y_e(i,j,k) = grhydro_hot_atmo_Y_e
keytemp = 1
call EOS_Omni_press(GRHydro_eos_handle,keytemp,GRHydro_eos_rf_prec,n,&
rho(i,j,k),eps(i,j,k),temperature(i,j,k),y_e(i,j,k),&
press(i,j,k),keyerr,anyerr)
call prim2conM_hot(GRHydro_eos_handle, GRHydro_reflevel,&
i,j,k,x(i,j,k),y(i,j,k),z(i,j,k),g11(i,j,k),&
g12(i,j,k),g13(i,j,k),g22(i,j,k),g23(i,j,k),g33(i,j,k),&
det, dens(i,j,k),scon(i,j,k,1),scon(i,j,k,2),scon(i,j,k,3),&
tau(i,j,k),Bcons(i,j,k,1),Bcons(i,j,k,2),Bcons(i,j,k,3),&
rho(i,j,k),vup(i,j,k,1),vup(i,j,k,2),vup(i,j,k,3),&
eps(i,j,k),press(i,j,k),Bprim(i,j,k,1), &
Bprim(i,j,k,2), Bprim(i,j,k,3), w_lorentz(i,j,k),&
temperature(i,j,k),y_e(i,j,k))
y_e_con(i,j,k) = dens(i,j,k) * y_e(i,j,k)
else
call prim2conpolytypeM(GRHydro_polytrope_handle, &
g11(i,j,k), g12(i,j,k), g13(i,j,k), &
g22(i,j,k), g23(i,j,k), g33(i,j,k), det, &
dens(i,j,k), scon(i,j,k,1), scon(i,j,k,2), scon(i,j,k,3), &
tau(i,j,k), Bcons(i,j,k,1),Bcons(i,j,k,2),Bcons(i,j,k,3),&
rho(i,j,k), vup(i,j,k,1), vup(i,j,k,2), &
vup(i,j,k,3), eps(i,j,k), press(i,j,k), &
Bprim(i,j,k,1),Bprim(i,j,k,2),Bprim(i,j,k,3),w_lorentz(i,j,k))
if (wk_atmosphere .eq. 0) then
atmosphere_mask(i, j, k) = 0
atmosphere_mask_real(i, j, k) = 0
end if
end if
endif
end do
end do
end do
!$OMP END PARALLEL DO
!!$ call GRHydro_BoundariesM(CCTK_PASS_FTOF)
#undef faulty_gxx
#undef faulty_gxy
#undef faulty_gxz
#undef faulty_gyy
#undef faulty_gyz
#undef faulty_gzz
#undef faulty_vel
#undef faulty_Bvec
end subroutine GRHydro_AtmosphereResetM
subroutine GRHydro_InitialAtmosphereResetM(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
TARGET gaa_p, gab_p, gac_p, gbb_p, gbc_p, gcc_p
TARGET gxx_p, gxy_p, gxz_p, gyy_p, gyz_p, gzz_p
TARGET lvel_p, vel_p
TARGET lBvec_p, Bvec_p
TARGET gaa_p_p, gab_p_p, gac_p_p, gbb_p_p, gbc_p_p, gcc_p_p
TARGET gxx_p_p, gxy_p_p, gxz_p_p, gyy_p_p, gyz_p_p, gzz_p_p
TARGET lvel_p_p, vel_p_p
TARGET lBvec_p_p, Bvec_p_p
DECLARE_CCTK_ARGUMENTS
DECLARE_CCTK_PARAMETERS
CCTK_INT :: i, j, k
CCTK_REAL :: det
CCTK_REAL :: rho_min
CCTK_INT :: eos_handle
! 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
CCTK_REAL, DIMENSION(:,:,:), POINTER :: g11_p, g12_p, g13_p, g22_p, &
g23_p, g33_p
CCTK_REAL, DIMENSION(:,:,:,:), POINTER :: vup_p, Bprim_p
CCTK_REAL, DIMENSION(:,:,:), POINTER :: g11_p_p, g12_p_p, g13_p_p, g22_p_p, &
g23_p_p, g33_p_p
CCTK_REAL, DIMENSION(:,:,:,:), POINTER :: vup_p_p, Bprim_p_p
! begin EOS Omni vars
integer :: n,keytemp,anyerr,keyerr(1)
real*8 :: xpress,xeps,xtemp,xye
n=1;keytemp=0;anyerr=0;keyerr(1)=0
xpress=0.0d0;xye=0.0d0;xeps=0.0d0;xtemp=0.0d0
! end EOS Omni vars
! save memory when MP is not used
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
if (timelevels .gt. 1) then
if (GRHydro_UseGeneralCoordinates(cctkGH).ne.0) then
g11_p => gaa_p
g12_p => gab_p
g13_p => gac_p
g22_p => gbb_p
g23_p => gbc_p
g33_p => gcc_p
vup_p => lvel_p
Bprim_p => Bvec_p
else
g11_p => gxx_p
g12_p => gxy_p
g13_p => gxz_p
g22_p => gyy_p
g23_p => gyz_p
g33_p => gzz_p
vup_p => vel_p
Bprim_p => Bvec_p
end if
end if
if (timelevels .gt. 2) then
if (GRHydro_UseGeneralCoordinates(cctkGH).ne.0) then
g11_p_p => gaa_p_p
g12_p_p => gab_p_p
g13_p_p => gac_p_p
g22_p_p => gbb_p_p
g23_p_p => gbc_p_p
g33_p_p => gcc_p_p
vup_p_p => lvel_p_p
Bprim_p_p => lBvec_p_p
else
g11_p_p => gxx_p_p
g12_p_p => gxy_p_p
g13_p_p => gxz_p_p
g22_p_p => gyy_p_p
g23_p_p => gyz_p_p
g33_p_p => gzz_p_p
vup_p_p => vel_p_p
Bprim_p_p => Bvec_p_p
end if
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 vel faulty_vel
#define Bvec faulty_Bvec
#define gxx_p faulty_gxx_p
#define gxy_p faulty_gxy_p
#define gxz_p faulty_gxz_p
#define gyy_p faulty_gyy_p
#define gyz_p faulty_gyz_p
#define gzz_p faulty_gzz_p
#define vel_p faulty_vel_p
#define Bvec_p faulty_Bvec_p
#define gxx_p_p faulty_gxx_p_p
#define gxy_p_p faulty_gxy_p_p
#define gxz_p_p faulty_gxz_p_p
#define gyy_p_p faulty_gyy_p_p
#define gyz_p_p faulty_gyz_p_p
#define gzz_p_p faulty_gzz_p_p
#define vel_p_p faulty_vel_p_p
#define Bvec_p_p faulty_Bvec_p_p
eos_handle = GRHydro_polytrope_handle
rho_min = GRHydro_rho_min
if (initial_atmosphere_factor .gt. 0) then
rho_min = rho_min * initial_atmosphere_factor
endif
!$OMP PARALLEL DO PRIVATE(det,keytemp,i,j,k,anyerr,keyerr)
do k = 1, cctk_lsh(3)
do j = 1, cctk_lsh(2)
do i = 1, cctk_lsh(1)
if (rho(i,j,k) .le. rho_min .or. &
(GRHydro_enable_internal_excision .ne. 0 .and. &
hydro_excision_mask(i,j,k) .ne. 0) ) then
rho(i,j,k) = rho_min
vup(i,j,k,1) = 0.0d0
vup(i,j,k,2) = 0.0d0
vup(i,j,k,3) = 0.0d0
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))
if(evolve_temper.ne.0) then
! ! set the temperature to be relatively low
temperature(i,j,k) = grhydro_hot_atmo_temp
y_e(i,j,k) = grhydro_hot_atmo_Y_e
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)
call prim2conM_hot(GRHydro_eos_handle, GRHydro_reflevel,&
i,j,k,x(i,j,k),y(i,j,k),z(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),&
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),&
temperature(i,j,k),y_e(i,j,k))
y_e_con(i,j,k) = dens(i,j,k) * y_e(i,j,k)
else
keytemp = 0
call EOS_Omni_press(eos_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(eos_handle,keytemp,GRHydro_eos_rf_prec,n,&
rho(i,j,k),xeps,xtemp,xye,press(i,j,k),eps(i,j,k),keyerr,anyerr)
call prim2conpolytypeM(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))
end if
end if
if (timelevels .gt. 1) then
if (rho_p(i,j,k) .le. rho_min) then
rho_p(i,j,k) = rho_min
vup_p(i,j,k,1) = 0.0d0
vup_p(i,j,k,2) = 0.0d0
vup_p(i,j,k,3) = 0.0d0
det = SPATIAL_DETERMINANT(g11_p(i,j,k), g12_p(i,j,k), g13_p(i,j,k), \
g22_p(i,j,k), g23_p(i,j,k), g33_p(i,j,k))
if(evolve_temper.ne.0) then
! ! set the temperature to be relatively low
temperature_p(i,j,k) = grhydro_hot_atmo_temp
y_e_p(i,j,k) = grhydro_hot_atmo_Y_e
keytemp = 1
call EOS_Omni_press(GRHydro_eos_handle,keytemp,GRHydro_eos_rf_prec,n,&
rho_p(i,j,k),eps_p(i,j,k),temperature_p(i,j,k),y_e_p(i,j,k),&
press_p(i,j,k),keyerr,anyerr)
call prim2conM_hot(GRHydro_eos_handle, GRHydro_reflevel,&
i,j,k,x(i,j,k),y(i,j,k),z(i,j,k),g11_p(i,j,k),&
g12_p(i,j,k),g13_p(i,j,k),g22_p(i,j,k),g23_p(i,j,k),g33_p(i,j,k),&
det, dens_p(i,j,k),scon_p(i,j,k,1),scon_p(i,j,k,2),scon_p(i,j,k,3),&
tau_p(i,j,k),Bcons_p(i,j,k,1),Bcons_p(i,j,k,2),Bcons_p(i,j,k,3),&
rho_p(i,j,k),vup_p(i,j,k,1),vup_p(i,j,k,2),vup_p(i,j,k,3),&
eps_p(i,j,k),press_p(i,j,k),Bprim_p(i,j,k,1), &
Bprim_p(i,j,k,2), Bprim_p(i,j,k,3), w_lorentz_p(i,j,k),&
temperature_p(i,j,k),y_e_p(i,j,k))
y_e_con_p(i,j,k) = dens_p(i,j,k) * y_e_p(i,j,k)
else
keytemp = 0
call EOS_Omni_press(eos_handle,keytemp,GRHydro_eos_rf_prec,n,&
rho_p(i,j,k),eps_p(i,j,k),xtemp,xye,press_p(i,j,k),keyerr,anyerr)
call EOS_Omni_EpsFromPress(eos_handle,keytemp,GRHydro_eos_rf_prec,n,&
rho_p(i,j,k),xeps,xtemp,xye,press_p(i,j,k),eps_p(i,j,k),keyerr,anyerr)
call prim2conpolytypeM(eos_handle, &
g11_p(i,j,k), g12_p(i,j,k), g13_p(i,j,k), &
g22_p(i,j,k), g23_p(i,j,k), g33_p(i,j,k), det, &
dens_p(i,j,k), scon_p(i,j,k,1), scon_p(i,j,k,2), scon_p(i,j,k,3), &
tau_p(i,j,k), Bcons_p(i,j,k,1),Bcons_p(i,j,k,2),Bcons_p(i,j,k,3),&
rho_p(i,j,k), vup_p(i,j,k,1), vup_p(i,j,k,2), &
vup_p(i,j,k,3), eps_p(i,j,k), press_p(i,j,k), &
Bprim_p(i,j,k,1),Bprim_p(i,j,k,2),Bprim_p(i,j,k,3),w_lorentz_p(i,j,k))
end if
end if
end if
if (timelevels .gt. 2) then
if (rho_p_p(i,j,k) .le. rho_min) then
rho_p_p(i,j,k) = rho_min
vup_p_p(i,j,k,1) = 0.0d0
vup_p_p(i,j,k,2) = 0.0d0
vup_p_p(i,j,k,3) = 0.0d0
det = SPATIAL_DETERMINANT(g11_p_p(i,j,k), g12_p_p(i,j,k), g13_p_p(i,j,k), \
g22_p_p(i,j,k), g23_p_p(i,j,k), g33_p_p(i,j,k))
if(evolve_temper.ne.0) then
! ! set the temperature to be relatively low
temperature_p_p(i,j,k) = grhydro_hot_atmo_temp
y_e_p_p(i,j,k) = grhydro_hot_atmo_Y_e
keytemp = 1
call EOS_Omni_press(GRHydro_eos_handle,keytemp,GRHydro_eos_rf_prec,n,&
rho_p_p(i,j,k),eps_p_p(i,j,k),temperature_p_p(i,j,k),y_e_p_p(i,j,k),&
press_p_p(i,j,k),keyerr,anyerr)
call prim2conM_hot(GRHydro_eos_handle, GRHydro_reflevel,&
i,j,k,x(i,j,k),y(i,j,k),z(i,j,k),g11_p_p(i,j,k),&
g12_p_p(i,j,k),g13_p_p(i,j,k),g22_p_p(i,j,k),g23_p_p(i,j,k),g33_p_p(i,j,k),&
det, dens_p_p(i,j,k),scon_p_p(i,j,k,1),scon_p_p(i,j,k,2),scon_p_p(i,j,k,3),&
tau_p_p(i,j,k),Bcons_p_p(i,j,k,1),Bcons_p_p(i,j,k,2),Bcons_p_p(i,j,k,3),&
rho_p_p(i,j,k),vup_p_p(i,j,k,1),vup_p_p(i,j,k,2),vup_p_p(i,j,k,3),&
eps_p_p(i,j,k),press_p_p(i,j,k),Bprim_p_p(i,j,k,1), &
Bprim_p_p(i,j,k,2), Bprim_p_p(i,j,k,3), w_lorentz_p_p(i,j,k),&
temperature_p_p(i,j,k),y_e_p_p(i,j,k))
y_e_con_p_p(i,j,k) = dens_p_p(i,j,k) * y_e_p_p(i,j,k)
else
keytemp = 0
call EOS_Omni_press(eos_handle,keytemp,GRHydro_eos_rf_prec,n,&
rho_p_p(i,j,k),eps_p_p(i,j,k),xtemp,xye,press_p_p(i,j,k),keyerr,anyerr)
call EOS_Omni_EpsFromPress(eos_handle,keytemp,GRHydro_eos_rf_prec,n,&
rho_p_p(i,j,k),xeps,xtemp,xye,press_p_p(i,j,k),eps_p_p(i,j,k),keyerr,anyerr)
call prim2conpolytypeM(eos_handle, &
g11_p_p(i,j,k), g12_p_p(i,j,k), g13_p_p(i,j,k), &
g22_p_p(i,j,k), g23_p_p(i,j,k), g33_p_p(i,j,k), det, &
dens_p_p(i,j,k), scon_p_p(i,j,k,1), scon_p_p(i,j,k,2), scon_p_p(i,j,k,3), &
tau_p_p(i,j,k), Bcons_p_p(i,j,k,1),Bcons_p_p(i,j,k,2),Bcons_p_p(i,j,k,3),&
rho_p_p(i,j,k), vup_p_p(i,j,k,1), vup_p_p(i,j,k,2), &
vup_p_p(i,j,k,3), eps_p_p(i,j,k), press_p_p(i,j,k), &
Bprim_p_p(i,j,k,1),Bprim_p_p(i,j,k,2),Bprim_p_p(i,j,k,3),w_lorentz_p_p(i,j,k))
end if
end if
end if
end do
end do
end do
!$OMP END PARALLEL DO
write(*,*) " GRHydro_InitialAtmosphereReset"
!!$ call GRHydro_BoundariesM(CCTK_PASS_FTOF)
#undef faulty_gxx
#undef faulty_gxy
#undef faulty_gxz
#undef faulty_gyy
#undef faulty_gyz
#undef faulty_gzz
#undef faulty_vel
#undef faulty_Bvec
#undef faulty_gxx_p
#undef faulty_gxy_p
#undef faulty_gxz_p
#undef faulty_gyy_p
#undef faulty_gyz_p
#undef faulty_gzz_p
#undef faulty_vel_p
#undef faulty_Bvec_p
#undef faulty_gxx_p_p
#undef faulty_gxy_p_p
#undef faulty_gxz_p_p
#undef faulty_gyy_p_p
#undef faulty_gyz_p_p
#undef faulty_gzz_p_p
#undef faulty_vel_p_p
#undef faulty_Bvec_p_p
end subroutine GRHydro_InitialAtmosphereResetM
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