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|
/*@@
@file GRHydro_MP5Reconstruct_drv.F90
@date Fri Jan 3 2013
@author Christian Reisswig, Bruno C. Mundim, Joshua Faber, Christian D. Ott
@desc
Driver routine to perform the MP5 reconstruction.
@enddesc
@@*/
#include "cctk.h"
#include "cctk_Arguments.h"
#include "cctk_Parameters.h"
#include "cctk_Functions.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 sx(i,j,k) scon(i,j,k,1)
#define sy(i,j,k) scon(i,j,k,2)
#define sz(i,j,k) scon(i,j,k,3)
#define Bvecx(i,j,k) Bprim(i,j,k,1)
#define Bvecy(i,j,k) Bprim(i,j,k,2)
#define Bvecz(i,j,k) Bprim(i,j,k,3)
#define Bconsx(i,j,k) Bcons(i,j,k,1)
#define Bconsy(i,j,k) Bcons(i,j,k,2)
#define Bconsz(i,j,k) Bcons(i,j,k,3)
/*@@
@routine GRHydro_MP5Reconstruct_drv
@date Fri Jan 3 2013
@author Christian Reisswig, Luca Baiotti, Ian Hawke, Bruno C. Mundim, Joshua Faber, Christian D. Ott
@desc
A driver routine to do MP5 reconstruction.
@enddesc
@calls
@calledby
@history
@endhistory
@@*/
subroutine GRHydro_MP5Reconstruct_drv(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 vel, lvel
TARGET Bvec, lBvec
DECLARE_CCTK_ARGUMENTS
DECLARE_CCTK_PARAMETERS
DECLARE_CCTK_FUNCTIONS
integer :: nx, ny, nz, i, j, k, itracer
logical, dimension(:,:,:), allocatable :: trivial_rp
CCTK_INT :: type_bitsx, trivialx, not_trivialx, &
&type_bitsy, trivialy, not_trivialy, &
&type_bitsz, trivialz, not_trivialz
CCTK_REAL, dimension(:,:,:),allocatable :: &
&dum, dump, dumm
CCTK_INT :: ierr
! 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
allocate(trivial_rp(cctk_lsh(1),cctk_lsh(2),cctk_lsh(3)),STAT=ierr)
if (ierr .ne. 0) then
call CCTK_WARN(0, "Allocation problems with trivial_rp")
end if
!!$ The dum variables are used as dummies if MHD on but divergence cleaning off
allocate(dum(cctk_lsh(1),cctk_lsh(2),cctk_lsh(3)),&
dump(cctk_lsh(1),cctk_lsh(2),cctk_lsh(3)),&
dumm(cctk_lsh(1),cctk_lsh(2),cctk_lsh(3)),STAT=ierr)
if (ierr .ne. 0) then
call CCTK_WARN(0, "Allocation problems with dum dump dumm")
end if
call SpaceMask_GetTypeBits(type_bitsx, "Hydro_RiemannProblemX")
call SpaceMask_GetStateBits(trivialx, "Hydro_RiemannProblemX", &
&"trivial")
call SpaceMask_GetStateBits(not_trivialx, "Hydro_RiemannProblemX", &
&"not_trivial")
call SpaceMask_GetTypeBits(type_bitsy, "Hydro_RiemannProblemY")
call SpaceMask_GetStateBits(trivialy, "Hydro_RiemannProblemY", &
&"trivial")
call SpaceMask_GetStateBits(not_trivialy, "Hydro_RiemannProblemY", &
&"not_trivial")
call SpaceMask_GetTypeBits(type_bitsz, "Hydro_RiemannProblemZ")
call SpaceMask_GetStateBits(trivialz, "Hydro_RiemannProblemZ", &
&"trivial")
call SpaceMask_GetStateBits(not_trivialz, "Hydro_RiemannProblemZ", &
&"not_trivial")
nx = cctk_lsh(1)
ny = cctk_lsh(2)
nz = cctk_lsh(3)
!!$ Initialize variables that store reconstructed quantities:
!$OMP PARALLEL DO PRIVATE(i,j,k)
do k=1,cctk_lsh(3)
do j=1,cctk_lsh(2)
do i=1,cctk_lsh(1)
trivial_rp(i,j,k) = .false.
rhoplus(i,j,k) = 0.0d0
rhominus(i,j,k)= 0.0d0
epsplus(i,j,k) = 0.0d0
epsminus(i,j,k) = 0.0d0
velxplus(i,j,k) = 0.0d0
velxminus(i,j,k) = 0.0d0
velyplus(i,j,k) = 0.0d0
velyminus(i,j,k) = 0.0d0
velzplus(i,j,k) = 0.0d0
velzminus(i,j,k) = 0.0d0
if(evolve_mhd.ne.0) then
Bvecxplus(i,j,k) = 0.0d0
Bvecxminus(i,j,k) = 0.0d0
Bvecyplus(i,j,k) = 0.0d0
Bvecyminus(i,j,k) = 0.0d0
Bveczplus(i,j,k) = 0.0d0
Bveczminus(i,j,k) = 0.0d0
if(clean_divergence.ne.0) then
psidcplus(i,j,k) = 0.0d0
psidcminus(i,j,k) = 0.0d0
endif
endif
if (evolve_entropy .ne. 0) then
entropyplus(i,j,k) = 0.0d0
entropyminus(i,j,k) = 0.0d0
endif
if (evolve_tracer .ne. 0) then
tracerplus(i,j,k,:) = 0.0d0
tracerminus(i,j,k,:) = 0.0d0
endif
if (evolve_Y_e .ne. 0) then
Y_e_plus(i,j,k) = 0.0d0
Y_e_minus(i,j,k) = 0.0d0
endif
if (evolve_temper .ne. 0) then
! set this to cell center value to have
! good initial guesses at interfaces
! in case we don't reconstruct temp
tempplus(i,j,k) = temperature(i,j,k)
tempminus(i,j,k) = temperature(i,j,k)
endif
enddo
enddo
enddo
!$OMP END PARALLEL DO
!!$ MP5 starts:
if (evolve_tracer .ne. 0) then
do itracer=1,number_of_tracers
call tvdreconstruct(nx, ny, nz, xoffset, yoffset, zoffset, &
tracer(:,:,:,itracer), tracerplus(:,:,:,itracer), &
tracerminus(:,:,:,itracer), trivial_rp, &
hydro_excision_mask)
enddo
end if
if (flux_direction == 1) then
! constraint transport needs to be able to average fluxes in the directions
! other that flux_direction, which in turn need the primitives on interfaces
!$OMP PARALLEL DO PRIVATE(i, j, k)
do k = GRHydro_stencil, cctk_lsh(3) - GRHydro_stencil + 1 + transport_constraints
do j = GRHydro_stencil, cctk_lsh(2) - GRHydro_stencil + 1 + transport_constraints
if (CCTK_EQUALS(recon_vars,"primitive")) then
call GRHydro_MP5Reconstruct1d(cctk_lsh(1),&
rho(:,j,k),rhominus(:,j,k),rhoplus(:,j,k),&
trivial_rp(:,j,k), hydro_excision_mask(:,j,k))
if (reconstruct_Wv.eq.0) then
call GRHydro_MP5Reconstruct1d(cctk_lsh(1),&
velx(:,j,k),velxminus(:,j,k),velxplus(:,j,k),&
trivial_rp(:,j,k), hydro_excision_mask(:,j,k))
call GRHydro_MP5Reconstruct1d(cctk_lsh(1),&
vely(:,j,k),velyminus(:,j,k),velyplus(:,j,k),&
trivial_rp(:,j,k), hydro_excision_mask(:,j,k))
call GRHydro_MP5Reconstruct1d(cctk_lsh(1),&
velz(:,j,k),velzminus(:,j,k),velzplus(:,j,k),&
trivial_rp(:,j,k), hydro_excision_mask(:,j,k))
else
call GRHydro_MP5Reconstruct1d(cctk_lsh(1),&
w_lorentz(:,j,k)*velx(:,j,k),velxminus(:,j,k),velxplus(:,j,k),&
trivial_rp(:,j,k), hydro_excision_mask(:,j,k))
call GRHydro_MP5Reconstruct1d(cctk_lsh(1),&
w_lorentz(:,j,k)*vely(:,j,k),velyminus(:,j,k),velyplus(:,j,k),&
trivial_rp(:,j,k), hydro_excision_mask(:,j,k))
call GRHydro_MP5Reconstruct1d(cctk_lsh(1),&
w_lorentz(:,j,k)*velz(:,j,k),velzminus(:,j,k),velzplus(:,j,k),&
trivial_rp(:,j,k), hydro_excision_mask(:,j,k))
call undo_Wv(nx, velxminus(:,j,k), velyminus(:,j,k), velzminus(:,j,k),&
velxplus(:,j,k),velyplus(:,j,k),velzplus(:,j,k),&
g11(:,j,k),g12(:,j,k),g13(:,j,k),g22(:,j,k),g23(:,j,k),g33(:,j,k))
endif
call GRHydro_MP5Reconstruct1d(cctk_lsh(1),&
eps(:,j,k),epsminus(:,j,k),epsplus(:,j,k),&
trivial_rp(:,j,k), hydro_excision_mask(:,j,k))
if(evolve_Y_e.ne.0) then
call GRHydro_MP5Reconstruct1d(cctk_lsh(1),&
Y_e(:,j,k),Y_e_minus(:,j,k),Y_e_plus(:,j,k),&
trivial_rp(:,j,k), hydro_excision_mask(:,j,k))
endif
if(evolve_temper.ne.0.and.reconstruct_temper.ne.0) then
call GRHydro_MP5Reconstruct1d(cctk_lsh(1),&
temperature(:,j,k),tempminus(:,j,k),tempplus(:,j,k),&
trivial_rp(:,j,k), hydro_excision_mask(:,j,k))
endif
if(evolve_mhd.ne.0) then
call GRHydro_MP5Reconstruct1d(cctk_lsh(1),&
Bvecx(:,j,k),Bvecxminus(:,j,k),Bvecxplus(:,j,k),&
trivial_rp(:,j,k), hydro_excision_mask(:,j,k))
call GRHydro_MP5Reconstruct1d(cctk_lsh(1),&
Bvecy(:,j,k),Bvecyminus(:,j,k),Bvecyplus(:,j,k),&
trivial_rp(:,j,k), hydro_excision_mask(:,j,k))
call GRHydro_MP5Reconstruct1d(cctk_lsh(1),&
Bvecz(:,j,k),Bveczminus(:,j,k),Bveczplus(:,j,k),&
trivial_rp(:,j,k), hydro_excision_mask(:,j,k))
endif
if (evolve_entropy .ne. 0) then
call GRHydro_MP5Reconstruct1d(cctk_lsh(1),&
entropy(:,j,k),entropyminus(:,j,k),entropyplus(:,j,k),&
trivial_rp(:,j,k), hydro_excision_mask(:,j,k))
endif
else if (CCTK_EQUALS(recon_vars,"conservative")) then
call GRHydro_MP5Reconstruct1d(cctk_lsh(1),&
dens(:,j,k),densminus(:,j,k),densplus(:,j,k),&
trivial_rp(:,j,k), hydro_excision_mask(:,j,k))
call GRHydro_MP5Reconstruct1d(cctk_lsh(1),&
sx(:,j,k),sxminus(:,j,k),sxplus(:,j,k),&
trivial_rp(:,j,k), hydro_excision_mask(:,j,k))
call GRHydro_MP5Reconstruct1d(cctk_lsh(1),&
sy(:,j,k),syminus(:,j,k),syplus(:,j,k),&
trivial_rp(:,j,k), hydro_excision_mask(:,j,k))
call GRHydro_MP5Reconstruct1d(cctk_lsh(1),&
sz(:,j,k),szminus(:,j,k),szplus(:,j,k),&
trivial_rp(:,j,k), hydro_excision_mask(:,j,k))
call GRHydro_MP5Reconstruct1d(cctk_lsh(1),&
tau(:,j,k),tauminus(:,j,k),tauplus(:,j,k),&
trivial_rp(:,j,k), hydro_excision_mask(:,j,k))
if(evolve_mhd.ne.0) then
call GRHydro_MP5Reconstruct1d(cctk_lsh(1),&
Bconsx(:,j,k),Bconsxminus(:,j,k),Bconsxplus(:,j,k),&
trivial_rp(:,j,k), hydro_excision_mask(:,j,k))
call GRHydro_MP5Reconstruct1d(cctk_lsh(1),&
Bconsy(:,j,k),Bconsyminus(:,j,k),Bconsyplus(:,j,k),&
trivial_rp(:,j,k), hydro_excision_mask(:,j,k))
call GRHydro_MP5Reconstruct1d(cctk_lsh(1),&
Bconsz(:,j,k),Bconszminus(:,j,k),Bconszplus(:,j,k),&
trivial_rp(:,j,k), hydro_excision_mask(:,j,k))
endif
if (evolve_entropy .ne. 0) then
call GRHydro_MP5Reconstruct1d(cctk_lsh(1),&
entropycons(:,j,k),entropyconsminus(:,j,k),entropyconsplus(:,j,k),&
trivial_rp(:,j,k), hydro_excision_mask(:,j,k))
endif
else
!$OMP CRITICAL
call CCTK_WARN(0, "Variable type to reconstruct not recognized.")
!$OMP END CRITICAL
end if
if(evolve_mhd.ne.0.and.clean_divergence.ne.0) then
call GRHydro_MP5Reconstruct1d(cctk_lsh(1),&
psidc(:,j,k),psidcminus(:,j,k),psidcplus(:,j,k),&
trivial_rp(:,j,k), hydro_excision_mask(:,j,k))
endif
do i = 1, cctk_lsh(1)
if (trivial_rp(i,j,k)) then
SpaceMask_SetStateBitsF90(space_mask, i, j, k, type_bitsx, trivialx)
else
SpaceMask_SetStateBitsF90(space_mask, i, j, k, type_bitsx, not_trivialx)
end if
end do
end do
end do
!$OMP END PARALLEL DO
else if (flux_direction == 2) then
! constraint transport needs to be able to average fluxes in the directions
! other that flux_direction, which in turn need the primitives on interfaces
!$OMP PARALLEL DO PRIVATE(i, j, k)
do k = GRHydro_stencil, cctk_lsh(3) - GRHydro_stencil + 1 + transport_constraints
do j = GRHydro_stencil, cctk_lsh(1) - GRHydro_stencil + 1 + transport_constraints
if (CCTK_EQUALS(recon_vars,"primitive")) then
call GRHydro_MP5Reconstruct1d(cctk_lsh(2),&
rho(j,:,k),rhominus(j,:,k),rhoplus(j,:,k),&
trivial_rp(j,:,k), hydro_excision_mask(j,:,k))
if (reconstruct_Wv.eq.0) then
call GRHydro_MP5Reconstruct1d(cctk_lsh(2),&
velx(j,:,k),velxminus(j,:,k),velxplus(j,:,k),&
trivial_rp(j,:,k), hydro_excision_mask(j,:,k))
call GRHydro_MP5Reconstruct1d(cctk_lsh(2),&
vely(j,:,k),velyminus(j,:,k),velyplus(j,:,k),&
trivial_rp(j,:,k), hydro_excision_mask(j,:,k))
call GRHydro_MP5Reconstruct1d(cctk_lsh(2),&
velz(j,:,k),velzminus(j,:,k),velzplus(j,:,k),&
trivial_rp(j,:,k), hydro_excision_mask(j,:,k))
else
call GRHydro_MP5Reconstruct1d(cctk_lsh(2),&
w_lorentz(j,:,k)*velx(j,:,k),velxminus(j,:,k),velxplus(j,:,k),&
trivial_rp(j,:,k), hydro_excision_mask(j,:,k))
call GRHydro_MP5Reconstruct1d(cctk_lsh(2),&
w_lorentz(j,:,k)*vely(j,:,k),velyminus(j,:,k),velyplus(j,:,k),&
trivial_rp(j,:,k), hydro_excision_mask(j,:,k))
call GRHydro_MP5Reconstruct1d(cctk_lsh(2),&
w_lorentz(j,:,k)*velz(j,:,k),velzminus(j,:,k),velzplus(j,:,k),&
trivial_rp(j,:,k), hydro_excision_mask(j,:,k))
call undo_Wv(ny, velyminus(j,:,k), velzminus(j,:,k), velxminus(j,:,k),&
velyplus(j,:,k),velzplus(j,:,k),velxplus(j,:,k),&
g22(j,:,k), g23(j,:,k), g12(j,:,k), g33(j,:,k), g13(j,:,k), g11(j,:,k))
endif
call GRHydro_MP5Reconstruct1d(cctk_lsh(2),&
eps(j,:,k),epsminus(j,:,k),epsplus(j,:,k),&
trivial_rp(j,:,k), hydro_excision_mask(j,:,k))
if(evolve_Y_e.ne.0) then
call GRHydro_MP5Reconstruct1d(cctk_lsh(2),&
Y_e(j,:,k),Y_e_minus(j,:,k),Y_e_plus(j,:,k),&
trivial_rp(j,:,k), hydro_excision_mask(j,:,k))
endif
if(evolve_temper.ne.0.and.reconstruct_temper.ne.0) then
call GRHydro_MP5Reconstruct1d(cctk_lsh(2),&
temperature(j,:,k),tempminus(j,:,k),tempplus(j,:,k),&
trivial_rp(j,:,k), hydro_excision_mask(j,:,k))
endif
if(evolve_mhd.ne.0) then
call GRHydro_MP5Reconstruct1d(cctk_lsh(2),&
Bvecx(j,:,k),Bvecxminus(j,:,k),Bvecxplus(j,:,k),&
trivial_rp(j,:,k), hydro_excision_mask(j,:,k))
call GRHydro_MP5Reconstruct1d(cctk_lsh(2),&
Bvecy(j,:,k),Bvecyminus(j,:,k),Bvecyplus(j,:,k),&
trivial_rp(j,:,k), hydro_excision_mask(j,:,k))
call GRHydro_MP5Reconstruct1d(cctk_lsh(2),&
Bvecz(j,:,k),Bveczminus(j,:,k),Bveczplus(j,:,k),&
trivial_rp(j,:,k), hydro_excision_mask(j,:,k))
endif
if (evolve_entropy .ne. 0) then
call GRHydro_MP5Reconstruct1d(cctk_lsh(2),&
entropy(j,:,k),entropyminus(j,:,k),entropyplus(j,:,k),&
trivial_rp(j,:,k), hydro_excision_mask(j,:,k))
endif
else if (CCTK_EQUALS(recon_vars,"conservative")) then
call GRHydro_MP5Reconstruct1d(cctk_lsh(2),&
dens(j,:,k),densminus(j,:,k),densplus(j,:,k),&
trivial_rp(j,:,k), hydro_excision_mask(j,:,k))
call GRHydro_MP5Reconstruct1d(cctk_lsh(2),&
sx(j,:,k),sxminus(j,:,k),sxplus(j,:,k),&
trivial_rp(j,:,k), hydro_excision_mask(j,:,k))
call GRHydro_MP5Reconstruct1d(cctk_lsh(2),&
sy(j,:,k),syminus(j,:,k),syplus(j,:,k),&
trivial_rp(j,:,k), hydro_excision_mask(j,:,k))
call GRHydro_MP5Reconstruct1d(cctk_lsh(2),&
sz(j,:,k),szminus(j,:,k),szplus(j,:,k),&
trivial_rp(j,:,k), hydro_excision_mask(j,:,k))
call GRHydro_MP5Reconstruct1d(cctk_lsh(2),&
tau(j,:,k),tauminus(j,:,k),tauplus(j,:,k),&
trivial_rp(j,:,k), hydro_excision_mask(j,:,k))
if(evolve_mhd.ne.0) then
call GRHydro_MP5Reconstruct1d(cctk_lsh(2),&
Bconsx(j,:,k),Bconsxminus(j,:,k),Bconsxplus(j,:,k),&
trivial_rp(j,:,k), hydro_excision_mask(j,:,k))
call GRHydro_MP5Reconstruct1d(cctk_lsh(2),&
Bconsy(j,:,k),Bconsyminus(j,:,k),Bconsyplus(j,:,k),&
trivial_rp(j,:,k), hydro_excision_mask(j,:,k))
call GRHydro_MP5Reconstruct1d(cctk_lsh(2),&
Bconsz(j,:,k),Bconszminus(j,:,k),Bconszplus(j,:,k),&
trivial_rp(j,:,k), hydro_excision_mask(j,:,k))
endif
if (evolve_entropy .ne. 0) then
call GRHydro_MP5Reconstruct1d(cctk_lsh(2),&
entropycons(j,:,k),entropyconsminus(j,:,k),entropyconsplus(j,:,k),&
trivial_rp(j,:,k), hydro_excision_mask(j,:,k))
endif
else
!$OMP CRITICAL
call CCTK_WARN(0, "Variable type to reconstruct not recognized.")
!$OMP END CRITICAL
end if
if(evolve_mhd.ne.0.and.clean_divergence.ne.0) then
call GRHydro_MP5Reconstruct1d(cctk_lsh(2),&
psidc(j,:,k),psidcminus(j,:,k),psidcplus(j,:,k),&
trivial_rp(j,:,k), hydro_excision_mask(j,:,k))
endif
do i = 1, cctk_lsh(2)
if (trivial_rp(j,i,k)) then
SpaceMask_SetStateBitsF90(space_mask, j, i, k, type_bitsy, trivialy)
else
SpaceMask_SetStateBitsF90(space_mask, j, i, k, type_bitsy, not_trivialy)
end if
end do
end do
end do
!$OMP END PARALLEL DO
else if (flux_direction == 3) then
! constraint transport needs to be able to average fluxes in the directions
! other that flux_direction, which in turn need the primitives on interfaces
!$OMP PARALLEL DO PRIVATE(i, j, k)
do k = GRHydro_stencil, cctk_lsh(2) - GRHydro_stencil + 1 + transport_constraints
do j = GRHydro_stencil, cctk_lsh(1) - GRHydro_stencil + 1 + transport_constraints
if (CCTK_EQUALS(recon_vars,"primitive")) then
call GRHydro_MP5Reconstruct1d(cctk_lsh(3),&
rho(j,k,:),rhominus(j,k,:),rhoplus(j,k,:),&
trivial_rp(j,k,:), hydro_excision_mask(j,k,:))
if (reconstruct_Wv.eq.0) then
call GRHydro_MP5Reconstruct1d(cctk_lsh(3),&
velx(j,k,:),velxminus(j,k,:),velxplus(j,k,:),&
trivial_rp(j,k,:), hydro_excision_mask(j,k,:))
call GRHydro_MP5Reconstruct1d(cctk_lsh(3),&
vely(j,k,:),velyminus(j,k,:),velyplus(j,k,:),&
trivial_rp(j,k,:), hydro_excision_mask(j,k,:))
call GRHydro_MP5Reconstruct1d(cctk_lsh(3),&
velz(j,k,:),velzminus(j,k,:),velzplus(j,k,:),&
trivial_rp(j,k,:), hydro_excision_mask(j,k,:))
else
call GRHydro_MP5Reconstruct1d(cctk_lsh(3),&
w_lorentz(j,k,:)*velx(j,k,:),velxminus(j,k,:),velxplus(j,k,:),&
trivial_rp(j,k,:), hydro_excision_mask(j,k,:))
call GRHydro_MP5Reconstruct1d(cctk_lsh(3),&
w_lorentz(j,k,:)*vely(j,k,:),velyminus(j,k,:),velyplus(j,k,:),&
trivial_rp(j,k,:), hydro_excision_mask(j,k,:))
call GRHydro_MP5Reconstruct1d(cctk_lsh(3),&
w_lorentz(j,k,:)*velz(j,k,:),velzminus(j,k,:),velzplus(j,k,:),&
trivial_rp(j,k,:), hydro_excision_mask(j,k,:))
call undo_Wv(nz, velzminus(j,k,:), velxminus(j,k,:), velyminus(j,k,:),&
velzplus(j,k,:),velxplus(j,k,:),velyplus(j,k,:),&
g33(j,k,:), g13(j,k,:), g23(j,k,:), g11(j,k,:), g12(j,k,:),g22(j,k,:))
endif
call GRHydro_MP5Reconstruct1d(cctk_lsh(3),&
eps(j,k,:),epsminus(j,k,:),epsplus(j,k,:),&
trivial_rp(j,k,:), hydro_excision_mask(j,k,:))
if(evolve_Y_e.ne.0) then
call GRHydro_MP5Reconstruct1d(cctk_lsh(3),&
Y_e(j,k,:),Y_e_minus(j,k,:),Y_e_plus(j,k,:),&
trivial_rp(j,k,:), hydro_excision_mask(j,k,:))
endif
if(evolve_temper.ne.0.and.reconstruct_temper.ne.0) then
call GRHydro_MP5Reconstruct1d(cctk_lsh(3),&
temperature(j,k,:),tempminus(j,k,:),tempplus(j,k,:),&
trivial_rp(j,k,:), hydro_excision_mask(j,k,:))
endif
if(evolve_mhd.ne.0) then
call GRHydro_MP5Reconstruct1d(cctk_lsh(3),&
Bvecx(j,k,:),Bvecxminus(j,k,:),Bvecxplus(j,k,:),&
trivial_rp(j,k,:), hydro_excision_mask(j,k,:))
call GRHydro_MP5Reconstruct1d(cctk_lsh(3),&
Bvecy(j,k,:),Bvecyminus(j,k,:),Bvecyplus(j,k,:),&
trivial_rp(j,k,:), hydro_excision_mask(j,k,:))
call GRHydro_MP5Reconstruct1d(cctk_lsh(3),&
Bvecz(j,k,:),Bveczminus(j,k,:),Bveczplus(j,k,:),&
trivial_rp(j,k,:), hydro_excision_mask(j,k,:))
endif
if (evolve_entropy .ne. 0) then
call GRHydro_MP5Reconstruct1d(cctk_lsh(2),&
entropy(j,k,:),entropyminus(j,k,:),entropyplus(j,k,:),&
trivial_rp(j,k,:), hydro_excision_mask(j,k,:))
endif
else if (CCTK_EQUALS(recon_vars,"conservative")) then
call GRHydro_MP5Reconstruct1d(cctk_lsh(3),&
dens(j,k,:),densminus(j,k,:),densplus(j,k,:),&
trivial_rp(j,k,:), hydro_excision_mask(j,k,:))
call GRHydro_MP5Reconstruct1d(cctk_lsh(3),&
sx(j,k,:),sxminus(j,k,:),sxplus(j,k,:),&
trivial_rp(j,k,:), hydro_excision_mask(j,k,:))
call GRHydro_MP5Reconstruct1d(cctk_lsh(3),&
sy(j,k,:),syminus(j,k,:),syplus(j,k,:),&
trivial_rp(j,k,:), hydro_excision_mask(j,k,:))
call GRHydro_MP5Reconstruct1d(cctk_lsh(3),&
sz(j,k,:),szminus(j,k,:),szplus(j,k,:),&
trivial_rp(j,k,:), hydro_excision_mask(j,k,:))
call GRHydro_MP5Reconstruct1d(cctk_lsh(3),&
tau(j,k,:),tauminus(j,k,:),tauplus(j,k,:),&
trivial_rp(j,k,:), hydro_excision_mask(j,k,:))
if(evolve_mhd.ne.0) then
call GRHydro_MP5Reconstruct1d(cctk_lsh(3),&
Bconsx(j,k,:),Bconsxminus(j,k,:),Bconsxplus(j,k,:),&
trivial_rp(j,k,:), hydro_excision_mask(j,k,:))
call GRHydro_MP5Reconstruct1d(cctk_lsh(3),&
Bconsy(j,k,:),Bconsyminus(j,k,:),Bconsyplus(j,k,:),&
trivial_rp(j,k,:), hydro_excision_mask(j,k,:))
call GRHydro_MP5Reconstruct1d(cctk_lsh(3),&
Bconsz(j,k,:),Bconszminus(j,k,:),Bconszplus(j,k,:),&
trivial_rp(j,k,:), hydro_excision_mask(j,k,:))
endif
if (evolve_entropy .ne. 0) then
call GRHydro_MP5Reconstruct1d(cctk_lsh(3),&
entropycons(j,k,:),entropyconsminus(j,k,:),entropyconsplus(j,k,:),&
trivial_rp(j,k,:), hydro_excision_mask(j,k,:))
endif
else
!$OMP CRITICAL
call CCTK_WARN(0, "Variable type to reconstruct not recognized.")
!$OMP END CRITICAL
end if
if(evolve_mhd.ne.0.and.clean_divergence.ne.0) then
call GRHydro_MP5Reconstruct1d(cctk_lsh(3),&
psidc(j,k,:),psidcminus(j,k,:),psidcplus(j,k,:),&
trivial_rp(j,k,:), hydro_excision_mask(j,k,:))
endif
do i = 1, cctk_lsh(3)
if (trivial_rp(j,k,i)) then
SpaceMask_SetStateBitsF90(space_mask, j, k, i, type_bitsz, trivialz)
else
SpaceMask_SetStateBitsF90(space_mask, j, k, i, type_bitsz, not_trivialz)
end if
end do
end do
end do
!$OMP END PARALLEL DO
else
call CCTK_WARN(0, "Flux direction not x,y,z")
end if
!!$ MP5 ends.
deallocate(trivial_rp)
deallocate(dum,dump,dumm)
end subroutine GRHydro_MP5Reconstruct_drv
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