path: root/src/GRHydro_PPMMReconstruct_drv.F90

 /*@@
   @file      GRHydro_PPMMReconstruct_drv.F90
   @date      Wed Jul 27 15:17:03 EDT 2011
   @author    Bruno C. Mundim, Joshua Faber, Christian D. Ott
   @desc 
   Driver routine to perform the magnetic version of PPM 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_PPMMReconstruct_drv
   @date       Wed Jul 27 15:17:55 EDT 2011
   @author     Luca Baiotti, Ian Hawke, Bruno C. Mundim, Joshua Faber, Christian D. Ott
   @desc 
   A driver routine to do magnetic version of PPM reconstructions. 
   @enddesc 
   @calls     
   @calledby   
   @history 
 
   @endhistory 

@@*/

subroutine GRHydro_PPMMReconstruct_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 betaa, betab, betac
  TARGET betax, betay, betaz
  TARGET lvel, vel
  TARGET lBvec, Bvec

  DECLARE_CCTK_ARGUMENTS
  DECLARE_CCTK_PARAMETERS
  DECLARE_CCTK_FUNCTIONS

  integer :: nx, ny, nz, i, j, k

  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 :: beta1, beta2, beta3
  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
    beta1 => betaa
    beta2 => betab
    beta3 => betac
    vup => lvel
    Bprim => lBvec
  else
    g11 => gxx
    g12 => gxy
    g13 => gxz
    g22 => gyy
    g23 => gyz
    g33 => gzz
    beta1 => betax
    beta2 => betay
    beta3 => betaz
    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)

  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

           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

           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

        enddo
     enddo
  enddo
  !$OMP END PARALLEL DO

!!$ PPM starts:
    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, nz - GRHydro_stencil + 1 + transport_constraints
              do j = GRHydro_stencil, ny - GRHydro_stencil + 1 + transport_constraints
               if(clean_divergence.ne.0) then
                 call SimplePPM_1dM(GRHydro_eos_handle,0,nx,CCTK_DELTA_SPACE(1),&
                      rho(:,j,k),velx(:,j,k),vely(:,j,k),velz(:,j,k),&
                      Bvecx(:,j,k),Bvecy(:,j,k),Bvecz(:,j,k),psidc(:,j,k),eps(:,j,k),press(:,j,k),&
                      rhominus(:,j,k),velxminus(:,j,k),velyminus(:,j,k),velzminus(:,j,k),&
                      Bvecxminus(:,j,k),Bvecyminus(:,j,k),Bveczminus(:,j,k),psidcminus(:,j,k),epsminus(:,j,k),&
                      rhoplus(:,j,k),velxplus(:,j,k),velyplus(:,j,k),velzplus(:,j,k),&
                      Bvecxplus(:,j,k),Bvecyplus(:,j,k),Bveczplus(:,j,k),psidcplus(:,j,k),epsplus(:,j,k),&
                      1,trivial_rp(:,j,k), hydro_excision_mask(:,j,k),&
                      g11(:,j,k), g12(:,j,k), g13(:,j,k), g22(:,j,k), g23(:,j,k), &
                      g33(:,j,k), beta1(:,j,k), alp(:,j,k),&
                      w_lorentz(:,j,k), &
                      1, j, k, nx, ny, nz, GRHydro_mppm_eigenvalue_x_left, &
                      GRHydro_mppm_eigenvalue_x_right, &
                      GRHydro_mppm_xwind)
               else  !clean_divergence
                 call SimplePPM_1dM(GRHydro_eos_handle,0,nx,CCTK_DELTA_SPACE(1),&
                      rho(:,j,k),velx(:,j,k),vely(:,j,k),velz(:,j,k),&
                      Bvecx(:,j,k),Bvecy(:,j,k),Bvecz(:,j,k),dum(:,j,k),eps(:,j,k),press(:,j,k),&
                      rhominus(:,j,k),velxminus(:,j,k),velyminus(:,j,k),velzminus(:,j,k),&
                      Bvecxminus(:,j,k),Bvecyminus(:,j,k),Bveczminus(:,j,k),dumm(:,j,k),epsminus(:,j,k),&
                      rhoplus(:,j,k),velxplus(:,j,k),velyplus(:,j,k),velzplus(:,j,k),&
                      Bvecxplus(:,j,k),Bvecyplus(:,j,k),Bveczplus(:,j,k),dump(:,j,k),epsplus(:,j,k),&
                      0,trivial_rp(:,j,k), hydro_excision_mask(:,j,k),&
                      g11(:,j,k), g12(:,j,k), g13(:,j,k), g22(:,j,k), g23(:,j,k), &
                      g33(:,j,k), beta1(:,j,k), alp(:,j,k),&
                      w_lorentz(:,j,k), &
                      1, j, k, nx, ny, nz, GRHydro_mppm_eigenvalue_x_left, &
                      GRHydro_mppm_eigenvalue_x_right, &
                      GRHydro_mppm_xwind)
               endif  !clean_divergence
                do i = 1, nx
                   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

      if(evolve_tracer.ne.0) then
         !$OMP PARALLEL DO PRIVATE(j, k)
         do k = GRHydro_stencil, nz - GRHydro_stencil + 1
            do j = GRHydro_stencil, ny - GRHydro_stencil + 1
               call SimplePPM_tracer_1d(nx,CCTK_DELTA_SPACE(1),rho(:,j,k), &
                    velx(:,j,k),vely(:,j,k),velz(:,j,k), &
                    tracer(:,j,k,:),tracerminus(:,j,k,:),tracerplus(:,j,k,:), &
                    press(:,j,k))
            end do
         end do
         !$OMP END PARALLEL DO
      end if

      if(evolve_Y_e.ne.0) then
         !$OMP PARALLEL DO PRIVATE(j, k)
          do k = GRHydro_stencil, nz - GRHydro_stencil + 1 + transport_constraints
            do j = GRHydro_stencil, ny - GRHydro_stencil + 1 + transport_constraints
               call SimplePPM_ye_1d(nx,CCTK_DELTA_SPACE(1),rho(:,j,k), &
                    velx(:,j,k),vely(:,j,k),velz(:,j,k), &
                    Y_e(:,j,k),Y_e_minus(:,j,k),Y_e_plus(:,j,k), &
                    press(:,j,k))
            end do
         end do
         !$OMP END PARALLEL DO
      end if

    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, nz - GRHydro_stencil + 1 + transport_constraints
            do j = GRHydro_stencil, nx - GRHydro_stencil + 1 + transport_constraints
             if(clean_divergence.ne.0) then
              call SimplePPM_1dM(GRHydro_eos_handle,0,ny,CCTK_DELTA_SPACE(2),&
                   rho(j,:,k),vely(j,:,k),velz(j,:,k),velx(j,:,k),&
                   Bvecy(j,:,k),Bvecz(j,:,k),Bvecx(j,:,k),psidc(j,:,k),eps(j,:,k),press(j,:,k),&
                   rhominus(j,:,k),velyminus(j,:,k),velzminus(j,:,k),velxminus(j,:,k),&
                   Bvecyminus(j,:,k),Bveczminus(j,:,k),Bvecxminus(j,:,k),psidcminus(j,:,k),epsminus(j,:,k),&
                   rhoplus(j,:,k),velyplus(j,:,k),velzplus(j,:,k),velxplus(j,:,k),&
                   Bvecyplus(j,:,k),Bveczplus(j,:,k),Bvecxplus(j,:,k),psidcplus(j,:,k),epsplus(j,:,k),&
                   1,trivial_rp(j,:,k), hydro_excision_mask(j,:,k),&
                   g22(j,:,k), g23(j,:,k), g12(j,:,k), g33(j,:,k), g13(j,:,k), &
                   g11(j,:,k), beta2(j,:,k), alp(j,:,k),&
                   w_lorentz(j,:,k), &
                   2, j, k, nx, ny, nz, GRHydro_mppm_eigenvalue_y_left, &
                   GRHydro_mppm_eigenvalue_y_right, &
                   GRHydro_mppm_xwind)
             else  !clean_divergence
              call SimplePPM_1dM(GRHydro_eos_handle,0,ny,CCTK_DELTA_SPACE(2),&
                   rho(j,:,k),vely(j,:,k),velz(j,:,k),velx(j,:,k),&
                   Bvecy(j,:,k),Bvecz(j,:,k),Bvecx(j,:,k),dum(j,:,k),eps(j,:,k),press(j,:,k),&
                   rhominus(j,:,k),velyminus(j,:,k),velzminus(j,:,k),velxminus(j,:,k),&
                   Bvecyminus(j,:,k),Bveczminus(j,:,k),Bvecxminus(j,:,k),dumm(j,:,k),epsminus(j,:,k),&
                   rhoplus(j,:,k),velyplus(j,:,k),velzplus(j,:,k),velxplus(j,:,k),&
                   Bvecyplus(j,:,k),Bveczplus(j,:,k),Bvecxplus(j,:,k),dump(j,:,k),epsplus(j,:,k),&
                   0,trivial_rp(j,:,k), hydro_excision_mask(j,:,k),&
                   g22(j,:,k), g23(j,:,k), g12(j,:,k), g33(j,:,k), g13(j,:,k), &
                   g11(j,:,k), beta2(j,:,k), alp(j,:,k),&
                   w_lorentz(j,:,k), &
                   2, j, k, nx, ny, nz, GRHydro_mppm_eigenvalue_y_left, &
                   GRHydro_mppm_eigenvalue_y_right, &
                   GRHydro_mppm_xwind)
             endif  !clean_divergence
              do i = 1, ny
                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
      if(evolve_tracer.ne.0) then
         !$OMP PARALLEL DO PRIVATE(j, k)
         do k = GRHydro_stencil, nz - GRHydro_stencil + 1
            do j = GRHydro_stencil, nx - GRHydro_stencil + 1
              call SimplePPM_tracer_1d(ny,CCTK_DELTA_SPACE(2),rho(j,:,k), &
                   vely(j,:,k),velz(j,:,k),velx(j,:,k), &
                   tracer(j,:,k,:),tracerminus(j,:,k,:),tracerplus(j,:,k,:), &
                   press(j,:,k))
            end do
         end do
         !$OMP END PARALLEL DO
      end if
      if(evolve_Y_e.ne.0) then
         !$OMP PARALLEL DO PRIVATE(j, k)
          do k = GRHydro_stencil, nz - GRHydro_stencil + 1 + transport_constraints
            do j = GRHydro_stencil, nx - GRHydro_stencil + 1 + transport_constraints
               call SimplePPM_ye_1d(ny,CCTK_DELTA_SPACE(2),rho(j,:,k), &
                    vely(j,:,k),velz(j,:,k),velx(j,:,k), &
                    Y_e(j,:,k),Y_e_minus(j,:,k),Y_e_plus(j,:,k), &
                    press(j,:,k))
            end do
         end do
         !$OMP END PARALLEL DO
      end if

    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, ny - GRHydro_stencil + 1 + transport_constraints
            do j = GRHydro_stencil, nx - GRHydro_stencil + 1 + transport_constraints
             if(clean_divergence.ne.0) then
              call SimplePPM_1dM(GRHydro_eos_handle,0,nz,CCTK_DELTA_SPACE(3),&
                   rho(j,k,:),velz(j,k,:),velx(j,k,:),vely(j,k,:),&
                   Bvecz(j,k,:),Bvecx(j,k,:),Bvecy(j,k,:),psidc(j,k,:),eps(j,k,:),press(j,k,:),&
                   rhominus(j,k,:),velzminus(j,k,:),velxminus(j,k,:),velyminus(j,k,:),&
                   Bveczminus(j,k,:),Bvecxminus(j,k,:),Bvecyminus(j,k,:),psidcminus(j,k,:),epsminus(j,k,:),&
                   rhoplus(j,k,:),velzplus(j,k,:),velxplus(j,k,:),velyplus(j,k,:),&
                   Bveczplus(j,k,:),Bvecxplus(j,k,:),Bvecyplus(j,k,:),psidcplus(j,k,:),epsplus(j,k,:),&
                   1,trivial_rp(j,k,:), hydro_excision_mask(j,k,:),&
                   g33(j,k,:), g13(j,k,:), g23(j,k,:), g11(j,k,:), g12(j,k,:), &
                   g22(j,k,:), beta3(j,k,:), alp(j,k,:),&
                   w_lorentz(j,k,:), &
                   3, j, k, nx, ny, nz, GRHydro_mppm_eigenvalue_z_left, &
                   GRHydro_mppm_eigenvalue_z_right, &
                   GRHydro_mppm_xwind)
             else  !clean_divergence
              call SimplePPM_1dM(GRHydro_eos_handle,0,nz,CCTK_DELTA_SPACE(3),&
                   rho(j,k,:),velz(j,k,:),velx(j,k,:),vely(j,k,:),&
                   Bvecz(j,k,:),Bvecx(j,k,:),Bvecy(j,k,:),dum(j,k,:),eps(j,k,:),press(j,k,:),&
                   rhominus(j,k,:),velzminus(j,k,:),velxminus(j,k,:),velyminus(j,k,:),&
                   Bveczminus(j,k,:),Bvecxminus(j,k,:),Bvecyminus(j,k,:),dumm(j,k,:),epsminus(j,k,:),&
                   rhoplus(j,k,:),velzplus(j,k,:),velxplus(j,k,:),velyplus(j,k,:),&
                   Bveczplus(j,k,:),Bvecxplus(j,k,:),Bvecyplus(j,k,:),dump(j,k,:),epsplus(j,k,:),&
                   0,trivial_rp(j,k,:), hydro_excision_mask(j,k,:),&
                   g33(j,k,:), g13(j,k,:), g23(j,k,:), g11(j,k,:), g12(j,k,:), &
                   g22(j,k,:), beta3(j,k,:), alp(j,k,:),&
                   w_lorentz(j,k,:), &
                   3, j, k, nx, ny, nz, GRHydro_mppm_eigenvalue_z_left, &
                   GRHydro_mppm_eigenvalue_z_right, &
                   GRHydro_mppm_xwind)
             endif  !clean_divergence
              do i = 1, nz
                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
      if(evolve_tracer.ne.0) then
         !$OMP PARALLEL DO PRIVATE(j, k)
         do k = GRHydro_stencil, ny - GRHydro_stencil + 1
            do j = GRHydro_stencil, nx - GRHydro_stencil + 1

               call SimplePPM_tracer_1d(nz,CCTK_DELTA_SPACE(3),rho(j,k,:), &
                    velz(j,k,:),velx(j,k,:),vely(j,k,:), &
                    tracer(j,k,:,:),tracerminus(j,k,:,:),tracerplus(j,k,:,:), &
                    press(j,k,:))
            end do
         end do
         !$OMP END PARALLEL DO
      end if
      if(evolve_Y_e.ne.0) then
         !$OMP PARALLEL DO PRIVATE(j, k)
          do k = GRHydro_stencil, ny - GRHydro_stencil + 1 + transport_constraints
            do j = GRHydro_stencil, nx - GRHydro_stencil + 1 + transport_constraints
               call SimplePPM_ye_1d(nz,CCTK_DELTA_SPACE(3),rho(j,k,:), &
                    velz(j,k,:),velx(j,k,:),vely(j,k,:), &
                    Y_e(j,k,:),Y_e_minus(j,k,:),Y_e_plus(j,k,:), &
                    press(j,k,:))
            end do
         end do
         !$OMP END PARALLEL DO
      end if

    else
      call CCTK_WARN(0, "Flux direction not x,y,z")
    end if
!!$ PPM ends.

  deallocate(trivial_rp)
  deallocate(dum,dump,dumm)

end subroutine GRHydro_PPMMReconstruct_drv