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/* File produced by Kranc */
#define KRANC_C
#include <assert.h>
#include <math.h>
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include "cctk.h"
#include "cctk_Arguments.h"
#include "cctk_Parameters.h"
#include "GenericFD.h"
#include "Differencing.h"
#include "cctk_Loop.h"
#include "loopcontrol.h"
/* Define macros used in calculations */
#define INITVALUE (42)
#define INV(x) ((CCTK_REAL)1.0 / (x))
#define SQR(x) ((x) * (x))
#define CUB(x) ((x) * SQR(x))
#define QAD(x) (SQR(SQR(x)))
extern "C" void eulersr_cons_calc_rhs_2_SelectBCs(CCTK_ARGUMENTS)
{
DECLARE_CCTK_ARGUMENTS;
DECLARE_CCTK_PARAMETERS;
CCTK_INT ierr = 0;
ierr = Boundary_SelectGroupForBC(cctkGH, CCTK_ALL_FACES, GenericFD_GetBoundaryWidth(cctkGH), -1 /* no table */, "EulerSR::Den_grouprhs","flat");
if (ierr < 0)
CCTK_WARN(1, "Failed to register flat BC for EulerSR::Den_grouprhs.");
ierr = Boundary_SelectGroupForBC(cctkGH, CCTK_ALL_FACES, GenericFD_GetBoundaryWidth(cctkGH), -1 /* no table */, "EulerSR::S_grouprhs","flat");
if (ierr < 0)
CCTK_WARN(1, "Failed to register flat BC for EulerSR::S_grouprhs.");
ierr = Boundary_SelectGroupForBC(cctkGH, CCTK_ALL_FACES, GenericFD_GetBoundaryWidth(cctkGH), -1 /* no table */, "EulerSR::tau_grouprhs","flat");
if (ierr < 0)
CCTK_WARN(1, "Failed to register flat BC for EulerSR::tau_grouprhs.");
return;
}
static void eulersr_cons_calc_rhs_2_Body(cGH const * restrict const cctkGH, int const dir, int const face, CCTK_REAL const normal[3], CCTK_REAL const tangentA[3], CCTK_REAL const tangentB[3], int const imin[3], int const imax[3], int const n_subblock_gfs, CCTK_REAL * restrict const subblock_gfs[])
{
DECLARE_CCTK_ARGUMENTS;
DECLARE_CCTK_PARAMETERS;
/* Include user-supplied include files */
/* Initialise finite differencing variables */
ptrdiff_t const di = 1;
ptrdiff_t const dj = CCTK_GFINDEX3D(cctkGH,0,1,0) - CCTK_GFINDEX3D(cctkGH,0,0,0);
ptrdiff_t const dk = CCTK_GFINDEX3D(cctkGH,0,0,1) - CCTK_GFINDEX3D(cctkGH,0,0,0);
ptrdiff_t const cdi = sizeof(CCTK_REAL) * di;
ptrdiff_t const cdj = sizeof(CCTK_REAL) * dj;
ptrdiff_t const cdk = sizeof(CCTK_REAL) * dk;
CCTK_REAL const dx = ToReal(CCTK_DELTA_SPACE(0));
CCTK_REAL const dy = ToReal(CCTK_DELTA_SPACE(1));
CCTK_REAL const dz = ToReal(CCTK_DELTA_SPACE(2));
CCTK_REAL const dt = ToReal(CCTK_DELTA_TIME);
CCTK_REAL const t = ToReal(cctk_time);
CCTK_REAL const dxi = INV(dx);
CCTK_REAL const dyi = INV(dy);
CCTK_REAL const dzi = INV(dz);
CCTK_REAL const khalf = 0.5;
CCTK_REAL const kthird = 1/3.0;
CCTK_REAL const ktwothird = 2.0/3.0;
CCTK_REAL const kfourthird = 4.0/3.0;
CCTK_REAL const keightthird = 8.0/3.0;
CCTK_REAL const hdxi = 0.5 * dxi;
CCTK_REAL const hdyi = 0.5 * dyi;
CCTK_REAL const hdzi = 0.5 * dzi;
/* Initialize predefined quantities */
CCTK_REAL const p1o1 = 1;
CCTK_REAL const p1odx = INV(dx);
CCTK_REAL const p1ody = INV(dy);
CCTK_REAL const p1odz = INV(dz);
/* Assign local copies of arrays functions */
/* Calculate temporaries and arrays functions */
/* Copy local copies back to grid functions */
/* Loop over the grid points */
#pragma omp parallel
CCTK_LOOP3(eulersr_cons_calc_rhs_2,
i,j,k, imin[0],imin[1],imin[2], imax[0],imax[1],imax[2],
cctk_ash[0],cctk_ash[1],cctk_ash[2])
{
ptrdiff_t const index = di*i + dj*j + dk*k;
/* Assign local copies of grid functions */
CCTK_REAL DenFluxL = DenFlux[index];
CCTK_REAL DenrhsL = Denrhs[index];
CCTK_REAL S1FluxL = S1Flux[index];
CCTK_REAL S1rhsL = S1rhs[index];
CCTK_REAL S2FluxL = S2Flux[index];
CCTK_REAL S2rhsL = S2rhs[index];
CCTK_REAL S3FluxL = S3Flux[index];
CCTK_REAL S3rhsL = S3rhs[index];
CCTK_REAL tauFluxL = tauFlux[index];
CCTK_REAL taurhsL = taurhs[index];
/* Include user supplied include files */
/* Precompute derivatives */
CCTK_REAL const PDplus2DenFlux = PDplus2(&DenFlux[index]);
CCTK_REAL const PDplus2S1Flux = PDplus2(&S1Flux[index]);
CCTK_REAL const PDplus2S2Flux = PDplus2(&S2Flux[index]);
CCTK_REAL const PDplus2S3Flux = PDplus2(&S3Flux[index]);
CCTK_REAL const PDplus2tauFlux = PDplus2(&tauFlux[index]);
/* Calculate temporaries and grid functions */
DenrhsL = DenrhsL - PDplus2DenFlux;
S1rhsL = S1rhsL - PDplus2S1Flux;
S2rhsL = S2rhsL - PDplus2S2Flux;
S3rhsL = S3rhsL - PDplus2S3Flux;
taurhsL = taurhsL - PDplus2tauFlux;
/* Copy local copies back to grid functions */
Denrhs[index] = DenrhsL;
S1rhs[index] = S1rhsL;
S2rhs[index] = S2rhsL;
S3rhs[index] = S3rhsL;
taurhs[index] = taurhsL;
}
CCTK_ENDLOOP3(eulersr_cons_calc_rhs_2);
}
extern "C" void eulersr_cons_calc_rhs_2(CCTK_ARGUMENTS)
{
DECLARE_CCTK_ARGUMENTS;
DECLARE_CCTK_PARAMETERS;
if (verbose > 1)
{
CCTK_VInfo(CCTK_THORNSTRING,"Entering eulersr_cons_calc_rhs_2_Body");
}
if (cctk_iteration % eulersr_cons_calc_rhs_2_calc_every != eulersr_cons_calc_rhs_2_calc_offset)
{
return;
}
const char *const groups[] = {
"EulerSR::Den_flux_group",
"EulerSR::Den_grouprhs",
"EulerSR::S1_flux_group",
"EulerSR::S2_flux_group",
"EulerSR::S3_flux_group",
"EulerSR::S_grouprhs",
"EulerSR::tau_flux_group",
"EulerSR::tau_grouprhs"};
GenericFD_AssertGroupStorage(cctkGH, "eulersr_cons_calc_rhs_2", 8, groups);
GenericFD_EnsureStencilFits(cctkGH, "eulersr_cons_calc_rhs_2", 1, 1, 1);
GenericFD_LoopOverInterior(cctkGH, eulersr_cons_calc_rhs_2_Body);
if (verbose > 1)
{
CCTK_VInfo(CCTK_THORNSTRING,"Leaving eulersr_cons_calc_rhs_2_Body");
}
}
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