Update auto-generated code

1 files changed, 319 insertions, 0 deletions

diff --git a/ML_BSSN/src/ML_BSSN_RHSRadiativeBoundary.c b/ML_BSSN/src/ML_BSSN_RHSRadiativeBoundary.c
new file mode 100644
index 0000000..9c186df
--- /dev/null
+++ b/ML_BSSN/src/ML_BSSN_RHSRadiativeBoundary.c
@@ -0,0 +1,319 @@
+/*  File produced by Kranc */
+
+#define KRANC_C
+
+#include <assert.h>
+#include <math.h>
+#include <stdio.h>
+#include <stdlib.h>
+#include "cctk.h"
+#include "cctk_Arguments.h"
+#include "cctk_Parameters.h"
+#include "GenericFD.h"
+#include "Differencing.h"
+#include "loopcontrol.h"
+
+/* Define macros used in calculations */
+#define INITVALUE  (42)
+#define INV(x) ((1.0) / (x))
+#define SQR(x) ((x) * (x))
+#define CUB(x) ((x) * (x) * (x))
+#define QAD(x) ((x) * (x) * (x) * (x))
+
+void ML_BSSN_RHSRadiativeBoundary_Body(cGH const * const cctkGH, CCTK_INT const dir, CCTK_INT const face, CCTK_REAL const normal[3], CCTK_REAL const tangentA[3], CCTK_REAL const tangentB[3], CCTK_INT const min[3], CCTK_INT const max[3], CCTK_INT const n_subblock_gfs, CCTK_REAL * const subblock_gfs[])
+{
+  DECLARE_CCTK_ARGUMENTS;
+  DECLARE_CCTK_PARAMETERS;
+  
+  
+  /* Declare finite differencing variables */
+  CCTK_REAL dx = INITVALUE, dy = INITVALUE, dz = INITVALUE;
+  CCTK_REAL dxi = INITVALUE, dyi = INITVALUE, dzi = INITVALUE;
+  CCTK_REAL khalf = INITVALUE, kthird = INITVALUE, ktwothird = INITVALUE, kfourthird = INITVALUE, keightthird = INITVALUE;
+  CCTK_REAL hdxi = INITVALUE, hdyi = INITVALUE, hdzi = INITVALUE;
+  
+  
+  /* Declare predefined quantities */
+  CCTK_REAL p1o12dx = INITVALUE;
+  CCTK_REAL p1o12dy = INITVALUE;
+  CCTK_REAL p1o12dz = INITVALUE;
+  CCTK_REAL p1o144dxdy = INITVALUE;
+  CCTK_REAL p1o144dxdz = INITVALUE;
+  CCTK_REAL p1o144dydz = INITVALUE;
+  CCTK_REAL p1odx = INITVALUE;
+  CCTK_REAL p1ody = INITVALUE;
+  CCTK_REAL p1odz = INITVALUE;
+  CCTK_REAL pm1o12dx2 = INITVALUE;
+  CCTK_REAL pm1o12dy2 = INITVALUE;
+  CCTK_REAL pm1o12dz2 = INITVALUE;
+  
+  if (verbose > 1)
+  {
+    CCTK_VInfo(CCTK_THORNSTRING,"Entering ML_BSSN_RHSRadiativeBoundary_Body");
+  }
+  
+  if (cctk_iteration % ML_BSSN_RHSRadiativeBoundary_calc_every != ML_BSSN_RHSRadiativeBoundary_calc_offset)
+  {
+    return;
+  }
+  
+  /* Include user-supplied include files */
+  
+  /* Initialise finite differencing variables */
+  dx = CCTK_DELTA_SPACE(0);
+  dy = CCTK_DELTA_SPACE(1);
+  dz = CCTK_DELTA_SPACE(2);
+  dxi = 1.0 / dx;
+  dyi = 1.0 / dy;
+  dzi = 1.0 / dz;
+  khalf = 0.5;
+  kthird = 1/3.0;
+  ktwothird = 2.0/3.0;
+  kfourthird = 4.0/3.0;
+  keightthird = 8.0/3.0;
+  hdxi = 0.5 * dxi;
+  hdyi = 0.5 * dyi;
+  hdzi = 0.5 * dzi;
+  
+  /* Initialize predefined quantities */
+  p1o12dx = INV(dx)/12.;
+  p1o12dy = INV(dy)/12.;
+  p1o12dz = INV(dz)/12.;
+  p1o144dxdy = (INV(dx)*INV(dy))/144.;
+  p1o144dxdz = (INV(dx)*INV(dz))/144.;
+  p1o144dydz = (INV(dy)*INV(dz))/144.;
+  p1odx = INV(dx);
+  p1ody = INV(dy);
+  p1odz = INV(dz);
+  pm1o12dx2 = -pow(dx,-2)/12.;
+  pm1o12dy2 = -pow(dy,-2)/12.;
+  pm1o12dz2 = -pow(dz,-2)/12.;
+  
+  /* Loop over the grid points */
+  #pragma omp parallel
+  LC_LOOP3 (ML_BSSN_RHSRadiativeBoundary,
+            i,j,k, min[0],min[1],min[2], max[0],max[1],max[2],
+            cctk_lsh[0],cctk_lsh[1],cctk_lsh[2])
+  {
+    int index = INITVALUE;
+    int subblock_index = INITVALUE;
+    index = CCTK_GFINDEX3D(cctkGH,i,j,k);
+    subblock_index = i - min[0] + (max[0] - min[0]) * (j - min[1] + (max[1]-min[1]) * (k - min[2]));
+    
+    /* Declare shorthands */
+    CCTK_REAL detgt = INITVALUE;
+    CCTK_REAL dir1 = INITVALUE, dir2 = INITVALUE, dir3 = INITVALUE;
+    CCTK_REAL em4phi = INITVALUE;
+    CCTK_REAL gtu11 = INITVALUE, gtu21 = INITVALUE, gtu22 = INITVALUE, gtu31 = INITVALUE, gtu32 = INITVALUE, gtu33 = INITVALUE;
+    CCTK_REAL gu11 = INITVALUE, gu21 = INITVALUE, gu22 = INITVALUE, gu31 = INITVALUE, gu32 = INITVALUE, gu33 = INITVALUE;
+    CCTK_REAL nlen = INITVALUE, nlen2 = INITVALUE;
+    CCTK_REAL nn1 = INITVALUE, nn2 = INITVALUE, nn3 = INITVALUE;
+    CCTK_REAL nu1 = INITVALUE, nu2 = INITVALUE, nu3 = INITVALUE;
+    CCTK_REAL su1 = INITVALUE, su2 = INITVALUE, su3 = INITVALUE;
+    CCTK_REAL vg = INITVALUE;
+    
+    /* Declare local copies of grid functions */
+    CCTK_REAL AL = INITVALUE;
+    CCTK_REAL alphaL = INITVALUE, alpharhsL = INITVALUE;
+    CCTK_REAL ArhsL = INITVALUE;
+    CCTK_REAL At11L = INITVALUE, At11rhsL = INITVALUE, At12L = INITVALUE, At12rhsL = INITVALUE, At13L = INITVALUE, At13rhsL = INITVALUE;
+    CCTK_REAL At22L = INITVALUE, At22rhsL = INITVALUE, At23L = INITVALUE, At23rhsL = INITVALUE, At33L = INITVALUE, At33rhsL = INITVALUE;
+    CCTK_REAL B1L = INITVALUE, B1rhsL = INITVALUE, B2L = INITVALUE, B2rhsL = INITVALUE, B3L = INITVALUE, B3rhsL = INITVALUE;
+    CCTK_REAL beta1L = INITVALUE, beta1rhsL = INITVALUE, beta2L = INITVALUE, beta2rhsL = INITVALUE, beta3L = INITVALUE, beta3rhsL = INITVALUE;
+    CCTK_REAL gt11L = INITVALUE, gt11rhsL = INITVALUE, gt12L = INITVALUE, gt12rhsL = INITVALUE, gt13L = INITVALUE, gt13rhsL = INITVALUE;
+    CCTK_REAL gt22L = INITVALUE, gt22rhsL = INITVALUE, gt23L = INITVALUE, gt23rhsL = INITVALUE, gt33L = INITVALUE, gt33rhsL = INITVALUE;
+    CCTK_REAL phiL = INITVALUE, phirhsL = INITVALUE;
+    CCTK_REAL trKL = INITVALUE, trKrhsL = INITVALUE;
+    CCTK_REAL Xt1L = INITVALUE, Xt1rhsL = INITVALUE, Xt2L = INITVALUE, Xt2rhsL = INITVALUE, Xt3L = INITVALUE, Xt3rhsL = INITVALUE;
+    /* Declare precomputed derivatives*/
+    
+    /* Declare derivatives */
+    
+    /* Assign local copies of grid functions */
+    AL = A[index];
+    alphaL = alpha[index];
+    At11L = At11[index];
+    At12L = At12[index];
+    At13L = At13[index];
+    At22L = At22[index];
+    At23L = At23[index];
+    At33L = At33[index];
+    B1L = B1[index];
+    B2L = B2[index];
+    B3L = B3[index];
+    beta1L = beta1[index];
+    beta2L = beta2[index];
+    beta3L = beta3[index];
+    gt11L = gt11[index];
+    gt12L = gt12[index];
+    gt13L = gt13[index];
+    gt22L = gt22[index];
+    gt23L = gt23[index];
+    gt33L = gt33[index];
+    phiL = phi[index];
+    trKL = trK[index];
+    Xt1L = Xt1[index];
+    Xt2L = Xt2[index];
+    Xt3L = Xt3[index];
+    
+    /* Assign local copies of subblock grid functions */
+    
+    /* Include user supplied include files */
+    
+    /* Precompute derivatives (new style) */
+    
+    /* Precompute derivatives (old style) */
+    
+    /* Calculate temporaries and grid functions */
+    dir1  =  Sign(normal[0]);
+    
+    dir2  =  Sign(normal[1]);
+    
+    dir3  =  Sign(normal[2]);
+    
+    detgt  =  1;
+    
+    gtu11  =  INV(detgt)*(gt22L*gt33L - SQR(gt23L));
+    
+    gtu21  =  (gt13L*gt23L - gt12L*gt33L)*INV(detgt);
+    
+    gtu31  =  (-(gt13L*gt22L) + gt12L*gt23L)*INV(detgt);
+    
+    gtu22  =  INV(detgt)*(gt11L*gt33L - SQR(gt13L));
+    
+    gtu32  =  (gt12L*gt13L - gt11L*gt23L)*INV(detgt);
+    
+    gtu33  =  INV(detgt)*(gt11L*gt22L - SQR(gt12L));
+    
+    em4phi  =  exp(-4*phiL);
+    
+    gu11  =  em4phi*gtu11;
+    
+    gu21  =  em4phi*gtu21;
+    
+    gu31  =  em4phi*gtu31;
+    
+    gu22  =  em4phi*gtu22;
+    
+    gu32  =  em4phi*gtu32;
+    
+    gu33  =  em4phi*gtu33;
+    
+    nn1  =  normal[0];
+    
+    nn2  =  normal[1];
+    
+    nn3  =  normal[2];
+    
+    nu1  =  gu11*nn1 + gu21*nn2 + gu31*nn3;
+    
+    nu2  =  gu21*nn1 + gu22*nn2 + gu32*nn3;
+    
+    nu3  =  gu31*nn1 + gu32*nn2 + gu33*nn3;
+    
+    nlen2  =  nn1*nu1 + nn2*nu2 + nn3*nu3;
+    
+    nlen  =  pow(nlen2,0.5);
+    
+    su1  =  nu1*INV(nlen);
+    
+    su2  =  nu2*INV(nlen);
+    
+    su3  =  nu3*INV(nlen);
+    
+    vg  =  pow(harmonicF,0.5);
+    
+    phirhsL  =  -((PDonesided1(phi, i, j, k)*su1 + PDonesided2(phi, i, j, k)*su2 + PDonesided3(phi, i, j, k)*su3)*vg);
+    
+    gt11rhsL  =  -(PDonesided1(gt11, i, j, k)*su1) - PDonesided2(gt11, i, j, k)*su2 - PDonesided3(gt11, i, j, k)*su3;
+    
+    gt12rhsL  =  -(PDonesided1(gt12, i, j, k)*su1) - PDonesided2(gt12, i, j, k)*su2 - PDonesided3(gt12, i, j, k)*su3;
+    
+    gt13rhsL  =  -(PDonesided1(gt13, i, j, k)*su1) - PDonesided2(gt13, i, j, k)*su2 - PDonesided3(gt13, i, j, k)*su3;
+    
+    gt22rhsL  =  -(PDonesided1(gt22, i, j, k)*su1) - PDonesided2(gt22, i, j, k)*su2 - PDonesided3(gt22, i, j, k)*su3;
+    
+    gt23rhsL  =  -(PDonesided1(gt23, i, j, k)*su1) - PDonesided2(gt23, i, j, k)*su2 - PDonesided3(gt23, i, j, k)*su3;
+    
+    gt33rhsL  =  -(PDonesided1(gt33, i, j, k)*su1) - PDonesided2(gt33, i, j, k)*su2 - PDonesided3(gt33, i, j, k)*su3;
+    
+    trKrhsL  =  -((PDonesided1(trK, i, j, k)*su1 + PDonesided2(trK, i, j, k)*su2 + PDonesided3(trK, i, j, k)*su3)*vg);
+    
+    At11rhsL  =  -(PDonesided1(At11, i, j, k)*su1) - PDonesided2(At11, i, j, k)*su2 - PDonesided3(At11, i, j, k)*su3;
+    
+    At12rhsL  =  -(PDonesided1(At12, i, j, k)*su1) - PDonesided2(At12, i, j, k)*su2 - PDonesided3(At12, i, j, k)*su3;
+    
+    At13rhsL  =  -(PDonesided1(At13, i, j, k)*su1) - PDonesided2(At13, i, j, k)*su2 - PDonesided3(At13, i, j, k)*su3;
+    
+    At22rhsL  =  -(PDonesided1(At22, i, j, k)*su1) - PDonesided2(At22, i, j, k)*su2 - PDonesided3(At22, i, j, k)*su3;
+    
+    At23rhsL  =  -(PDonesided1(At23, i, j, k)*su1) - PDonesided2(At23, i, j, k)*su2 - PDonesided3(At23, i, j, k)*su3;
+    
+    At33rhsL  =  -(PDonesided1(At33, i, j, k)*su1) - PDonesided2(At33, i, j, k)*su2 - PDonesided3(At33, i, j, k)*su3;
+    
+    Xt1rhsL  =  -(PDonesided1(Xt1, i, j, k)*su1) - PDonesided2(Xt1, i, j, k)*su2 - PDonesided3(Xt1, i, j, k)*su3;
+    
+    Xt2rhsL  =  -(PDonesided1(Xt2, i, j, k)*su1) - PDonesided2(Xt2, i, j, k)*su2 - PDonesided3(Xt2, i, j, k)*su3;
+    
+    Xt3rhsL  =  -(PDonesided1(Xt3, i, j, k)*su1) - PDonesided2(Xt3, i, j, k)*su2 - PDonesided3(Xt3, i, j, k)*su3;
+    
+    alpharhsL  =  -((PDonesided1(alpha, i, j, k)*su1 + PDonesided2(alpha, i, j, k)*su2 + 
+            PDonesided3(alpha, i, j, k)*su3)*vg);
+    
+    ArhsL  =  -((PDonesided1(A, i, j, k)*su1 + PDonesided2(A, i, j, k)*su2 + PDonesided3(A, i, j, k)*su3)*vg);
+    
+    beta1rhsL  =  -(PDonesided1(beta1, i, j, k)*su1) - PDonesided2(beta1, i, j, k)*su2 - 
+        PDonesided3(beta1, i, j, k)*su3;
+    
+    beta2rhsL  =  -(PDonesided1(beta2, i, j, k)*su1) - PDonesided2(beta2, i, j, k)*su2 - 
+        PDonesided3(beta2, i, j, k)*su3;
+    
+    beta3rhsL  =  -(PDonesided1(beta3, i, j, k)*su1) - PDonesided2(beta3, i, j, k)*su2 - 
+        PDonesided3(beta3, i, j, k)*su3;
+    
+    B1rhsL  =  -(PDonesided1(B1, i, j, k)*su1) - PDonesided2(B1, i, j, k)*su2 - PDonesided3(B1, i, j, k)*su3;
+    
+    B2rhsL  =  -(PDonesided1(B2, i, j, k)*su1) - PDonesided2(B2, i, j, k)*su2 - PDonesided3(B2, i, j, k)*su3;
+    
+    B3rhsL  =  -(PDonesided1(B3, i, j, k)*su1) - PDonesided2(B3, i, j, k)*su2 - PDonesided3(B3, i, j, k)*su3;
+    
+    
+    /* Copy local copies back to grid functions */
+    alpharhs[index] = alpharhsL;
+    Arhs[index] = ArhsL;
+    At11rhs[index] = At11rhsL;
+    At12rhs[index] = At12rhsL;
+    At13rhs[index] = At13rhsL;
+    At22rhs[index] = At22rhsL;
+    At23rhs[index] = At23rhsL;
+    At33rhs[index] = At33rhsL;
+    B1rhs[index] = B1rhsL;
+    B2rhs[index] = B2rhsL;
+    B3rhs[index] = B3rhsL;
+    beta1rhs[index] = beta1rhsL;
+    beta2rhs[index] = beta2rhsL;
+    beta3rhs[index] = beta3rhsL;
+    gt11rhs[index] = gt11rhsL;
+    gt12rhs[index] = gt12rhsL;
+    gt13rhs[index] = gt13rhsL;
+    gt22rhs[index] = gt22rhsL;
+    gt23rhs[index] = gt23rhsL;
+    gt33rhs[index] = gt33rhsL;
+    phirhs[index] = phirhsL;
+    trKrhs[index] = trKrhsL;
+    Xt1rhs[index] = Xt1rhsL;
+    Xt2rhs[index] = Xt2rhsL;
+    Xt3rhs[index] = Xt3rhsL;
+    
+    /* Copy local copies back to subblock grid functions */
+  }
+  LC_ENDLOOP3 (ML_BSSN_RHSRadiativeBoundary);
+}
+
+void ML_BSSN_RHSRadiativeBoundary(CCTK_ARGUMENTS)
+{
+  DECLARE_CCTK_ARGUMENTS;
+  DECLARE_CCTK_PARAMETERS;
+  
+  GenericFD_LoopOverBoundary(cctkGH, &ML_BSSN_RHSRadiativeBoundary_Body);
+}