diff options
Diffstat (limited to 'ML_BSSN_O8/src/ML_BSSN_O8_convertFromADMBaseGamma.cc')
| -rw-r--r-- | ML_BSSN_O8/src/ML_BSSN_O8_convertFromADMBaseGamma.cc | 425 |
1 files changed, 425 insertions, 0 deletions
diff --git a/ML_BSSN_O8/src/ML_BSSN_O8_convertFromADMBaseGamma.cc b/ML_BSSN_O8/src/ML_BSSN_O8_convertFromADMBaseGamma.cc new file mode 100644 index 0000000..2122692 --- /dev/null +++ b/ML_BSSN_O8/src/ML_BSSN_O8_convertFromADMBaseGamma.cc @@ -0,0 +1,425 @@ +/* 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 "Vectors.hh" +#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)) + +static void ML_BSSN_O8_convertFromADMBaseGamma_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 min[3], int const max[3], int const n_subblock_gfs, CCTK_REAL * restrict const subblock_gfs[]) +{ + DECLARE_CCTK_ARGUMENTS; + DECLARE_CCTK_PARAMETERS; + + + /* Declare finite differencing variables */ + + if (verbose > 1) + { + CCTK_VInfo(CCTK_THORNSTRING,"Entering ML_BSSN_O8_convertFromADMBaseGamma_Body"); + } + + if (cctk_iteration % ML_BSSN_O8_convertFromADMBaseGamma_calc_every != ML_BSSN_O8_convertFromADMBaseGamma_calc_offset) + { + return; + } + + /* Include user-supplied include files */ + + /* Initialise finite differencing variables */ + CCTK_REAL const dx = CCTK_DELTA_SPACE(0); + CCTK_REAL const dy = CCTK_DELTA_SPACE(1); + CCTK_REAL const dz = CCTK_DELTA_SPACE(2); + int const di = 1; + int const dj = CCTK_GFINDEX3D(cctkGH,0,1,0) - CCTK_GFINDEX3D(cctkGH,0,0,0); + int const dk = CCTK_GFINDEX3D(cctkGH,0,0,1) - CCTK_GFINDEX3D(cctkGH,0,0,0); + CCTK_REAL const dxi = 1.0 / dx; + CCTK_REAL const dyi = 1.0 / dy; + CCTK_REAL const dzi = 1.0 / 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 p1o1024dx = INV(dx)/1024.; + CCTK_REAL const p1o1024dy = INV(dy)/1024.; + CCTK_REAL const p1o1024dz = INV(dz)/1024.; + CCTK_REAL const p1o1680dx = INV(dx)/1680.; + CCTK_REAL const p1o1680dy = INV(dy)/1680.; + CCTK_REAL const p1o1680dz = INV(dz)/1680.; + CCTK_REAL const p1o5040dx2 = pow(dx,-2)/5040.; + CCTK_REAL const p1o5040dy2 = pow(dy,-2)/5040.; + CCTK_REAL const p1o5040dz2 = pow(dz,-2)/5040.; + CCTK_REAL const p1o560dx = INV(dx)/560.; + CCTK_REAL const p1o560dy = INV(dy)/560.; + CCTK_REAL const p1o560dz = INV(dz)/560.; + CCTK_REAL const p1o705600dxdy = (INV(dx)*INV(dy))/705600.; + CCTK_REAL const p1o705600dxdz = (INV(dx)*INV(dz))/705600.; + CCTK_REAL const p1o705600dydz = (INV(dy)*INV(dz))/705600.; + CCTK_REAL const p1o840dx = INV(dx)/840.; + CCTK_REAL const p1o840dy = INV(dy)/840.; + CCTK_REAL const p1o840dz = INV(dz)/840.; + CCTK_REAL const p1odx = INV(dx); + CCTK_REAL const p1ody = INV(dy); + CCTK_REAL const p1odz = INV(dz); + CCTK_REAL const pm1o840dx = -INV(dx)/840.; + CCTK_REAL const pm1o840dy = -INV(dy)/840.; + CCTK_REAL const pm1o840dz = -INV(dz)/840.; + + /* Loop over the grid points */ + #pragma omp parallel + LC_LOOP3 (ML_BSSN_O8_convertFromADMBaseGamma, + 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 const index = CCTK_GFINDEX3D(cctkGH,i,j,k); + /* Declare derivatives */ + // CCTK_REAL_VEC PDupwindNthAnti1alpha = INITVALUE; + // CCTK_REAL_VEC PDupwindNthSymm1alpha = INITVALUE; + // CCTK_REAL_VEC PDupwindNthAnti2alpha = INITVALUE; + // CCTK_REAL_VEC PDupwindNthSymm2alpha = INITVALUE; + // CCTK_REAL_VEC PDupwindNthAnti3alpha = INITVALUE; + // CCTK_REAL_VEC PDupwindNthSymm3alpha = INITVALUE; + // CCTK_REAL_VEC PDupwindNthAnti1beta1 = INITVALUE; + // CCTK_REAL_VEC PDupwindNthSymm1beta1 = INITVALUE; + // CCTK_REAL_VEC PDupwindNthAnti2beta1 = INITVALUE; + // CCTK_REAL_VEC PDupwindNthSymm2beta1 = INITVALUE; + // CCTK_REAL_VEC PDupwindNthAnti3beta1 = INITVALUE; + // CCTK_REAL_VEC PDupwindNthSymm3beta1 = INITVALUE; + // CCTK_REAL_VEC PDupwindNthAnti1beta2 = INITVALUE; + // CCTK_REAL_VEC PDupwindNthSymm1beta2 = INITVALUE; + // CCTK_REAL_VEC PDupwindNthAnti2beta2 = INITVALUE; + // CCTK_REAL_VEC PDupwindNthSymm2beta2 = INITVALUE; + // CCTK_REAL_VEC PDupwindNthAnti3beta2 = INITVALUE; + // CCTK_REAL_VEC PDupwindNthSymm3beta2 = INITVALUE; + // CCTK_REAL_VEC PDupwindNthAnti1beta3 = INITVALUE; + // CCTK_REAL_VEC PDupwindNthSymm1beta3 = INITVALUE; + // CCTK_REAL_VEC PDupwindNthAnti2beta3 = INITVALUE; + // CCTK_REAL_VEC PDupwindNthSymm2beta3 = INITVALUE; + // CCTK_REAL_VEC PDupwindNthAnti3beta3 = INITVALUE; + // CCTK_REAL_VEC PDupwindNthSymm3beta3 = INITVALUE; + // CCTK_REAL_VEC PDstandardNth1gt11 = INITVALUE; + // CCTK_REAL_VEC PDstandardNth2gt11 = INITVALUE; + // CCTK_REAL_VEC PDstandardNth3gt11 = INITVALUE; + // CCTK_REAL_VEC PDstandardNth1gt12 = INITVALUE; + // CCTK_REAL_VEC PDstandardNth2gt12 = INITVALUE; + // CCTK_REAL_VEC PDstandardNth3gt12 = INITVALUE; + // CCTK_REAL_VEC PDstandardNth1gt13 = INITVALUE; + // CCTK_REAL_VEC PDstandardNth2gt13 = INITVALUE; + // CCTK_REAL_VEC PDstandardNth3gt13 = INITVALUE; + // CCTK_REAL_VEC PDstandardNth1gt22 = INITVALUE; + // CCTK_REAL_VEC PDstandardNth2gt22 = INITVALUE; + // CCTK_REAL_VEC PDstandardNth3gt22 = INITVALUE; + // CCTK_REAL_VEC PDstandardNth1gt23 = INITVALUE; + // CCTK_REAL_VEC PDstandardNth2gt23 = INITVALUE; + // CCTK_REAL_VEC PDstandardNth3gt23 = INITVALUE; + // CCTK_REAL_VEC PDstandardNth1gt33 = INITVALUE; + // CCTK_REAL_VEC PDstandardNth2gt33 = INITVALUE; + // CCTK_REAL_VEC PDstandardNth3gt33 = INITVALUE; + + /* Assign local copies of grid functions */ + CCTK_REAL_VEC alphaL = vec_load(alpha[index]); + CCTK_REAL_VEC beta1L = vec_load(beta1[index]); + CCTK_REAL_VEC beta2L = vec_load(beta2[index]); + CCTK_REAL_VEC beta3L = vec_load(beta3[index]); + CCTK_REAL_VEC dtalpL = vec_load(dtalp[index]); + CCTK_REAL_VEC dtbetaxL = vec_load(dtbetax[index]); + CCTK_REAL_VEC dtbetayL = vec_load(dtbetay[index]); + CCTK_REAL_VEC dtbetazL = vec_load(dtbetaz[index]); + CCTK_REAL_VEC gt11L = vec_load(gt11[index]); + CCTK_REAL_VEC gt12L = vec_load(gt12[index]); + CCTK_REAL_VEC gt13L = vec_load(gt13[index]); + CCTK_REAL_VEC gt22L = vec_load(gt22[index]); + CCTK_REAL_VEC gt23L = vec_load(gt23[index]); + CCTK_REAL_VEC gt33L = vec_load(gt33[index]); + CCTK_REAL_VEC rL = vec_load(r[index]); + + /* Include user supplied include files */ + + /* Precompute derivatives */ + CCTK_REAL_VEC const PDupwindNthAnti1alpha = PDupwindNthAnti1(alpha, i, j, k); + CCTK_REAL_VEC const PDupwindNthSymm1alpha = PDupwindNthSymm1(alpha, i, j, k); + CCTK_REAL_VEC const PDupwindNthAnti2alpha = PDupwindNthAnti2(alpha, i, j, k); + CCTK_REAL_VEC const PDupwindNthSymm2alpha = PDupwindNthSymm2(alpha, i, j, k); + CCTK_REAL_VEC const PDupwindNthAnti3alpha = PDupwindNthAnti3(alpha, i, j, k); + CCTK_REAL_VEC const PDupwindNthSymm3alpha = PDupwindNthSymm3(alpha, i, j, k); + CCTK_REAL_VEC const PDupwindNthAnti1beta1 = PDupwindNthAnti1(beta1, i, j, k); + CCTK_REAL_VEC const PDupwindNthSymm1beta1 = PDupwindNthSymm1(beta1, i, j, k); + CCTK_REAL_VEC const PDupwindNthAnti2beta1 = PDupwindNthAnti2(beta1, i, j, k); + CCTK_REAL_VEC const PDupwindNthSymm2beta1 = PDupwindNthSymm2(beta1, i, j, k); + CCTK_REAL_VEC const PDupwindNthAnti3beta1 = PDupwindNthAnti3(beta1, i, j, k); + CCTK_REAL_VEC const PDupwindNthSymm3beta1 = PDupwindNthSymm3(beta1, i, j, k); + CCTK_REAL_VEC const PDupwindNthAnti1beta2 = PDupwindNthAnti1(beta2, i, j, k); + CCTK_REAL_VEC const PDupwindNthSymm1beta2 = PDupwindNthSymm1(beta2, i, j, k); + CCTK_REAL_VEC const PDupwindNthAnti2beta2 = PDupwindNthAnti2(beta2, i, j, k); + CCTK_REAL_VEC const PDupwindNthSymm2beta2 = PDupwindNthSymm2(beta2, i, j, k); + CCTK_REAL_VEC const PDupwindNthAnti3beta2 = PDupwindNthAnti3(beta2, i, j, k); + CCTK_REAL_VEC const PDupwindNthSymm3beta2 = PDupwindNthSymm3(beta2, i, j, k); + CCTK_REAL_VEC const PDupwindNthAnti1beta3 = PDupwindNthAnti1(beta3, i, j, k); + CCTK_REAL_VEC const PDupwindNthSymm1beta3 = PDupwindNthSymm1(beta3, i, j, k); + CCTK_REAL_VEC const PDupwindNthAnti2beta3 = PDupwindNthAnti2(beta3, i, j, k); + CCTK_REAL_VEC const PDupwindNthSymm2beta3 = PDupwindNthSymm2(beta3, i, j, k); + CCTK_REAL_VEC const PDupwindNthAnti3beta3 = PDupwindNthAnti3(beta3, i, j, k); + CCTK_REAL_VEC const PDupwindNthSymm3beta3 = PDupwindNthSymm3(beta3, i, j, k); + CCTK_REAL_VEC const PDstandardNth1gt11 = PDstandardNth1(gt11, i, j, k); + CCTK_REAL_VEC const PDstandardNth2gt11 = PDstandardNth2(gt11, i, j, k); + CCTK_REAL_VEC const PDstandardNth3gt11 = PDstandardNth3(gt11, i, j, k); + CCTK_REAL_VEC const PDstandardNth1gt12 = PDstandardNth1(gt12, i, j, k); + CCTK_REAL_VEC const PDstandardNth2gt12 = PDstandardNth2(gt12, i, j, k); + CCTK_REAL_VEC const PDstandardNth3gt12 = PDstandardNth3(gt12, i, j, k); + CCTK_REAL_VEC const PDstandardNth1gt13 = PDstandardNth1(gt13, i, j, k); + CCTK_REAL_VEC const PDstandardNth2gt13 = PDstandardNth2(gt13, i, j, k); + CCTK_REAL_VEC const PDstandardNth3gt13 = PDstandardNth3(gt13, i, j, k); + CCTK_REAL_VEC const PDstandardNth1gt22 = PDstandardNth1(gt22, i, j, k); + CCTK_REAL_VEC const PDstandardNth2gt22 = PDstandardNth2(gt22, i, j, k); + CCTK_REAL_VEC const PDstandardNth3gt22 = PDstandardNth3(gt22, i, j, k); + CCTK_REAL_VEC const PDstandardNth1gt23 = PDstandardNth1(gt23, i, j, k); + CCTK_REAL_VEC const PDstandardNth2gt23 = PDstandardNth2(gt23, i, j, k); + CCTK_REAL_VEC const PDstandardNth3gt23 = PDstandardNth3(gt23, i, j, k); + CCTK_REAL_VEC const PDstandardNth1gt33 = PDstandardNth1(gt33, i, j, k); + CCTK_REAL_VEC const PDstandardNth2gt33 = PDstandardNth2(gt33, i, j, k); + CCTK_REAL_VEC const PDstandardNth3gt33 = PDstandardNth3(gt33, i, j, k); + + /* Calculate temporaries and grid functions */ + int dir1 = Sign(beta1L); + + int dir2 = Sign(beta2L); + + int dir3 = Sign(beta3L); + + CCTK_REAL_VEC detgt = 1; + + CCTK_REAL_VEC gtu11 = INV(detgt)*(gt22L*gt33L - SQR(gt23L)); + + CCTK_REAL_VEC gtu21 = (gt13L*gt23L - gt12L*gt33L)*INV(detgt); + + CCTK_REAL_VEC gtu31 = (-(gt13L*gt22L) + gt12L*gt23L)*INV(detgt); + + CCTK_REAL_VEC gtu22 = INV(detgt)*(gt11L*gt33L - SQR(gt13L)); + + CCTK_REAL_VEC gtu32 = (gt12L*gt13L - gt11L*gt23L)*INV(detgt); + + CCTK_REAL_VEC gtu33 = INV(detgt)*(gt11L*gt22L - SQR(gt12L)); + + CCTK_REAL_VEC Gt111 = khalf*(gtu11*PDstandardNth1gt11 + + 2*(gtu21*PDstandardNth1gt12 + gtu31*PDstandardNth1gt13) - + gtu21*PDstandardNth2gt11 - gtu31*PDstandardNth3gt11); + + CCTK_REAL_VEC Gt211 = khalf*(gtu21*PDstandardNth1gt11 + + 2*(gtu22*PDstandardNth1gt12 + gtu32*PDstandardNth1gt13) - + gtu22*PDstandardNth2gt11 - gtu32*PDstandardNth3gt11); + + CCTK_REAL_VEC Gt311 = khalf*(gtu31*PDstandardNth1gt11 + + 2*(gtu32*PDstandardNth1gt12 + gtu33*PDstandardNth1gt13) - + gtu32*PDstandardNth2gt11 - gtu33*PDstandardNth3gt11); + + CCTK_REAL_VEC Gt112 = khalf*(gtu21*PDstandardNth1gt22 + + gtu11*PDstandardNth2gt11 + gtu31*(PDstandardNth1gt23 + + PDstandardNth2gt13 - PDstandardNth3gt12)); + + CCTK_REAL_VEC Gt212 = khalf*(gtu22*PDstandardNth1gt22 + + gtu21*PDstandardNth2gt11 + gtu32*(PDstandardNth1gt23 + + PDstandardNth2gt13 - PDstandardNth3gt12)); + + CCTK_REAL_VEC Gt312 = khalf*(gtu32*PDstandardNth1gt22 + + gtu31*PDstandardNth2gt11 + gtu33*(PDstandardNth1gt23 + + PDstandardNth2gt13 - PDstandardNth3gt12)); + + CCTK_REAL_VEC Gt113 = khalf*(gtu31*PDstandardNth1gt33 + + gtu11*PDstandardNth3gt11 + gtu21*(PDstandardNth1gt23 - + PDstandardNth2gt13 + PDstandardNth3gt12)); + + CCTK_REAL_VEC Gt213 = khalf*(gtu32*PDstandardNth1gt33 + + gtu21*PDstandardNth3gt11 + gtu22*(PDstandardNth1gt23 - + PDstandardNth2gt13 + PDstandardNth3gt12)); + + CCTK_REAL_VEC Gt313 = khalf*(gtu33*PDstandardNth1gt33 + + gtu31*PDstandardNth3gt11 + gtu32*(PDstandardNth1gt23 - + PDstandardNth2gt13 + PDstandardNth3gt12)); + + CCTK_REAL_VEC Gt122 = khalf*(gtu11*(-PDstandardNth1gt22 + + 2*PDstandardNth2gt12) + gtu21*PDstandardNth2gt22 + + gtu31*(2*PDstandardNth2gt23 - PDstandardNth3gt22)); + + CCTK_REAL_VEC Gt222 = khalf*(gtu21*(-PDstandardNth1gt22 + + 2*PDstandardNth2gt12) + gtu22*PDstandardNth2gt22 + + gtu32*(2*PDstandardNth2gt23 - PDstandardNth3gt22)); + + CCTK_REAL_VEC Gt322 = khalf*(gtu31*(-PDstandardNth1gt22 + + 2*PDstandardNth2gt12) + gtu32*PDstandardNth2gt22 + + gtu33*(2*PDstandardNth2gt23 - PDstandardNth3gt22)); + + CCTK_REAL_VEC Gt123 = khalf*(gtu31*PDstandardNth2gt33 + + gtu11*(-PDstandardNth1gt23 + PDstandardNth2gt13 + PDstandardNth3gt12) + + gtu21*PDstandardNth3gt22); + + CCTK_REAL_VEC Gt223 = khalf*(gtu32*PDstandardNth2gt33 + + gtu21*(-PDstandardNth1gt23 + PDstandardNth2gt13 + PDstandardNth3gt12) + + gtu22*PDstandardNth3gt22); + + CCTK_REAL_VEC Gt323 = khalf*(gtu33*PDstandardNth2gt33 + + gtu31*(-PDstandardNth1gt23 + PDstandardNth2gt13 + PDstandardNth3gt12) + + gtu32*PDstandardNth3gt22); + + CCTK_REAL_VEC Gt133 = khalf*(-(gtu11*PDstandardNth1gt33) - + gtu21*PDstandardNth2gt33 + 2*gtu11*PDstandardNth3gt13 + + 2*gtu21*PDstandardNth3gt23 + gtu31*PDstandardNth3gt33); + + CCTK_REAL_VEC Gt233 = khalf*(-(gtu21*PDstandardNth1gt33) - + gtu22*PDstandardNth2gt33 + 2*gtu21*PDstandardNth3gt13 + + 2*gtu22*PDstandardNth3gt23 + gtu32*PDstandardNth3gt33); + + CCTK_REAL_VEC Gt333 = khalf*(-(gtu31*PDstandardNth1gt33) - + gtu32*PDstandardNth2gt33 + 2*gtu31*PDstandardNth3gt13 + + 2*gtu32*PDstandardNth3gt23 + gtu33*PDstandardNth3gt33); + + CCTK_REAL_VEC Xt1L = Gt111*gtu11 + Gt122*gtu22 + 2*(Gt112*gtu21 + + Gt113*gtu31 + Gt123*gtu32) + Gt133*gtu33; + + CCTK_REAL_VEC Xt2L = Gt211*gtu11 + Gt222*gtu22 + 2*(Gt212*gtu21 + + Gt213*gtu31 + Gt223*gtu32) + Gt233*gtu33; + + CCTK_REAL_VEC Xt3L = Gt311*gtu11 + Gt322*gtu22 + 2*(Gt312*gtu21 + + Gt313*gtu31 + Gt323*gtu32) + Gt333*gtu33; + + CCTK_REAL_VEC AL = 12*IfThen(LapseACoeff != + 0,-(dtalpL*INV(harmonicF)*pow(alphaL,-harmonicN)),0) + + IfThen(LapseACoeff != 0,(-dtalpL + + LapseAdvectionCoeff*(beta1L*PDupwindNthAnti1alpha + + PDupwindNthSymm1alpha*Abs(beta1L)))*INV(harmonicF)*pow(alphaL,-harmonicN),0) + + IfThen(LapseACoeff != 0,(-dtalpL + + LapseAdvectionCoeff*(beta2L*PDupwindNthAnti2alpha + + PDupwindNthSymm2alpha*Abs(beta2L)))*INV(harmonicF)*pow(alphaL,-harmonicN),0) + + 2*(IfThen(LapseACoeff != 0,(-dtalpL + + beta1L*LapseAdvectionCoeff*PDupwindNthAnti1alpha)*INV(harmonicF)*pow(alphaL,-harmonicN),0) + + IfThen(LapseACoeff != 0,(-dtalpL + + beta2L*LapseAdvectionCoeff*PDupwindNthAnti2alpha)*INV(harmonicF)*pow(alphaL,-harmonicN),0) + + IfThen(LapseACoeff != 0,(-dtalpL + + beta3L*LapseAdvectionCoeff*PDupwindNthAnti3alpha)*INV(harmonicF)*pow(alphaL,-harmonicN),0) + + IfThen(LapseACoeff != 0,(-dtalpL + + LapseAdvectionCoeff*PDupwindNthSymm1alpha*Abs(beta1L))*INV(harmonicF)*pow(alphaL,-harmonicN),0) + + IfThen(LapseACoeff != 0,(-dtalpL + + LapseAdvectionCoeff*PDupwindNthSymm2alpha*Abs(beta2L))*INV(harmonicF)*pow(alphaL,-harmonicN),0) + + IfThen(LapseACoeff != 0,(-dtalpL + + LapseAdvectionCoeff*PDupwindNthSymm3alpha*Abs(beta3L))*INV(harmonicF)*pow(alphaL,-harmonicN),0)) + + IfThen(LapseACoeff != 0,(-dtalpL + + LapseAdvectionCoeff*(beta3L*PDupwindNthAnti3alpha + + PDupwindNthSymm3alpha*Abs(beta3L)))*INV(harmonicF)*pow(alphaL,-harmonicN),0); + + CCTK_REAL_VEC theta = fmin(1,exp(1 - + rL*INV(SpatialShiftGammaCoeffRadius))); + + CCTK_REAL_VEC B1L = 12*IfThen(ShiftBCoeff*ShiftGammaCoeff != + 0,dtbetaxL*INV(ShiftGammaCoeff)*INV(theta),0) + + IfThen(ShiftBCoeff*ShiftGammaCoeff != 0,(dtbetaxL - + beta1L*PDupwindNthAnti1beta1*ShiftAdvectionCoeff - + PDupwindNthSymm1beta1*ShiftAdvectionCoeff*Abs(beta1L))*INV(ShiftGammaCoeff)*INV(theta),0) + + IfThen(ShiftBCoeff*ShiftGammaCoeff != 0,(dtbetaxL - + beta2L*PDupwindNthAnti2beta1*ShiftAdvectionCoeff - + PDupwindNthSymm2beta1*ShiftAdvectionCoeff*Abs(beta2L))*INV(ShiftGammaCoeff)*INV(theta),0) + + 2*(IfThen(ShiftBCoeff*ShiftGammaCoeff != 0,(dtbetaxL - + beta1L*PDupwindNthAnti1beta1*ShiftAdvectionCoeff)*INV(ShiftGammaCoeff)*INV(theta),0) + + IfThen(ShiftBCoeff*ShiftGammaCoeff != 0,(dtbetaxL - + beta2L*PDupwindNthAnti2beta1*ShiftAdvectionCoeff)*INV(ShiftGammaCoeff)*INV(theta),0) + + IfThen(ShiftBCoeff*ShiftGammaCoeff != 0,(dtbetaxL - + beta3L*PDupwindNthAnti3beta1*ShiftAdvectionCoeff)*INV(ShiftGammaCoeff)*INV(theta),0) + + IfThen(ShiftBCoeff*ShiftGammaCoeff != 0,(dtbetaxL - + PDupwindNthSymm1beta1*ShiftAdvectionCoeff*Abs(beta1L))*INV(ShiftGammaCoeff)*INV(theta),0) + + IfThen(ShiftBCoeff*ShiftGammaCoeff != 0,(dtbetaxL - + PDupwindNthSymm2beta1*ShiftAdvectionCoeff*Abs(beta2L))*INV(ShiftGammaCoeff)*INV(theta),0) + + IfThen(ShiftBCoeff*ShiftGammaCoeff != 0,(dtbetaxL - + PDupwindNthSymm3beta1*ShiftAdvectionCoeff*Abs(beta3L))*INV(ShiftGammaCoeff)*INV(theta),0)) + + IfThen(ShiftBCoeff*ShiftGammaCoeff != 0,(dtbetaxL - + beta3L*PDupwindNthAnti3beta1*ShiftAdvectionCoeff - + PDupwindNthSymm3beta1*ShiftAdvectionCoeff*Abs(beta3L))*INV(ShiftGammaCoeff)*INV(theta),0); + + CCTK_REAL_VEC B2L = 12*IfThen(ShiftBCoeff*ShiftGammaCoeff != + 0,dtbetayL*INV(ShiftGammaCoeff)*INV(theta),0) + + IfThen(ShiftBCoeff*ShiftGammaCoeff != 0,(dtbetayL - + beta1L*PDupwindNthAnti1beta2*ShiftAdvectionCoeff - + PDupwindNthSymm1beta2*ShiftAdvectionCoeff*Abs(beta1L))*INV(ShiftGammaCoeff)*INV(theta),0) + + IfThen(ShiftBCoeff*ShiftGammaCoeff != 0,(dtbetayL - + beta2L*PDupwindNthAnti2beta2*ShiftAdvectionCoeff - + PDupwindNthSymm2beta2*ShiftAdvectionCoeff*Abs(beta2L))*INV(ShiftGammaCoeff)*INV(theta),0) + + 2*(IfThen(ShiftBCoeff*ShiftGammaCoeff != 0,(dtbetayL - + beta1L*PDupwindNthAnti1beta2*ShiftAdvectionCoeff)*INV(ShiftGammaCoeff)*INV(theta),0) + + IfThen(ShiftBCoeff*ShiftGammaCoeff != 0,(dtbetayL - + beta2L*PDupwindNthAnti2beta2*ShiftAdvectionCoeff)*INV(ShiftGammaCoeff)*INV(theta),0) + + IfThen(ShiftBCoeff*ShiftGammaCoeff != 0,(dtbetayL - + beta3L*PDupwindNthAnti3beta2*ShiftAdvectionCoeff)*INV(ShiftGammaCoeff)*INV(theta),0) + + IfThen(ShiftBCoeff*ShiftGammaCoeff != 0,(dtbetayL - + PDupwindNthSymm1beta2*ShiftAdvectionCoeff*Abs(beta1L))*INV(ShiftGammaCoeff)*INV(theta),0) + + IfThen(ShiftBCoeff*ShiftGammaCoeff != 0,(dtbetayL - + PDupwindNthSymm2beta2*ShiftAdvectionCoeff*Abs(beta2L))*INV(ShiftGammaCoeff)*INV(theta),0) + + IfThen(ShiftBCoeff*ShiftGammaCoeff != 0,(dtbetayL - + PDupwindNthSymm3beta2*ShiftAdvectionCoeff*Abs(beta3L))*INV(ShiftGammaCoeff)*INV(theta),0)) + + IfThen(ShiftBCoeff*ShiftGammaCoeff != 0,(dtbetayL - + beta3L*PDupwindNthAnti3beta2*ShiftAdvectionCoeff - + PDupwindNthSymm3beta2*ShiftAdvectionCoeff*Abs(beta3L))*INV(ShiftGammaCoeff)*INV(theta),0); + + CCTK_REAL_VEC B3L = 12*IfThen(ShiftBCoeff*ShiftGammaCoeff != + 0,dtbetazL*INV(ShiftGammaCoeff)*INV(theta),0) + + IfThen(ShiftBCoeff*ShiftGammaCoeff != 0,(dtbetazL - + beta1L*PDupwindNthAnti1beta3*ShiftAdvectionCoeff - + PDupwindNthSymm1beta3*ShiftAdvectionCoeff*Abs(beta1L))*INV(ShiftGammaCoeff)*INV(theta),0) + + IfThen(ShiftBCoeff*ShiftGammaCoeff != 0,(dtbetazL - + beta2L*PDupwindNthAnti2beta3*ShiftAdvectionCoeff - + PDupwindNthSymm2beta3*ShiftAdvectionCoeff*Abs(beta2L))*INV(ShiftGammaCoeff)*INV(theta),0) + + 2*(IfThen(ShiftBCoeff*ShiftGammaCoeff != 0,(dtbetazL - + beta1L*PDupwindNthAnti1beta3*ShiftAdvectionCoeff)*INV(ShiftGammaCoeff)*INV(theta),0) + + IfThen(ShiftBCoeff*ShiftGammaCoeff != 0,(dtbetazL - + beta2L*PDupwindNthAnti2beta3*ShiftAdvectionCoeff)*INV(ShiftGammaCoeff)*INV(theta),0) + + IfThen(ShiftBCoeff*ShiftGammaCoeff != 0,(dtbetazL - + beta3L*PDupwindNthAnti3beta3*ShiftAdvectionCoeff)*INV(ShiftGammaCoeff)*INV(theta),0) + + IfThen(ShiftBCoeff*ShiftGammaCoeff != 0,(dtbetazL - + PDupwindNthSymm1beta3*ShiftAdvectionCoeff*Abs(beta1L))*INV(ShiftGammaCoeff)*INV(theta),0) + + IfThen(ShiftBCoeff*ShiftGammaCoeff != 0,(dtbetazL - + PDupwindNthSymm2beta3*ShiftAdvectionCoeff*Abs(beta2L))*INV(ShiftGammaCoeff)*INV(theta),0) + + IfThen(ShiftBCoeff*ShiftGammaCoeff != 0,(dtbetazL - + PDupwindNthSymm3beta3*ShiftAdvectionCoeff*Abs(beta3L))*INV(ShiftGammaCoeff)*INV(theta),0)) + + IfThen(ShiftBCoeff*ShiftGammaCoeff != 0,(dtbetazL - + beta3L*PDupwindNthAnti3beta3*ShiftAdvectionCoeff - + PDupwindNthSymm3beta3*ShiftAdvectionCoeff*Abs(beta3L))*INV(ShiftGammaCoeff)*INV(theta),0); + + + /* Copy local copies back to grid functions */ + vec_store_nta(A[index],AL); + vec_store_nta(B1[index],B1L); + vec_store_nta(B2[index],B2L); + vec_store_nta(B3[index],B3L); + vec_store_nta(Xt1[index],Xt1L); + vec_store_nta(Xt2[index],Xt2L); + vec_store_nta(Xt3[index],Xt3L); + i += CCTK_REAL_VEC_SIZE-1; + } + LC_ENDLOOP3 (ML_BSSN_O8_convertFromADMBaseGamma); +} + +extern "C" void ML_BSSN_O8_convertFromADMBaseGamma(CCTK_ARGUMENTS) +{ + DECLARE_CCTK_ARGUMENTS; + DECLARE_CCTK_PARAMETERS; + + GenericFD_LoopOverInterior(cctkGH, &ML_BSSN_O8_convertFromADMBaseGamma_Body); +} |