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Reuse mass integrand across detector radii

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This commit is contained in:
CGH0S7
2026-04-13 11:55:41 +08:00
parent 3a58273501
commit 4b10519876
3 changed files with 226 additions and 206 deletions
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147
AMSS_NCKU_source/bssn_class.C
View File

@@ -7114,13 +7114,17 @@ void bssn_class::AnalysisStuff(int lev, double dT_lev)
for (int pl = 2; pl < maxl + 1; pl++)
for (int pm = -pl; pm < pl + 1; pm++)
NN++;
RP = new double[NN];
IP = new double[NN];
RoutMAP = new double[7];
double Rex = maxrex;
for (int i = 0; i < decn; i++)
{
#ifdef Point_Psi4
RP = new double[NN];
IP = new double[NN];
RoutMAP = new double[7];
double Rex = maxrex;
bool patch_mass_prepared = false;
#ifdef WithShell
bool shell_mass_prepared = false;
#endif
for (int i = 0; i < decn; i++)
{
#ifdef Point_Psi4
Waveshell->surf_Wave(Rex, GH, SH,
phi, trK,
gxx0, gxy0, gxz0, gyy0, gyz0, gzz0,
@@ -7139,69 +7143,76 @@ void bssn_class::AnalysisStuff(int lev, double dT_lev)
Rxx, Rxy, Rxz, Ryy, Ryz, Rzz,
2, maxl, NN, RP, IP, ErrorMonitor);
#ifdef WithShell
if (lev > 0 || Rex < GH->bbox[0][0][3])
{
Waveshell->surf_MassPAng(Rex, lev, GH, phi0, trK0,
gxx0, gxy0, gxz0, gyy0, gyz0, gzz0,
Axx0, Axy0, Axz0, Ayy0, Ayz0, Azz0,
Gmx0, Gmy0, Gmz0, Sfx1, Sfy1, Sfz1, // here we can not touch rhs variables, but 1 variables
RoutMAP, ErrorMonitor);
}
else
{
Waveshell->surf_MassPAng(Rex, lev, SH, phi0, trK0,
gxx0, gxy0, gxz0, gyy0, gyz0, gzz0,
Axx0, Axy0, Axz0, Ayy0, Ayz0, Azz0,
Gmx0, Gmy0, Gmz0, Sfx1, Sfy1, Sfz1, // here we can not touch rhs variables, but 1 variables
RoutMAP, ErrorMonitor);
}
#else
Waveshell->surf_MassPAng(Rex, lev, GH, phi0, trK0,
gxx0, gxy0, gxz0, gyy0, gyz0, gzz0,
Axx0, Axy0, Axz0, Ayy0, Ayz0, Azz0,
Gmx0, Gmy0, Gmz0, Sfx1, Sfy1, Sfz1, // here we can not touch rhs variables, but 1 variables
RoutMAP, ErrorMonitor);
#endif
#else
// misc::tillherecheck(GH->Commlev[lev],GH->start_rank[lev],"before surface integral");
#ifdef WithShell
if (lev > 0 || Rex < GH->bbox[0][0][3])
if (lev > 0 || Rex < GH->bbox[0][0][3])
{
Waveshell->surf_MassPAng(Rex, lev, GH, phi0, trK0,
gxx0, gxy0, gxz0, gyy0, gyz0, gzz0,
Axx0, Axy0, Axz0, Ayy0, Ayz0, Azz0,
Gmx0, Gmy0, Gmz0, Sfx1, Sfy1, Sfz1, // here we can not touch rhs variables, but 1 variables
RoutMAP, ErrorMonitor, !patch_mass_prepared);
patch_mass_prepared = true;
}
else
{
Waveshell->surf_MassPAng(Rex, lev, SH, phi0, trK0,
gxx0, gxy0, gxz0, gyy0, gyz0, gzz0,
Axx0, Axy0, Axz0, Ayy0, Ayz0, Azz0,
Gmx0, Gmy0, Gmz0, Sfx1, Sfy1, Sfz1, // here we can not touch rhs variables, but 1 variables
RoutMAP, ErrorMonitor, !shell_mass_prepared);
shell_mass_prepared = true;
}
#else
Waveshell->surf_MassPAng(Rex, lev, GH, phi0, trK0,
gxx0, gxy0, gxz0, gyy0, gyz0, gzz0,
Axx0, Axy0, Axz0, Ayy0, Ayz0, Azz0,
Gmx0, Gmy0, Gmz0, Sfx1, Sfy1, Sfz1, // here we can not touch rhs variables, but 1 variables
RoutMAP, ErrorMonitor, !patch_mass_prepared);
patch_mass_prepared = true;
#endif
#else
// misc::tillherecheck(GH->Commlev[lev],GH->start_rank[lev],"before surface integral");
#ifdef WithShell
if (lev > 0 || Rex < GH->bbox[0][0][3])
{
Waveshell->surf_Wave(Rex, lev, GH, Rpsi4, Ipsi4, 2, maxl, NN, RP, IP, ErrorMonitor);
Waveshell->surf_MassPAng(Rex, lev, GH, phi0, trK0,
gxx0, gxy0, gxz0, gyy0, gyz0, gzz0,
Axx0, Axy0, Axz0, Ayy0, Ayz0, Azz0,
Gmx0, Gmy0, Gmz0, Sfx1, Sfy1, Sfz1, // here we can not touch rhs variables, but 1 variables
RoutMAP, ErrorMonitor);
}
else
{
Waveshell->surf_Wave(Rex, lev, SH, Rpsi4, Ipsi4, 2, maxl, NN, RP, IP, ErrorMonitor);
Waveshell->surf_MassPAng(Rex, lev, SH, phi0, trK0,
gxx0, gxy0, gxz0, gyy0, gyz0, gzz0,
Axx0, Axy0, Axz0, Ayy0, Ayz0, Azz0,
Gmx0, Gmy0, Gmz0, Sfx1, Sfy1, Sfz1, // here we can not touch rhs variables, but 1 variables
RoutMAP, ErrorMonitor);
}
#else
#if (PSTR == 0)
Waveshell->surf_Wave(Rex, lev, GH, Rpsi4, Ipsi4, 2, maxl, NN, RP, IP, ErrorMonitor);
Waveshell->surf_MassPAng(Rex, lev, GH, phi0, trK0,
gxx0, gxy0, gxz0, gyy0, gyz0, gzz0,
Axx0, Axy0, Axz0, Ayy0, Ayz0, Azz0,
Gmx0, Gmy0, Gmz0, Sfx1, Sfy1, Sfz1, // here we can not touch rhs variables, but 1 variables
RoutMAP, ErrorMonitor);
#elif (PSTR == 1 || PSTR == 2)
Waveshell->surf_Wave(Rex, lev, GH, Rpsi4, Ipsi4, 2, maxl, NN, RP, IP, ErrorMonitor, GH->Commlev[lev]);
// misc::tillherecheck(GH->Commlev[lev],GH->start_rank[lev],"after surf_Wave");
Waveshell->surf_MassPAng(Rex, lev, GH, phi0, trK0,
gxx0, gxy0, gxz0, gyy0, gyz0, gzz0,
Axx0, Axy0, Axz0, Ayy0, Ayz0, Azz0,
Gmx0, Gmy0, Gmz0, Sfx1, Sfy1, Sfz1, // here we can not touch rhs variables, but 1 variables
RoutMAP, ErrorMonitor, GH->Commlev[lev]);
#endif
#endif
// misc::tillherecheck(GH->Commlev[lev],GH->start_rank[lev],"end surface integral");
Waveshell->surf_MassPAng(Rex, lev, GH, phi0, trK0,
gxx0, gxy0, gxz0, gyy0, gyz0, gzz0,
Axx0, Axy0, Axz0, Ayy0, Ayz0, Azz0,
Gmx0, Gmy0, Gmz0, Sfx1, Sfy1, Sfz1, // here we can not touch rhs variables, but 1 variables
RoutMAP, ErrorMonitor, !patch_mass_prepared);
patch_mass_prepared = true;
}
else
{
Waveshell->surf_Wave(Rex, lev, SH, Rpsi4, Ipsi4, 2, maxl, NN, RP, IP, ErrorMonitor);
Waveshell->surf_MassPAng(Rex, lev, SH, phi0, trK0,
gxx0, gxy0, gxz0, gyy0, gyz0, gzz0,
Axx0, Axy0, Axz0, Ayy0, Ayz0, Azz0,
Gmx0, Gmy0, Gmz0, Sfx1, Sfy1, Sfz1, // here we can not touch rhs variables, but 1 variables
RoutMAP, ErrorMonitor, !shell_mass_prepared);
shell_mass_prepared = true;
}
#else
#if (PSTR == 0)
Waveshell->surf_Wave(Rex, lev, GH, Rpsi4, Ipsi4, 2, maxl, NN, RP, IP, ErrorMonitor);
Waveshell->surf_MassPAng(Rex, lev, GH, phi0, trK0,
gxx0, gxy0, gxz0, gyy0, gyz0, gzz0,
Axx0, Axy0, Axz0, Ayy0, Ayz0, Azz0,
Gmx0, Gmy0, Gmz0, Sfx1, Sfy1, Sfz1, // here we can not touch rhs variables, but 1 variables
RoutMAP, ErrorMonitor, !patch_mass_prepared);
patch_mass_prepared = true;
#elif (PSTR == 1 || PSTR == 2)
Waveshell->surf_Wave(Rex, lev, GH, Rpsi4, Ipsi4, 2, maxl, NN, RP, IP, ErrorMonitor, GH->Commlev[lev]);
// misc::tillherecheck(GH->Commlev[lev],GH->start_rank[lev],"after surf_Wave");
Waveshell->surf_MassPAng(Rex, lev, GH, phi0, trK0,
gxx0, gxy0, gxz0, gyy0, gyz0, gzz0,
Axx0, Axy0, Axz0, Ayy0, Ayz0, Azz0,
Gmx0, Gmy0, Gmz0, Sfx1, Sfy1, Sfz1, // here we can not touch rhs variables, but 1 variables
RoutMAP, ErrorMonitor, GH->Commlev[lev], !patch_mass_prepared);
patch_mass_prepared = true;
#endif
#endif
// misc::tillherecheck(GH->Commlev[lev],GH->start_rank[lev],"end surface integral");
#endif
if (i == 0)
{

249
AMSS_NCKU_source/surface_integral.C
View File

@@ -2314,44 +2314,47 @@ void surface_integral::surf_Wave(double rex, int lev, NullShellPatch *GH, var *R
//| ADM mass, linear momentum and angular momentum
//|
//|----------------------------------------------------
void surface_integral::surf_MassPAng(double rex, int lev, cgh *GH, var *chi, var *trK,
var *gxx, var *gxy, var *gxz, var *gyy, var *gyz, var *gzz,
var *Axx, var *Axy, var *Axz, var *Ayy, var *Ayz, var *Azz,
var *Gmx, var *Gmy, var *Gmz,
var *Sfx_rhs, var *Sfy_rhs, var *Sfz_rhs, // temparay memory for mass^i
double *Rout, monitor *Monitor)
{
if (myrank == 0 && GH->grids[lev] != 1)
if (Monitor && Monitor->outfile)
Monitor->outfile << "WARNING: surface integral on multipatches" << endl;
else
cout << "WARNING: surface integral on multipatches" << endl;
double mass, px, py, pz, sx, sy, sz;
MyList<Patch> *Pp = GH->PatL[lev];
while (Pp)
{
MyList<Block> *BP = Pp->data->blb;
while (BP)
{
Block *cg = BP->data;
if (myrank == cg->rank)
{
f_admmass_bssn(cg->shape, cg->X[0], cg->X[1], cg->X[2],
cg->fgfs[chi->sgfn], cg->fgfs[trK->sgfn],
cg->fgfs[gxx->sgfn], cg->fgfs[gxy->sgfn], cg->fgfs[gxz->sgfn], cg->fgfs[gyy->sgfn], cg->fgfs[gyz->sgfn], cg->fgfs[gzz->sgfn],
cg->fgfs[Axx->sgfn], cg->fgfs[Axy->sgfn], cg->fgfs[Axz->sgfn], cg->fgfs[Ayy->sgfn], cg->fgfs[Ayz->sgfn], cg->fgfs[Azz->sgfn],
cg->fgfs[Gmx->sgfn], cg->fgfs[Gmy->sgfn], cg->fgfs[Gmz->sgfn],
cg->fgfs[Sfx_rhs->sgfn], cg->fgfs[Sfy_rhs->sgfn], cg->fgfs[Sfz_rhs->sgfn],
Symmetry);
}
if (BP == Pp->data->ble)
break;
BP = BP->next;
}
Pp = Pp->next;
}
void surface_integral::surf_MassPAng(double rex, int lev, cgh *GH, var *chi, var *trK,
var *gxx, var *gxy, var *gxz, var *gyy, var *gyz, var *gzz,
var *Axx, var *Axy, var *Axz, var *Ayy, var *Ayz, var *Azz,
var *Gmx, var *Gmy, var *Gmz,
var *Sfx_rhs, var *Sfy_rhs, var *Sfz_rhs, // temparay memory for mass^i
double *Rout, monitor *Monitor, bool refresh_mass_fields)
{
if (myrank == 0 && GH->grids[lev] != 1)
if (Monitor && Monitor->outfile)
Monitor->outfile << "WARNING: surface integral on multipatches" << endl;
else
cout << "WARNING: surface integral on multipatches" << endl;
double mass, px, py, pz, sx, sy, sz;
if (refresh_mass_fields)
{
MyList<Patch> *Pp = GH->PatL[lev];
while (Pp)
{
MyList<Block> *BP = Pp->data->blb;
while (BP)
{
Block *cg = BP->data;
if (myrank == cg->rank)
{
f_admmass_bssn(cg->shape, cg->X[0], cg->X[1], cg->X[2],
cg->fgfs[chi->sgfn], cg->fgfs[trK->sgfn],
cg->fgfs[gxx->sgfn], cg->fgfs[gxy->sgfn], cg->fgfs[gxz->sgfn], cg->fgfs[gyy->sgfn], cg->fgfs[gyz->sgfn], cg->fgfs[gzz->sgfn],
cg->fgfs[Axx->sgfn], cg->fgfs[Axy->sgfn], cg->fgfs[Axz->sgfn], cg->fgfs[Ayy->sgfn], cg->fgfs[Ayz->sgfn], cg->fgfs[Azz->sgfn],
cg->fgfs[Gmx->sgfn], cg->fgfs[Gmy->sgfn], cg->fgfs[Gmz->sgfn],
cg->fgfs[Sfx_rhs->sgfn], cg->fgfs[Sfy_rhs->sgfn], cg->fgfs[Sfz_rhs->sgfn],
Symmetry);
}
if (BP == Pp->data->ble)
break;
BP = BP->next;
}
Pp = Pp->next;
}
}
const int InList = 17;
@@ -2576,46 +2579,49 @@ void surface_integral::surf_MassPAng(double rex, int lev, cgh *GH, var *chi, var
delete[] shellf;
DG_List->clearList();
}
void surface_integral::surf_MassPAng(double rex, int lev, cgh *GH, var *chi, var *trK,
var *gxx, var *gxy, var *gxz, var *gyy, var *gyz, var *gzz,
var *Axx, var *Axy, var *Axz, var *Ayy, var *Ayz, var *Azz,
var *Gmx, var *Gmy, var *Gmz,
var *Sfx_rhs, var *Sfy_rhs, var *Sfz_rhs, // temparay memory for mass^i
double *Rout, monitor *Monitor, MPI_Comm Comm_here)
{
int lmyrank;
MPI_Comm_rank(Comm_here, &lmyrank);
if (lmyrank == 0 && GH->grids[lev] != 1)
void surface_integral::surf_MassPAng(double rex, int lev, cgh *GH, var *chi, var *trK,
var *gxx, var *gxy, var *gxz, var *gyy, var *gyz, var *gzz,
var *Axx, var *Axy, var *Axz, var *Ayy, var *Ayz, var *Azz,
var *Gmx, var *Gmy, var *Gmz,
var *Sfx_rhs, var *Sfy_rhs, var *Sfz_rhs, // temparay memory for mass^i
double *Rout, monitor *Monitor, MPI_Comm Comm_here, bool refresh_mass_fields)
{
int lmyrank;
MPI_Comm_rank(Comm_here, &lmyrank);
if (lmyrank == 0 && GH->grids[lev] != 1)
if (Monitor && Monitor->outfile)
Monitor->outfile << "WARNING: surface integral on multipatches" << endl;
else
cout << "WARNING: surface integral on multipatches" << endl;
double mass, px, py, pz, sx, sy, sz;
MyList<Patch> *Pp = GH->PatL[lev];
while (Pp)
{
MyList<Block> *BP = Pp->data->blb;
while (BP)
{
Block *cg = BP->data;
if (myrank == cg->rank)
{
f_admmass_bssn(cg->shape, cg->X[0], cg->X[1], cg->X[2],
cg->fgfs[chi->sgfn], cg->fgfs[trK->sgfn],
cg->fgfs[gxx->sgfn], cg->fgfs[gxy->sgfn], cg->fgfs[gxz->sgfn], cg->fgfs[gyy->sgfn], cg->fgfs[gyz->sgfn], cg->fgfs[gzz->sgfn],
cg->fgfs[Axx->sgfn], cg->fgfs[Axy->sgfn], cg->fgfs[Axz->sgfn], cg->fgfs[Ayy->sgfn], cg->fgfs[Ayz->sgfn], cg->fgfs[Azz->sgfn],
cg->fgfs[Gmx->sgfn], cg->fgfs[Gmy->sgfn], cg->fgfs[Gmz->sgfn],
cg->fgfs[Sfx_rhs->sgfn], cg->fgfs[Sfy_rhs->sgfn], cg->fgfs[Sfz_rhs->sgfn],
Symmetry);
}
if (BP == Pp->data->ble)
break;
BP = BP->next;
}
Pp = Pp->next;
}
double mass, px, py, pz, sx, sy, sz;
if (refresh_mass_fields)
{
MyList<Patch> *Pp = GH->PatL[lev];
while (Pp)
{
MyList<Block> *BP = Pp->data->blb;
while (BP)
{
Block *cg = BP->data;
if (myrank == cg->rank)
{
f_admmass_bssn(cg->shape, cg->X[0], cg->X[1], cg->X[2],
cg->fgfs[chi->sgfn], cg->fgfs[trK->sgfn],
cg->fgfs[gxx->sgfn], cg->fgfs[gxy->sgfn], cg->fgfs[gxz->sgfn], cg->fgfs[gyy->sgfn], cg->fgfs[gyz->sgfn], cg->fgfs[gzz->sgfn],
cg->fgfs[Axx->sgfn], cg->fgfs[Axy->sgfn], cg->fgfs[Axz->sgfn], cg->fgfs[Ayy->sgfn], cg->fgfs[Ayz->sgfn], cg->fgfs[Azz->sgfn],
cg->fgfs[Gmx->sgfn], cg->fgfs[Gmy->sgfn], cg->fgfs[Gmz->sgfn],
cg->fgfs[Sfx_rhs->sgfn], cg->fgfs[Sfy_rhs->sgfn], cg->fgfs[Sfz_rhs->sgfn],
Symmetry);
}
if (BP == Pp->data->ble)
break;
BP = BP->next;
}
Pp = Pp->next;
}
}
const int InList = 17;
@@ -2848,15 +2854,15 @@ void surface_integral::surf_MassPAng(double rex, int lev, cgh *GH, var *chi, var
//|----------------------------------------------------------------
// for shell patch
//|----------------------------------------------------------------
void surface_integral::surf_MassPAng(double rex, int lev, ShellPatch *GH, var *chi, var *trK,
var *gxx, var *gxy, var *gxz, var *gyy, var *gyz, var *gzz,
var *Axx, var *Axy, var *Axz, var *Ayy, var *Ayz, var *Azz,
var *Gmx, var *Gmy, var *Gmz,
var *Sfx_rhs, var *Sfy_rhs, var *Sfz_rhs, // temparay memory for mass^i
double *Rout, monitor *Monitor)
{
if (lev != 0)
{
void surface_integral::surf_MassPAng(double rex, int lev, ShellPatch *GH, var *chi, var *trK,
var *gxx, var *gxy, var *gxz, var *gyy, var *gyz, var *gzz,
var *Axx, var *Axy, var *Axz, var *Ayy, var *Ayz, var *Azz,
var *Gmx, var *Gmy, var *Gmz,
var *Sfx_rhs, var *Sfy_rhs, var *Sfz_rhs, // temparay memory for mass^i
double *Rout, monitor *Monitor, bool refresh_mass_fields)
{
if (lev != 0)
{
if (myrank == 0)
{
if (Monitor && Monitor->outfile)
@@ -2866,43 +2872,46 @@ void surface_integral::surf_MassPAng(double rex, int lev, ShellPatch *GH, var *c
}
return;
}
double mass, px, py, pz, sx, sy, sz;
MyList<ss_patch> *Pp = GH->PatL;
while (Pp)
{
MyList<Block> *BL = Pp->data->blb;
int fngfs = Pp->data->fngfs;
while (BL)
{
Block *cg = BL->data;
if (myrank == cg->rank)
{
f_admmass_bssn_ss(cg->shape, cg->X[0], cg->X[1], cg->X[2],
cg->fgfs[fngfs + ShellPatch::gx], cg->fgfs[fngfs + ShellPatch::gy], cg->fgfs[fngfs + ShellPatch::gz],
cg->fgfs[fngfs + ShellPatch::drhodx], cg->fgfs[fngfs + ShellPatch::drhody], cg->fgfs[fngfs + ShellPatch::drhodz],
cg->fgfs[fngfs + ShellPatch::dsigmadx], cg->fgfs[fngfs + ShellPatch::dsigmady], cg->fgfs[fngfs + ShellPatch::dsigmadz],
cg->fgfs[fngfs + ShellPatch::dRdx], cg->fgfs[fngfs + ShellPatch::dRdy], cg->fgfs[fngfs + ShellPatch::dRdz],
cg->fgfs[fngfs + ShellPatch::drhodxx], cg->fgfs[fngfs + ShellPatch::drhodxy], cg->fgfs[fngfs + ShellPatch::drhodxz],
cg->fgfs[fngfs + ShellPatch::drhodyy], cg->fgfs[fngfs + ShellPatch::drhodyz], cg->fgfs[fngfs + ShellPatch::drhodzz],
cg->fgfs[fngfs + ShellPatch::dsigmadxx], cg->fgfs[fngfs + ShellPatch::dsigmadxy], cg->fgfs[fngfs + ShellPatch::dsigmadxz],
cg->fgfs[fngfs + ShellPatch::dsigmadyy], cg->fgfs[fngfs + ShellPatch::dsigmadyz], cg->fgfs[fngfs + ShellPatch::dsigmadzz],
cg->fgfs[fngfs + ShellPatch::dRdxx], cg->fgfs[fngfs + ShellPatch::dRdxy], cg->fgfs[fngfs + ShellPatch::dRdxz],
cg->fgfs[fngfs + ShellPatch::dRdyy], cg->fgfs[fngfs + ShellPatch::dRdyz], cg->fgfs[fngfs + ShellPatch::dRdzz],
cg->fgfs[chi->sgfn], cg->fgfs[trK->sgfn],
cg->fgfs[gxx->sgfn], cg->fgfs[gxy->sgfn], cg->fgfs[gxz->sgfn], cg->fgfs[gyy->sgfn], cg->fgfs[gyz->sgfn], cg->fgfs[gzz->sgfn],
cg->fgfs[Axx->sgfn], cg->fgfs[Axy->sgfn], cg->fgfs[Axz->sgfn], cg->fgfs[Ayy->sgfn], cg->fgfs[Ayz->sgfn], cg->fgfs[Azz->sgfn],
cg->fgfs[Gmx->sgfn], cg->fgfs[Gmy->sgfn], cg->fgfs[Gmz->sgfn],
cg->fgfs[Sfx_rhs->sgfn], cg->fgfs[Sfy_rhs->sgfn], cg->fgfs[Sfz_rhs->sgfn],
Symmetry, Pp->data->sst);
}
if (BL == Pp->data->ble)
break;
BL = BL->next;
}
Pp = Pp->next;
}
double mass, px, py, pz, sx, sy, sz;
if (refresh_mass_fields)
{
MyList<ss_patch> *Pp = GH->PatL;
while (Pp)
{
MyList<Block> *BL = Pp->data->blb;
int fngfs = Pp->data->fngfs;
while (BL)
{
Block *cg = BL->data;
if (myrank == cg->rank)
{
f_admmass_bssn_ss(cg->shape, cg->X[0], cg->X[1], cg->X[2],
cg->fgfs[fngfs + ShellPatch::gx], cg->fgfs[fngfs + ShellPatch::gy], cg->fgfs[fngfs + ShellPatch::gz],
cg->fgfs[fngfs + ShellPatch::drhodx], cg->fgfs[fngfs + ShellPatch::drhody], cg->fgfs[fngfs + ShellPatch::drhodz],
cg->fgfs[fngfs + ShellPatch::dsigmadx], cg->fgfs[fngfs + ShellPatch::dsigmady], cg->fgfs[fngfs + ShellPatch::dsigmadz],
cg->fgfs[fngfs + ShellPatch::dRdx], cg->fgfs[fngfs + ShellPatch::dRdy], cg->fgfs[fngfs + ShellPatch::dRdz],
cg->fgfs[fngfs + ShellPatch::drhodxx], cg->fgfs[fngfs + ShellPatch::drhodxy], cg->fgfs[fngfs + ShellPatch::drhodxz],
cg->fgfs[fngfs + ShellPatch::drhodyy], cg->fgfs[fngfs + ShellPatch::drhodyz], cg->fgfs[fngfs + ShellPatch::drhodzz],
cg->fgfs[fngfs + ShellPatch::dsigmadxx], cg->fgfs[fngfs + ShellPatch::dsigmadxy], cg->fgfs[fngfs + ShellPatch::dsigmadxz],
cg->fgfs[fngfs + ShellPatch::dsigmadyy], cg->fgfs[fngfs + ShellPatch::dsigmadyz], cg->fgfs[fngfs + ShellPatch::dsigmadzz],
cg->fgfs[fngfs + ShellPatch::dRdxx], cg->fgfs[fngfs + ShellPatch::dRdxy], cg->fgfs[fngfs + ShellPatch::dRdxz],
cg->fgfs[fngfs + ShellPatch::dRdyy], cg->fgfs[fngfs + ShellPatch::dRdyz], cg->fgfs[fngfs + ShellPatch::dRdzz],
cg->fgfs[chi->sgfn], cg->fgfs[trK->sgfn],
cg->fgfs[gxx->sgfn], cg->fgfs[gxy->sgfn], cg->fgfs[gxz->sgfn], cg->fgfs[gyy->sgfn], cg->fgfs[gyz->sgfn], cg->fgfs[gzz->sgfn],
cg->fgfs[Axx->sgfn], cg->fgfs[Axy->sgfn], cg->fgfs[Axz->sgfn], cg->fgfs[Ayy->sgfn], cg->fgfs[Ayz->sgfn], cg->fgfs[Azz->sgfn],
cg->fgfs[Gmx->sgfn], cg->fgfs[Gmy->sgfn], cg->fgfs[Gmz->sgfn],
cg->fgfs[Sfx_rhs->sgfn], cg->fgfs[Sfy_rhs->sgfn], cg->fgfs[Sfz_rhs->sgfn],
Symmetry, Pp->data->sst);
}
if (BL == Pp->data->ble)
break;
BL = BL->next;
}
Pp = Pp->next;
}
}
const int InList = 17;

36
AMSS_NCKU_source/surface_integral.h
View File

@@ -77,18 +77,18 @@ public:
double &, double &, double &, double &, double &, double &, double &,
double &, double &, double &, double &, double &, double &,
double &, double &)); // NN is the length of RP and IP
void surf_MassPAng(double rex, int lev, cgh *GH, var *chi, var *trK,
var *gxx, var *gxy, var *gxz, var *gyy, var *gyz, var *gzz,
var *Axx, var *Axy, var *Axz, var *Ayy, var *Ayz, var *Azz,
var *Gmx, var *Gmy, var *Gmz,
var *Sfx_rhs, var *Sfy_rhs, var *Sfz_rhs,
double *Rout, monitor *Monitor);
void surf_MassPAng(double rex, int lev, ShellPatch *GH, var *chi, var *trK,
var *gxx, var *gxy, var *gxz, var *gyy, var *gyz, var *gzz,
var *Axx, var *Axy, var *Axz, var *Ayy, var *Ayz, var *Azz,
var *Gmx, var *Gmy, var *Gmz,
var *Sfx_rhs, var *Sfy_rhs, var *Sfz_rhs,
double *Rout, monitor *Monitor);
void surf_MassPAng(double rex, int lev, cgh *GH, var *chi, var *trK,
var *gxx, var *gxy, var *gxz, var *gyy, var *gyz, var *gzz,
var *Axx, var *Axy, var *Axz, var *Ayy, var *Ayz, var *Azz,
var *Gmx, var *Gmy, var *Gmz,
var *Sfx_rhs, var *Sfy_rhs, var *Sfz_rhs,
double *Rout, monitor *Monitor, bool refresh_mass_fields = true);
void surf_MassPAng(double rex, int lev, ShellPatch *GH, var *chi, var *trK,
var *gxx, var *gxy, var *gxz, var *gyy, var *gyz, var *gzz,
var *Axx, var *Axy, var *Axz, var *Ayy, var *Ayz, var *Azz,
var *Gmx, var *Gmy, var *Gmz,
var *Sfx_rhs, var *Sfy_rhs, var *Sfz_rhs,
double *Rout, monitor *Monitor, bool refresh_mass_fields = true);
void surf_Wave(double rex, cgh *GH, ShellPatch *SH,
var *chi, var *trK,
var *gxx, var *gxy, var *gxz, var *gyy, var *gyz, var *gzz,
@@ -110,12 +110,12 @@ public:
bool SR_Interp_Points(MyList<var> *VarList, cgh *GH, ShellPatch *SH,
int NN, double **XX, double *Shellf);
void surf_MassPAng(double rex, int lev, cgh *GH, var *chi, var *trK,
var *gxx, var *gxy, var *gxz, var *gyy, var *gyz, var *gzz,
var *Axx, var *Axy, var *Axz, var *Ayy, var *Ayz, var *Azz,
var *Gmx, var *Gmy, var *Gmz,
var *Sfx_rhs, var *Sfy_rhs, var *Sfz_rhs, // temparay memory for mass^i
double *Rout, monitor *Monitor, MPI_Comm Comm_here);
void surf_MassPAng(double rex, int lev, cgh *GH, var *chi, var *trK,
var *gxx, var *gxy, var *gxz, var *gyy, var *gyz, var *gzz,
var *Axx, var *Axy, var *Axz, var *Ayy, var *Ayz, var *Azz,
var *Gmx, var *Gmy, var *Gmz,
var *Sfx_rhs, var *Sfy_rhs, var *Sfz_rhs, // temparay memory for mass^i
double *Rout, monitor *Monitor, MPI_Comm Comm_here, bool refresh_mass_fields = true);
void surf_Wave(double rex, int lev, cgh *GH, var *Rpsi4, var *Ipsi4,
int spinw, int maxl, int NN, double *RP, double *IP,
monitor *Monitor, MPI_Comm Comm_here);