void Computation::setBoundaryTN(GridFunction& T, RealType (*TO)(RealType),
RealType (*TU)(RealType), RealType (*TL)(RealType),
RealType (*TR)(RealType)) {
MultiIndexType begin, end;
// T_i,0
begin[0] = 1;
end[0] = T.griddimension[0] - 2;
begin[1] = 0;
end[1] = 0;
MultiIndexType Offset;
Offset[0] = 0;
Offset[1] = 1;
T.SetGridFunction(begin, end, TU, false, SimIO.para.deltaX);
T.ScaleGridFunction(begin, end, SimIO.para.deltaY);
T.AddToGridFunction(begin, end, 1.0, T, Offset);
// T_i,jmax+1
begin[0] = 1;
end[0] = T.griddimension[0] - 2;
begin[1] = T.griddimension[1] - 1;
end[1] = T.griddimension[1] - 1;
//MultiIndexType Offset;
Offset[0] = 0;
Offset[1] = -1;
T.SetGridFunction(begin, end, TO, false, SimIO.para.deltaX);
T.ScaleGridFunction(begin, end, SimIO.para.deltaY);
T.AddToGridFunction(begin, end, 1.0, T, Offset);
}
void Computation::computeNewVelocities(GridFunction& u, GridFunction& v,
GridFunction& f, GridFunction& g, GridFunction& p, RealType deltaT) {
GridFunction branch_1(p.griddimension);
MultiIndexType begin, end;
begin[0] = 1;
end[0] = u.griddimension[0] - 3;
begin[1] = 1;
end[1] = u.griddimension[1] - 2;
// u Update
PointType delta;
delta[0] = SimIO.para.deltaX;
delta[1] = SimIO.para.deltaY;
Px(branch_1, p, delta);
f.AddToGridFunction(begin, end, -1.0 * deltaT, branch_1);
u.SetGridFunction(begin, end, 1.0, f);
// v Update
begin[0] = 1;
end[0] = v.griddimension[0] - 2;
begin[1] = 1;
end[1] = v.griddimension[1] - 3;
GridFunction branch_2(p.griddimension);
Py(branch_2, p, delta);
g.AddToGridFunction(begin, end, -1.0 * deltaT, branch_2);
v.SetGridFunction(begin, end, 1.0, g);
}
void VVy(GridFunction& output, GridFunction& v, const RealType alpha,
const PointType& h) {
MultiIndexType begin, end;
begin[0] = 1;
end[0] = v.griddimension[0] - 2;
begin[1] = 1;
end[1] = v.griddimension[1] - 3;
Stencil stencil_1(3, h);
stencil_1.setVVy_1Stencil();
stencil_1.ApplyStencilOperator(begin, end, begin, end, v, output);
output.MultiplyGridFunctions(begin, end, output);
GridFunction branch_2(v.griddimension);
Stencil stencil_2(3, h);
stencil_2.setVVy_2Stencil();
stencil_2.ApplyStencilOperator(begin, end, begin, end, v, branch_2);
branch_2.MultiplyGridFunctions(begin, end, branch_2);
output.AddToGridFunction(begin, end, -1.0, branch_2);
output.ScaleGridFunction(begin, end, 1.0 / h[1]);
GridFunction branch_3(v.griddimension);
Stencil stencil_3(3, h);
stencil_3.setVVy_3Stencil();
stencil_3.ApplyStencilOperator(begin, end, begin, end, v, branch_3);
branch_3.MultiplyGridFunctions(begin, end, branch_3);
GridFunction branch_4(v.griddimension);
Stencil stencil_4(3, h);
stencil_4.setVVy_4Stencil();
stencil_4.ApplyStencilOperator(begin, end, begin, end, v, branch_4);
branch_4.MultiplyGridFunctions(begin, end, branch_4);
branch_3.MultiplyGridFunctions(begin, end, branch_4);
GridFunction branch_5(v.griddimension);
Stencil stencil_5(3, h);
stencil_5.setVVy_5Stencil();
stencil_5.ApplyStencilOperator(begin, end, begin, end, v, branch_5);
branch_5.MultiplyGridFunctions(begin, end, branch_5);
GridFunction branch_6(v.griddimension);
Stencil stencil_6(3, h);
stencil_6.setVVy_6Stencil();
stencil_6.ApplyStencilOperator(begin, end, begin, end, v, branch_6);
branch_6.MultiplyGridFunctions(begin, end, branch_6);
branch_5.MultiplyGridFunctions(begin, end, branch_6);
branch_3.AddToGridFunction(begin, end, -1.0, branch_5);
branch_3.ScaleGridFunction(begin, end, alpha / h[1]);
output.AddToGridFunction(begin, end, 1.0, branch_3);
}
void UVx(GridFunction& output, GridFunction& u, GridFunction& v,
const RealType alpha, const PointType& h) {
MultiIndexType begin, end;
begin[0] = 1;
end[0] = u.griddimension[0] - 2;
begin[1] = 1;
end[1] = u.griddimension[1] - 3;
Stencil stencil_1(3, h);
stencil_1.setUVx_1Stencil();
stencil_1.ApplyStencilOperator(begin, end, begin, end, u, output);
GridFunction branch_2(u.griddimension);
Stencil stencil_2(3, h);
stencil_2.setUVx_2Stencil();
stencil_2.ApplyStencilOperator(begin, end, begin, end, v, branch_2);
output.MultiplyGridFunctions(begin, end, branch_2);
GridFunction branch_3(u.griddimension);
Stencil stencil_3(3, h);
stencil_3.setUVx_3Stencil();
stencil_3.ApplyStencilOperator(begin, end, begin, end, u, branch_3);
GridFunction branch_4(u.griddimension);
Stencil stencil_4(3, h);
stencil_4.setUVx_4Stencil();
stencil_4.ApplyStencilOperator(begin, end, begin, end, v, branch_4);
branch_3.MultiplyGridFunctions(begin, end, branch_4);
output.AddToGridFunction(begin, end, -1.0, branch_3);
output.ScaleGridFunction(begin, end, 1.0 / h[0]);
//bis hier 1. Zeile
GridFunction branch_5(u.griddimension);
Stencil stencil_5(3, h);
stencil_5.setUVx_5Stencil();
stencil_5.ApplyStencilOperator(begin, end, begin, end, u, branch_5);
GridFunction branch_6(u.griddimension);
Stencil stencil_6(3, h);
stencil_6.setUVx_6Stencil();
stencil_6.ApplyStencilOperator(begin, end, begin, end, v, branch_6);
branch_5.MultiplyGridFunctions(begin, end, branch_6);
GridFunction branch_7(u.griddimension);
Stencil stencil_7(3, h);
stencil_7.setUVx_7Stencil();
stencil_7.ApplyStencilOperator(begin, end, begin, end, u, branch_7);
GridFunction branch_8(u.griddimension);
Stencil stencil_8(3, h);
stencil_8.setUVx_8Stencil();
stencil_8.ApplyStencilOperator(begin, end, begin, end, v, branch_8);
branch_7.MultiplyGridFunctions(begin, end, branch_8);
branch_5.AddToGridFunction(begin, end, -1.0, branch_7);
branch_5.ScaleGridFunction(begin, end, alpha * 1.0 / h[0]);
//bis hier 2. Zeile
output.AddToGridFunction(begin, end, 1.0, branch_5);
}
void Computation::ComputeTemperature(GridFunction& T, GridFunction& u,
GridFunction& v, RealType deltaT) {
GridFunction branch_1(T.griddimension);
GridFunction branch_2(T.griddimension);
MultiIndexType begin, end;
//missing w�rmequelle
begin[0] = 1;
end[0] = T.griddimension[0] - 2;
begin[1] = 1;
end[1] = T.griddimension[1] - 2;
PointType delta;
delta[0] = SimIO.para.deltaX;
delta[1] = SimIO.para.deltaY;
TXX(branch_1, T, delta);
TYY(branch_2, T, delta);
branch_1.AddToGridFunction(begin, end, 1.0, branch_2);
branch_1.ScaleGridFunction(begin, end,
1.0 / (SimIO.para.Pr * SimIO.para.re));
GridFunction branch_3(T.griddimension);
GridFunction branch_4(T.griddimension);
UTX(branch_3, u, T, SimIO.para.gamma, delta);
VTY(branch_4, v, T, SimIO.para.gamma, delta);
branch_3.AddToGridFunction(begin, end, 1.0, branch_4);
branch_1.AddToGridFunction(begin, end, -1.0, branch_3);
branch_1.ScaleGridFunction(begin, end, deltaT);
T.AddToGridFunction(begin, end, 1.0, branch_1);
}
void Computation::computeRighthandSide(GridFunction& rhs, GridFunction& f,
GridFunction& g, RealType deltaT) {
GridFunction branch_1(g.griddimension);
MultiIndexType begin, end;
begin[0] = 1;
end[0] = f.griddimension[0] - 2;
begin[1] = 1;
end[1] = f.griddimension[1] - 2;
PointType delta;
delta[0] = SimIO.para.deltaX;
delta[1] = SimIO.para.deltaY;
Fx(rhs, f, delta);
Gy(branch_1, g, delta);
rhs.AddToGridFunction(begin, end, 1.0, branch_1);
rhs.ScaleGridFunction(begin, end, 1.0 / deltaT);
}
void Computation::computeMomentumEquations(GridFunction& f, GridFunction& g,
GridFunction& u, GridFunction& v, GridFunction& t, RealType& deltaT) {
PointType h;
h[0] = SimIO.para.deltaX;
h[1] = SimIO.para.deltaY;
RealType alpha = SimIO.para.alpha;
MultiIndexType begin, end;
begin[0] = 1;
end[0] = u.griddimension[0] - 3;
begin[1] = 1;
end[1] = u.griddimension[1] - 2;
// Term F
Uxx(f, u, h);
GridFunction branch_2(u.griddimension);
Uyy(branch_2, u, h);
f.AddToGridFunction(begin, end, 1.0, branch_2);
f.ScaleGridFunction(begin, end, 1.0 / SimIO.para.re);
GridFunction branch_3(u.griddimension);
UUx(branch_3, u, alpha, h);
GridFunction branch_4(u.griddimension);
UVy(branch_4, u, v, alpha, h);
branch_3.AddToGridFunction(begin, end, 1.0, branch_4);
f.AddToGridFunction(begin, end, -1.0, branch_3);
// KILL branch 2-4
f.ScaleGridFunction(begin, end, deltaT);
f.AddToGridFunction(begin, end, 1.0, u);
// - beta deltaT (tx stencil) gx
GridFunction branch_5(u.griddimension);
Stencil stencil_1(3, h);
stencil_1.setTxStencil();
stencil_1.ApplyStencilOperator(begin, end, begin, end, t, branch_5);
branch_5.ScaleGridFunction(begin, end,
deltaT * SimIO.para.beta * SimIO.para.gx);
f.AddToGridFunction(begin, end, -1.0, branch_5);
//Term G
begin[0] = 1;
end[0] = v.griddimension[0] - 2;
begin[1] = 1;
end[1] = v.griddimension[1] - 3;
Vxx(g, v, h);
GridFunction branch_6(v.griddimension);
Vyy(branch_6, v, h);
g.AddToGridFunction(begin, end, 1.0, branch_6);
g.ScaleGridFunction(begin, end, 1.0 / SimIO.para.re);
GridFunction branch_7(v.griddimension);
UVx(branch_7, u, v, alpha, h);
GridFunction branch_8(v.griddimension);
VVy(branch_8, v, alpha, h);
branch_7.AddToGridFunction(begin, end, 1.0, branch_8);
g.AddToGridFunction(begin, end, -1.0, branch_7);
g.ScaleGridFunction(begin, end, deltaT);
g.AddToGridFunction(begin, end, 1.0, v);
// - beta deltaT (ty stencil) gy
GridFunction branch_9(u.griddimension);
Stencil stencil_2(3, h);
stencil_2.setTyStencil();
stencil_2.ApplyStencilOperator(begin, end, begin, end, t, branch_9);
branch_9.ScaleGridFunction(begin, end,
deltaT * SimIO.para.beta * SimIO.para.gy);
g.AddToGridFunction(begin, end, -1.0, branch_9);
}
void Computation::setBoundaryTD(GridFunction& T, RealType (*TO)(RealType),
RealType (*TU)(RealType), RealType (*TL)(RealType),
RealType (*TR)(RealType)) {
MultiIndexType begin, end;
if (SimIO.para.world_rank == 0) {
// p_0,j = p_1,j
begin[0] = 0;
end[0] = 0;
begin[1] = 1;
end[1] = T.griddimension[1] - 2;
T.SetGridFunction(begin, end, TL, true, SimIO.para.deltaY);
T.ScaleGridFunction(begin, end, 2.0);
MultiIndexType Offset;
Offset[0] = 1;
Offset[1] = 0;
T.AddToGridFunction(begin, end, -1.0, T, Offset);
}
if (SimIO.para.world_rank == 1) {
// T_imax+1,j
begin[0] = T.griddimension[0] - 1;
end[0] = T.griddimension[0] - 1;
begin[1] = 1;
end[1] = T.griddimension[1] - 2;
MultiIndexType Offset;
Offset[0] = -1;
Offset[1] = 0;
T.SetGridFunction(begin, end, TR, true, SimIO.para.deltaY);
T.ScaleGridFunction(begin, end, 2.0);
T.AddToGridFunction(begin, end, -1.0, T, Offset);
}
/*
// T_i,0
begin[0] = 1;
end[0] = T.griddimension[0] - 2;
begin[1] = 0;
end[1] = 0;
MultiIndexType Offset;
Offset[0] = 0;
Offset[1] = 1;
T.SetGridFunction(begin, end, TU, false, SimIO.para.deltaX);
T.ScaleGridFunction(begin, end, 2.0);
T.AddToGridFunction(begin, end, -1.0, T, Offset);
// T_i,jmax+1
begin[0] = 1;
end[0] = T.griddimension[0] - 2;
begin[1] = T.griddimension[1] - 1;
end[1] = T.griddimension[1] - 1;
MultiIndexType Offset;
Offset[0] = 0;
Offset[1] = -1;
T.SetGridFunction(begin, end, TO, false, SimIO.para.deltaX);
T.ScaleGridFunction(begin, end, 2.0);
T.AddToGridFunction(begin, end, -1.0, T, Offset);*/
}
