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-rw-r--r--src/refinement/coupler2D.hh77
-rw-r--r--src/refinement/grid2D.hh7
2 files changed, 65 insertions, 19 deletions
diff --git a/src/refinement/coupler2D.hh b/src/refinement/coupler2D.hh
index 8370707..ab082f4 100644
--- a/src/refinement/coupler2D.hh
+++ b/src/refinement/coupler2D.hh
@@ -35,10 +35,16 @@ template <typename T, template<typename> class DESCRIPTOR>
Vector<int,3> Coupler2D<T,DESCRIPTOR>::getFineLatticeR(int y) const
{
if (_vertical) {
- return _fineOrigin + Vector<int,3> {0, 0, y};
+ const auto physR = _physOrigin + Vector<T,2>{0, y*_fine.getConverter().getPhysDeltaX()};
+ Vector<int,3> latticeR{};
+ _fine.getCuboidGeometry().getLatticeR(physR, latticeR);
+ return latticeR;
}
else {
- return _fineOrigin + Vector<int,3> {0, y, 0};
+ const auto physR = _physOrigin + Vector<T,2>{y*_fine.getConverter().getPhysDeltaX(), 0};
+ Vector<int,3> latticeR{};
+ _fine.getCuboidGeometry().getLatticeR(physR, latticeR);
+ return latticeR;
}
}
@@ -46,10 +52,16 @@ template <typename T, template<typename> class DESCRIPTOR>
Vector<int,3> Coupler2D<T,DESCRIPTOR>::getCoarseLatticeR(int y) const
{
if (_vertical) {
- return _coarseOrigin + Vector<int,3> {0, 0, y};
+ const auto physR = _physOrigin + Vector<T,2>{0, y*_coarse.getConverter().getPhysDeltaX()};
+ Vector<int,3> latticeR{};
+ _coarse.getCuboidGeometry().getLatticeR(physR, latticeR);
+ return latticeR;
}
else {
- return _coarseOrigin + Vector<int,3> {0, y, 0};
+ const auto physR = _physOrigin + Vector<T,2>{y*_coarse.getConverter().getPhysDeltaX(), 0};
+ Vector<int,3> latticeR{};
+ _coarse.getCuboidGeometry().getLatticeR(physR, latticeR);
+ return latticeR;
}
}
@@ -97,12 +109,13 @@ void FineCoupler2D<T,DESCRIPTOR>::store()
for (int y=0; y < this->_coarseSize; ++y) {
const auto pos = this->getCoarseLatticeR(y);
-
T rho{};
T u[2] {};
T fNeq[DESCRIPTOR<T>::q] {};
- coarseLattice.get(pos).computeRhoU(rho, u);
- coarseLattice.get(pos).computeFneq(fNeq);
+ Cell<T,DESCRIPTOR> coarseCell;
+ coarseLattice.get(pos, coarseCell);
+ lbHelpers<T,DESCRIPTOR>::computeRhoU(coarseCell, rho, u);
+ lbHelpers<T,DESCRIPTOR>::computeFneq(coarseCell, fNeq, rho, u);
_c2f_rho[y] = rho;
_c2f_u[y] = Vector<T,2>(u);
@@ -134,17 +147,18 @@ void FineCoupler2D<T,DESCRIPTOR>::interpolate()
auto& coarseLattice = this->_coarse.getSuperLattice();
for (int y=0; y < this->_coarseSize; ++y) {
- const auto coarseCell = coarseLattice.get(this->getCoarseLatticeR(y));
+ Cell<T,DESCRIPTOR> coarseCell;
+ coarseLattice.get(this->getCoarseLatticeR(y), coarseCell);
T rho{};
T u[2] {};
- coarseCell.computeRhoU(rho, u);
+ lbHelpers<T,DESCRIPTOR>::computeRhoU(coarseCell, rho, u);
_c2f_rho[y] = order2interpolation(rho, _c2f_rho[y]);
_c2f_u[y][0] = order2interpolation(u[0], _c2f_u[y][0]);
_c2f_u[y][1] = order2interpolation(u[1], _c2f_u[y][1]);
T fNeq[DESCRIPTOR<T>::q] {};
- coarseCell.computeFneq(fNeq);
+ lbHelpers<T,DESCRIPTOR>::computeFneq(coarseCell, fNeq, rho, u);
for (int iPop=0; iPop < DESCRIPTOR<T>::q; ++iPop) {
_c2f_fneq[y][iPop] = order2interpolation(fNeq[iPop], _c2f_fneq[y][iPop]);
}
@@ -162,11 +176,16 @@ void FineCoupler2D<T,DESCRIPTOR>::couple()
const auto finePos = this->getFineLatticeR(2*y);
T fEq[DESCRIPTOR<T>::q] {};
- coarseLattice.get(coarsePos).computeFeq(fEq);
+ Cell<T,DESCRIPTOR> coarseCell;
+ coarseLattice.get(coarsePos, coarseCell);
+ lbHelpers<T,DESCRIPTOR>::computeFeq(coarseCell, fEq);
+ Cell<T,DESCRIPTOR> cell;
+ fineLattice.get(finePos, cell);
for (int iPop=0; iPop < DESCRIPTOR<T>::q; ++iPop) {
- fineLattice.get(finePos)[iPop] = fEq[iPop] + this->_coarse.getScalingFactor() * _c2f_fneq[y][iPop];
+ cell[iPop] = fEq[iPop] + this->_coarse.getScalingFactor() * _c2f_fneq[y][iPop];
}
+ fineLattice.set(finePos, cell);
}
for (int y=1; y < this->_coarseSize-2; ++y) {
@@ -192,6 +211,8 @@ void FineCoupler2D<T,DESCRIPTOR>::couple()
const T uSqr = u[0]*u[0] + u[1]*u[1];
const auto finePos = this->getFineLatticeR(1+2*y);
+ Cell<T,DESCRIPTOR> fineCell;
+ fineLattice.get(finePos, fineCell);
for (int iPop=0; iPop < DESCRIPTOR<T>::q; ++iPop) {
const T fneq = order4interpolation(
@@ -201,8 +222,10 @@ void FineCoupler2D<T,DESCRIPTOR>::couple()
_c2f_fneq[y+2][iPop]
);
- fineLattice.get(finePos)[iPop] = lbHelpers<T,DESCRIPTOR>::equilibrium(iPop, rho, u, uSqr) + this->_coarse.getScalingFactor() * fneq;
+ fineCell[iPop] = lbHelpers<T,DESCRIPTOR>::equilibrium(iPop, rho, u, uSqr) + this->_coarse.getScalingFactor() * fneq;
}
+
+ fineLattice.set(finePos, fineCell);
}
{
@@ -225,6 +248,8 @@ void FineCoupler2D<T,DESCRIPTOR>::couple()
const T uSqr = u[0]*u[0] + u[1]*u[1];
const auto finePos = this->getFineLatticeR(1);
+ Cell<T,DESCRIPTOR> fineCell;
+ fineLattice.get(finePos, fineCell);
for (int iPop=0; iPop < DESCRIPTOR<T>::q; ++iPop) {
const T fneq = order3interpolation(
@@ -232,8 +257,10 @@ void FineCoupler2D<T,DESCRIPTOR>::couple()
_c2f_fneq[1][iPop],
_c2f_fneq[2][iPop]
);
- fineLattice.get(finePos)[iPop] = lbHelpers<T,DESCRIPTOR>::equilibrium(iPop, rho, u, uSqr) + this->_coarse.getScalingFactor() * fneq;
+ fineCell[iPop] = lbHelpers<T,DESCRIPTOR>::equilibrium(iPop, rho, u, uSqr) + this->_coarse.getScalingFactor() * fneq;
}
+
+ fineLattice.set(finePos, fineCell);
}
{
@@ -256,6 +283,8 @@ void FineCoupler2D<T,DESCRIPTOR>::couple()
const T uSqr = u[0]*u[0] + u[1]*u[1];
const auto finePos = this->getFineLatticeR(this->_fineSize-2);
+ Cell<T,DESCRIPTOR> fineCell;
+ fineLattice.get(finePos, fineCell);
for (int iPop=0; iPop < DESCRIPTOR<T>::q; ++iPop) {
const T fneq = order3interpolation(
@@ -263,8 +292,10 @@ void FineCoupler2D<T,DESCRIPTOR>::couple()
_c2f_fneq[this->_coarseSize-2][iPop],
_c2f_fneq[this->_coarseSize-3][iPop]
);
- fineLattice.get(finePos)[iPop] = lbHelpers<T,DESCRIPTOR>::equilibrium(iPop, rho, u, uSqr) + this->_coarse.getScalingFactor() * fneq;
+ fineCell[iPop] = lbHelpers<T,DESCRIPTOR>::equilibrium(iPop, rho, u, uSqr) + this->_coarse.getScalingFactor() * fneq;
}
+
+ fineLattice.set(finePos, fineCell);
}
}
@@ -276,7 +307,10 @@ void computeRestrictedFneq(const SuperLattice2D<T,DESCRIPTOR>& lattice,
{
for (int iPop=0; iPop < DESCRIPTOR<T>::q; ++iPop) {
T fNeq[DESCRIPTOR<T>::q] {};
- lattice.get(pos[0], pos[1] + DESCRIPTOR<T>::c[iPop][0], pos[2] + DESCRIPTOR<T>::c[iPop][1]).computeFneq(fNeq);
+ Cell<T,DESCRIPTOR> cell;
+ const Vector<int,3> neighborPos {pos[0], pos[1] + DESCRIPTOR<T>::c[iPop][0], pos[2] + DESCRIPTOR<T>::c[iPop][1]};
+ lattice.get(neighborPos, cell);
+ lbHelpers<T,DESCRIPTOR>::computeFneq(cell, fNeq);
for (int jPop=0; jPop < DESCRIPTOR<T>::q; ++jPop) {
restrictedFneq[jPop] += fNeq[jPop];
@@ -311,14 +345,21 @@ void CoarseCoupler2D<T,DESCRIPTOR>::couple()
const auto coarsePos = this->getCoarseLatticeR(y);
T fEq[DESCRIPTOR<T>::q] {};
- fineLattice.get(finePos).computeFeq(fEq);
+ Cell<T,DESCRIPTOR> fineCell;
+ fineLattice.get(finePos, fineCell);
+ lbHelpers<T,DESCRIPTOR>::computeFeq(fineCell, fEq);
T fNeq[DESCRIPTOR<T>::q] {};
computeRestrictedFneq(fineLattice, finePos, fNeq);
+ Cell<T,DESCRIPTOR> coarseCell;
+ coarseLattice.get(coarsePos, coarseCell);
+
for (int iPop=0; iPop < DESCRIPTOR<T>::q; ++iPop) {
- coarseLattice.get(coarsePos)[iPop] = fEq[iPop] + this->_coarse.getInvScalingFactor() * fNeq[iPop];
+ coarseCell[iPop] = fEq[iPop] + this->_coarse.getInvScalingFactor() * fNeq[iPop];
}
+
+ coarseLattice.set(coarsePos, coarseCell);
}
}
diff --git a/src/refinement/grid2D.hh b/src/refinement/grid2D.hh
index 71b943e..65dd84d 100644
--- a/src/refinement/grid2D.hh
+++ b/src/refinement/grid2D.hh
@@ -55,7 +55,12 @@ Grid2D<T,DESCRIPTOR>::Grid2D(IndicatorF2D<T>& domainF, int resolution, T tau, in
_cuboids(new CuboidGeometry2D<T>(
domainF,
_converter->getConversionFactorLength(),
- 1)),
+#ifdef PARALLEL_MODE_MPI
+ singleton::mpi().getSize()
+#else
+ 1
+#endif
+ )),
_balancer(new HeuristicLoadBalancer<T>(
*_cuboids)),
_geometry(new SuperGeometry2D<T>(