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authorAdrian Kummerlaender2019-01-06 22:26:50 +0100
committerAdrian Kummerlaender2019-06-24 15:14:37 +0200
commit531c88ab94a11087f41dd07be5fc6c16b7ddad2d (patch)
tree513d90648f27ce41b85d71fb8484dac4ac5900be /apps
parent9519d45f0c51f044108c67261ebd47712911f687 (diff)
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Test refinement around obstacle
Coupler construction is to be wrapped by `Grid::refine` for refinement areas that are fully inside the coarse domain.
Diffstat (limited to 'apps')
-rw-r--r--apps/adrian/poiseuille2d/poiseuille2d.cpp50
1 files changed, 34 insertions, 16 deletions
diff --git a/apps/adrian/poiseuille2d/poiseuille2d.cpp b/apps/adrian/poiseuille2d/poiseuille2d.cpp
index 6c50339..f160135 100644
--- a/apps/adrian/poiseuille2d/poiseuille2d.cpp
+++ b/apps/adrian/poiseuille2d/poiseuille2d.cpp
@@ -38,7 +38,7 @@ typedef double T;
const T lx = 4.; // length of the channel
const T ly = 1.; // height of the channel
const int N = 30; // resolution of the model
-const T Re = 100.; // Reynolds number
+const T Re = 100.; // Reynolds number
const T maxPhysT = 60.; // max. simulation time in s, SI unit
const T physInterval = 0.25; // interval for the convergence check in s
const T residuum = 1e-5; // residuum for the convergence check
@@ -68,8 +68,8 @@ void prepareGeometry(UnitConverter<T,DESCRIPTOR> const& converter,
IndicatorCuboid2D<T> outflow(extend, origin);
superGeometry.rename(1,4,1,outflow);
- //IndicatorCuboid2D<T> obstacle(Vector<T,2>{0.5,0.2}, Vector<T,2>{1.75,0.4});
- //superGeometry.rename(1,2,obstacle);
+ IndicatorCuboid2D<T> obstacle(Vector<T,2>{0.2,0.1}, Vector<T,2>{1.25,0.45});
+ superGeometry.rename(1,5,obstacle);
// Removes all not needed boundary voxels outside the surface
superGeometry.clean();
@@ -365,8 +365,11 @@ public:
{
OLB_ASSERT(util::nearZero(extend[0]) || util::nearZero(extend[1]), "Coupling is only implemented alongside unit vectors");
- _coarse.getCuboidGeometry().getFloorLatticeR(_origin, _coarseOrigin);
- _fine.getCuboidGeometry().getFloorLatticeR(_origin, _fineOrigin);
+ std::vector<int> tmp(3,0);
+ _coarse.getCuboidGeometry().getLatticeR(_origin.toStdVector(), tmp);
+ _coarseOrigin = tmp;
+ _fine.getCuboidGeometry().getLatticeR(_origin.toStdVector(), tmp);
+ _fineOrigin = tmp;
}
};
@@ -611,8 +614,8 @@ int main(int argc, char* argv[])
Vector<T,2> coarseExtend { lx, ly };
IndicatorCuboid2D<T> coarseCuboid(coarseExtend, coarseOrigin);
- Vector<T,2> fineOrigin { 0.25 * lx, 0.0 };
- Vector<T,2> fineExtend { 0.5 * lx, ly };
+ Vector<T,2> fineOrigin { 0.25 * lx, 0.3 };
+ Vector<T,2> fineExtend { 0.5 * lx, 0.4 };
IndicatorCuboid2D<T> fineCuboid(fineExtend, fineOrigin);
auto coarseGrid = Grid<T,DESCRIPTOR>::make(coarseCuboid, N, 0.8, Re);
@@ -621,9 +624,12 @@ int main(int argc, char* argv[])
prepareGeometry(coarseGrid->getConverter(), coarseGrid->getSuperGeometry());
prepareGeometry(fineGrid->getConverter(), fineGrid->getSuperGeometry());
- IndicatorCuboid2D<T> overlapCuboid(Vector<T,2>{fineExtend[0]-2*coarseDeltaX, fineExtend[1]}, Vector<T,2>{fineOrigin[0]+coarseDeltaX, fineOrigin[1]});
+ fineGrid->getSuperGeometry().rename(2,1);
+ fineGrid->getSuperGeometry().rename(5,2);
+ IndicatorCuboid2D<T> overlapCuboid(fineExtend - 4*coarseDeltaX, fineOrigin + 2*coarseDeltaX);
coarseGrid->getSuperGeometry().rename(1,0,overlapCuboid);
coarseGrid->getSuperGeometry().rename(2,0,overlapCuboid);
+ coarseGrid->getSuperGeometry().rename(5,0,overlapCuboid);
Dynamics<T, DESCRIPTOR>* coarseBulkDynamics;
coarseBulkDynamics = new BGKdynamics<T, DESCRIPTOR>(
@@ -664,15 +670,15 @@ int main(int argc, char* argv[])
residuum);
timer.start();
- const Vector<T,2> originC2F = fineOrigin;
- const Vector<T,2> extendC2F { 0, fineExtend[1] };
- FineCoupler<T,DESCRIPTOR> fineCoupler0(*coarseGrid, *fineGrid, fineOrigin, extendC2F);
- FineCoupler<T,DESCRIPTOR> fineCoupler1(*coarseGrid, *fineGrid, fineOrigin + Vector<T,2>(fineExtend[0],0), extendC2F);
+ FineCoupler<T,DESCRIPTOR> fineCoupler0(*coarseGrid, *fineGrid, fineOrigin, Vector<T,2>{0,fineExtend[1]+coarseDeltaX});
+ FineCoupler<T,DESCRIPTOR> fineCoupler1(*coarseGrid, *fineGrid, fineOrigin + Vector<T,2>{fineExtend[0],0}, Vector<T,2>{0,fineExtend[1]+coarseDeltaX});
+ FineCoupler<T,DESCRIPTOR> fineCoupler2(*coarseGrid, *fineGrid, fineOrigin + Vector<T,2>(0,fineExtend[1]), Vector<T,2>{fineExtend[0]+coarseDeltaX,0});
+ FineCoupler<T,DESCRIPTOR> fineCoupler3(*coarseGrid, *fineGrid, fineOrigin, Vector<T,2>{fineExtend[0]+coarseDeltaX,0});
- const Vector<T,2> originF2C { fineOrigin[0] + coarseDeltaX, fineOrigin[1] };
- const Vector<T,2> extendF2C { 0, fineExtend[1] };
- CoarseCoupler<T,DESCRIPTOR> coarseCoupler0(*coarseGrid, *fineGrid, originF2C, extendF2C);
- CoarseCoupler<T,DESCRIPTOR> coarseCoupler1(*coarseGrid, *fineGrid, fineOrigin + Vector<T,2>(fineExtend[0]-coarseDeltaX,0), extendF2C);
+ CoarseCoupler<T,DESCRIPTOR> coarseCoupler0(*coarseGrid, *fineGrid, fineOrigin + coarseDeltaX, Vector<T,2>{0,fineExtend[1]-2*coarseDeltaX});
+ CoarseCoupler<T,DESCRIPTOR> coarseCoupler1(*coarseGrid, *fineGrid, fineOrigin + Vector<T,2>(fineExtend[0]-coarseDeltaX,coarseDeltaX), Vector<T,2>{0,fineExtend[1]-2*coarseDeltaX});
+ CoarseCoupler<T,DESCRIPTOR> coarseCoupler2(*coarseGrid, *fineGrid, fineOrigin + Vector<T,2>{coarseDeltaX,fineExtend[1]-coarseDeltaX}, Vector<T,2>{fineExtend[0]-2*coarseDeltaX,0});
+ CoarseCoupler<T,DESCRIPTOR> coarseCoupler3(*coarseGrid, *fineGrid, fineOrigin + coarseDeltaX, Vector<T,2>{fineExtend[0]-2*coarseDeltaX,0});
for (int iT = 0; iT < coarseGrid->getConverter().getLatticeTime(maxPhysT); ++iT) {
if (converge.hasConverged()) {
@@ -682,6 +688,8 @@ int main(int argc, char* argv[])
fineCoupler0.store();
fineCoupler1.store();
+ fineCoupler2.store();
+ fineCoupler3.store();
coarseGrid->getSuperLattice().collideAndStream();
fineGrid->getSuperLattice().collideAndStream();
@@ -689,15 +697,25 @@ int main(int argc, char* argv[])
fineCoupler0.couple();
fineCoupler1.interpolate();
fineCoupler1.couple();
+ fineCoupler2.interpolate();
+ fineCoupler2.couple();
+ fineCoupler3.interpolate();
+ fineCoupler3.couple();
fineGrid->getSuperLattice().collideAndStream();
fineCoupler0.store();
fineCoupler0.couple();
fineCoupler1.store();
fineCoupler1.couple();
+ fineCoupler2.store();
+ fineCoupler2.couple();
+ fineCoupler3.store();
+ fineCoupler3.couple();
coarseCoupler0.couple();
coarseCoupler1.couple();
+ coarseCoupler2.couple();
+ coarseCoupler3.couple();
getResults(
"coarse_",