| b(std::size_t L=0) | peclet::core::amr::Multigrid< Dim, Bits > | inline |
| build(const Octree &finest, double h0) | peclet::core::amr::Multigrid< Dim, Bits > | inline |
| build(const Octree &finest, double h0, OpenFn &&openFn, bool periodic=true, bool immersedWall=false) | peclet::core::amr::Multigrid< Dim, Bits > | inline |
| Code typedef | peclet::core::amr::Multigrid< Dim, Bits > | |
| M typedef | peclet::core::amr::Multigrid< Dim, Bits > | |
| numLeaves(std::size_t L=0) const | peclet::core::amr::Multigrid< Dim, Bits > | inline |
| numLevels() const | peclet::core::amr::Multigrid< Dim, Bits > | inline |
| Octree typedef | peclet::core::amr::Multigrid< Dim, Bits > | |
| octreeCode(std::size_t L, Index i) const | peclet::core::amr::Multigrid< Dim, Bits > | inline |
| op(std::size_t L=0) const | peclet::core::amr::Multigrid< Dim, Bits > | inline |
| Poisson typedef | peclet::core::amr::Multigrid< Dim, Bits > | |
| quadCoef() const | peclet::core::amr::Multigrid< Dim, Bits > | inline |
| quadSlot() const | peclet::core::amr::Multigrid< Dim, Bits > | inline |
| quadStart() const | peclet::core::amr::Multigrid< Dim, Bits > | inline |
| reassembleOperators() | peclet::core::amr::Multigrid< Dim, Bits > | inline |
| setHelmholtz(double c0, double cD) | peclet::core::amr::Multigrid< Dim, Bits > | inline |
| setKappaRestrict(bool on) | peclet::core::amr::Multigrid< Dim, Bits > | inline |
| setRemoveMean(bool on) | peclet::core::amr::Multigrid< Dim, Bits > | inline |
| solveQuad(int outer=20, int cyclesPerOuter=1, int pre=2, int post=2, int bottom=40, double omega=0.8) | peclet::core::amr::Multigrid< Dim, Bits > | inline |
| vcycle(int pre=2, int post=2, int bottom=40, double omega=0.8, std::size_t L=0) | peclet::core::amr::Multigrid< Dim, Bits > | inline |
| x(std::size_t L=0) | peclet::core::amr::Multigrid< Dim, Bits > | inline |