Tools for creating potential flow fields through solving Laplace's equation. More...
#include <openvdb/openvdb.h>#include "GridOperators.h"#include "GridTransformer.h"#include "Mask.h"#include "Morphology.h"#include "PoissonSolver.h"Go to the source code of this file.
| Classes | |
| struct | VectorToScalarGrid< VecGridT > | 
| Metafunction to convert a vector-valued grid type to a scalar grid type.  More... | |
| Namespaces | |
| namespace | openvdb | 
| namespace | openvdb::v12_0 | 
| namespace | openvdb::v12_0::tools | 
| Functions | |
| template<typename GridT, typename MaskT = typename GridT::template ValueConverter<ValueMask>::Type> | |
| MaskT::Ptr | createPotentialFlowMask (const GridT &grid, int dilation=5) | 
| Construct a mask for the Potential Flow domain. | |
| template<typename Vec3T, typename GridT, typename MaskT> | |
| GridT::template ValueConverter< Vec3T >::Type::Ptr | createPotentialFlowNeumannVelocities (const GridT &collider, const MaskT &domain, const typename GridT::template ValueConverter< Vec3T >::Type::ConstPtr boundaryVelocity, const Vec3T &backgroundVelocity) | 
| Create a Potential Flow velocities grid for the Neumann boundary. | |
| template<typename Vec3GridT, typename MaskT, typename InterrupterT = util::NullInterrupter> | |
| VectorToScalarGrid< Vec3GridT >::Ptr | computeScalarPotential (const MaskT &domain, const Vec3GridT &neumann, math::pcg::State &state, InterrupterT *interrupter=nullptr) | 
| Compute the Potential on the domain using the Neumann boundary conditions on solid boundaries. | |
| template<typename Vec3GridT> | |
| Vec3GridT::Ptr | computePotentialFlow (const typename VectorToScalarGrid< Vec3GridT >::Type &potential, const Vec3GridT &neumann, const typename Vec3GridT::ValueType backgroundVelocity=zeroVal< typename Vec3GridT::TreeType::ValueType >()) | 
| Compute a vector Flow Field comprising the gradient of the potential with Neumann boundary conditions applied. | |
Tools for creating potential flow fields through solving Laplace's equation.