OpenVDB  1.1.0
Class Hierarchy
This inheritance list is sorted roughly, but not completely, alphabetically:
[detail level 123]
oCABTransformThis class implements the Transformer functor interface (specifically, the isAffine(), transform() and invTransform() methods) for a transform that maps an A grid into a B grid's index space such that, after resampling, A's index space and transform match B's index space and transform
oCAdaptiveMeshOp
oCArchiveGrid serializer/unserializer
oCAuxDataGenerator< CharAccessorT, AuxAccessorT >
oCAuxiliaryData< DistTreeT, AuxDataT >
oCRootNodeMask::BaseIterator
oCBaseMaskIterator< NodeMask >Base class for the bit mask iterators
oCBaseStencil< _GridType, StencilType >
oCBaseStencil< GridType, CurvatureStencil< GridType > >
oCBaseStencil< GridType, DenseStencil< GridType > >
oCBaseStencil< GridType, FourthOrderDenseStencil< GridType > >
oCBaseStencil< GridType, GradStencil< GridType > >
oCBaseStencil< GridType, NineteenPointStencil< GridType > >
oCBaseStencil< GridType, SecondOrderDenseStencil< GridType > >
oCBaseStencil< GridType, SevenPointStencil< GridType > >
oCBaseStencil< GridType, SixthOrderDenseStencil< GridType > >
oCBaseStencil< GridType, ThirteenPointStencil< GridType > >
oCBaseStencil< GridType, WenoStencil< GridType > >
oCBBox< _VectorType >Axis-aligned bounding box
oCBBox< Vec3d >
oCBIAS_SCHEME< bgs >
oCBIAS_SCHEME< FIRST_BIAS >
oCBIAS_SCHEME< HJWENO5_BIAS >
oCBIAS_SCHEME< SECOND_BIAS >
oCBIAS_SCHEME< THIRD_BIAS >
oCBIAS_SCHEME< WENO5_BIAS >
oCBoxSampler
oCLeafNode< bool, Log2Dim >::Buffer
oCLeafNode< T, Log2Dim >::BufferStores the actual values in the LeafNode. Its dimension it fixed to 2^(3*Log2Dim)
oCCacheItem< TreeCacheT, NodeVecT, AtRoot >
oCCacheItem< TreeCacheT, NodeVecT, true >The tail of a compile-time list of cached node pointers, ordered from LeafNode to RootNode
oCCacheItem< ValueAccessor, SubtreeT, boost::mpl::size< SubtreeT >::value==1 >
oCInternalNode< _ChildNodeType, Log2Dim >::ChildAll
oCLeafNode< T, Log2Dim >::ChildAll
oCInternalNode< _ChildNodeType, Log2Dim >::ChildOff
oCLeafNode< T, Log2Dim >::ChildOff
oCInternalNode< _ChildNodeType, Log2Dim >::ChildOn
oCLeafNode< T, Log2Dim >::ChildOn
oCClosestPointProjector< CptGridT >
oCCombineArgs< ValueType >This struct collects both input and output arguments to "grid combiner" functors used with the tree::TypedGrid::combineExtended() and combine2Extended() methods. ValueType is the value type of the two grids being combined
oCCombineOpAdapter< ValueT, CombineOp >Helper class to adapt a three-argument (a, b, result) CombineOp functor into a single-argument functor that accepts a CombineArgs struct
oCCompoundMap< T1, T2 >Creates the composition of two maps, each of which could be a composition. In the case that each component of the composition classified as linear an acceleration AffineMap is stored
oCCompReplaceOp< TreeT >
oCConstrainedPointAdvect< GridT, PointListT, StaggeredVelocity, CptGridType, InterrupterType >
oCContourTracer< DistTreeT, InterruptT >TBB Class object that slices up the volume into 2D slices that can be processed in parallel and marks the exterior contour of disjoint voxel sets in each slice
oCCoordSigned (x, y, z) integer coordinates
oCCoordBBoxAxis-aligned bounding box of signed integer coordinates
oCCopyableOpApplier< IterT, OpT >
oCCopyableOpTransformer< InIterT, OutTreeT, OpT >
oCCopyConstness< FromType, ToType >
oCCopyConstness< const FromType, ToType >
oCCount< DistTreeT >
oCCPT< MapType, DiffScheme >Compute the closest-point transform to a level set
oCCpt< InGridT, InterruptT >Compute the closest-point transform of a scalar grid
oCCPT_RANGE< MapType, DiffScheme >Compute the closest-point transform to a level set
oCCsgVisitorBase< TreeType >
oCCurl< MapType, DiffScheme >Compute the curl of a vector-valued grid using differencing of various orders in the space defined by the range of the map
oCCurl< GridT, InterruptT >Compute the curl of a scalar grid
oCCurl< UniformScaleMap, CD_2ND >
oCCurl< UniformScaleMap, DiffScheme >
oCCurl< UniformScaleTranslateMap, CD_2ND >
oCCurl< UniformScaleTranslateMap, DiffScheme >
oCD1< DiffScheme >
oCD1< BD_1ST >
oCD1< BD_2ND >
oCD1< BD_3RD >
oCD1< BD_HJWENO5 >
oCD1< BD_WENO5 >
oCD1< CD_2ND >
oCD1< CD_2NDT >
oCD1< CD_4TH >
oCD1< CD_6TH >
oCD1< FD_1ST >
oCD1< FD_2ND >
oCD1< FD_3RD >
oCD1< FD_HJWENO5 >
oCD1< FD_WENO5 >
oCD1Vec< DiffScheme >
oCD1Vec< CD_2ND >
oCD1Vec< CD_2NDT >
oCD1Vec< CD_4TH >
oCD1Vec< CD_6TH >
oCD2< DiffScheme >
oCD2< CD_FOURTH >
oCD2< CD_SECOND >
oCD2< CD_SIXTH >
oCDimToWord< Log2Dim >Mapping from a Log2Dim to a data type of size 2^Log2Dim bits
oCDimToWord< 3 >
oCDimToWord< 4 >
oCDimToWord< 5 >
oCDimToWord< 6 >
oCDiscreteField< VelGridT, Interpolator >Thin wrapper class for a velocity grid
oCDivergence< MapType, DiffScheme >Compute the Divergence of a vector-type grid using differnce of various orders, the reulst defined with respect to the range-space of the map
oCDivergence< InGridT, InterruptT >Computes the Divergence of a scalar grid
oCDivergence< ScaleMap, CD_2ND >
oCDivergence< ScaleMap, DiffScheme >
oCDivergence< ScaleTranslateMap, CD_2ND >
oCDivergence< ScaleTranslateMap, DiffScheme >
oCDivergence< TranslationMap, DiffScheme >
oCDivergence< UniformScaleMap, CD_2ND >
oCDivergence< UniformScaleMap, DiffScheme >
oCDivergence< UniformScaleTranslateMap, CD_2ND >
oCDivergence< UniformScaleTranslateMap, DiffScheme >
oCDual< RealT >
oCDualTrait< T >
oCDualTrait< Dual< T > >
oCEnrightField< ScalarT >Analytical, divergence-free and periodic vecloity field
oCexception
oCExpandNB< DistTreeT >TBB Class object to expand the level-set narrow-band
oCFilter< GridT, InterruptT >Filtering of VDB volumes
oCFogVolumeOp< ValueType >
oCFormattedInt< IntT >I/O manipulator that formats integer values with thousands separators
oCDivergence< InGridT, InterruptT >::Functor< DiffScheme >
oCGradient< InGridT, InterruptT >::Functor
oCLaplacian< GridT, InterruptT >::Functor
oCMeanCurvature< GridT, InterruptT >::Functor
oCMagnitude< InGridT, InterruptT >::Functor
oCNormalize< GridT, InterruptT >::Functor
oCGenericMapA wrapper that holds a MapBase::ConstPtr and exposes a reduced set of fucntionality needed by the mathematical operators. This may be used in some Map-templated code, when the over-head of actually resovling the Map type is large compared to the map work to be done
oCGradient< MapType, DiffScheme >Center difference gradient opperators, defined with respect to the range-space of the map
oCGradient< InGridT, InterruptT >Computes the Gradient of a scalar grid
oCGradient< ScaleMap, CD_2ND >
oCGradient< ScaleTranslateMap, CD_2ND >
oCGradient< TranslationMap, DiffScheme >
oCGradient< UniformScaleMap, CD_2ND >
oCGradient< UniformScaleTranslateMap, CD_2ND >
oCGradientBiased< MapType, GradScheme >Biased gradient opperators, defined with respect to the range-space of the map note this will need to be divided by two in the case of CD_2NDT
oCGradientNormSqrd< MapType, GradScheme >
oCGradientNormSqrd< UniformScaleMap, GradScheme >
oCGradientNormSqrd< UniformScaleTranslateMap, GradScheme >
oCGridDescriptor
oCGridNamePredPredicate functor that returns true for grids that have a specified name
oCGridResampler
oCGridSampler< TreeOrAccessorType, SamplerType >Base class that provides the interface for continuous sampling of values in a grid
oCHalfReader< IsReal, T >
oCHalfReader< false, T >Partial specialization for non-floating-point types (no half to float promotion)
oCHalfReader< true, T >Partial specialization for floating-point types
oCHalfWriter< IsReal, T >
oCHalfWriter< false, T >Partial specialization for non-floating-point types (no float to half quantization)
oCHalfWriter< true, T >Partial specialization for floating-point types
oCHermiteQuantized Hermite data object that stores compressed intersection information (offsets and normlas) for the up-wind edges of a voxel. (Size 10 bytes)
oCInactivePrune< ValueType >Helper class for the tree nodes to replace inactive tree branches with a more memory efficient inactive tiles with the provided value. Specialized but faster then the tolerance based pruning defined above
oCInteriorMaskOp< TreeType >
oCInternalNode< _ChildNodeType, Log2Dim >
oCIntersectingVoxelCleaner< DistTreeT >TBB Class object that removes intersecting voxels that where set by rasterizing self-intersecting parts of the mesh
oCIntersectingVoxelSign< DistTreeT >TBB Class object that traversers all the intersecting voxels (defined by the intersectingVoxelsGrid) and potentially flips their sign, by comparing the 'closest point' directions of outside-marked and non-intersecting neighbouring voxel
oCInvertedTree< HeadT, HeadLevel >
oCInvertedTree< HeadT, HeadLevel >
oCInvertedTree< HeadT, 1 >
oCInvertedTree< HeadT, 1 >
oCis_diagonal_jacobian< T >
oCis_double< T >
oCis_double< double >
oCis_linear< T >Map traits
oCis_linear< AffineMap >
oCis_linear< CompoundMap< T1, T2 > >
oCis_linear< ScaleMap >
oCis_linear< ScaleTranslateMap >
oCis_linear< TranslationMap >
oCis_linear< UniformScaleMap >
oCis_linear< UniformScaleTranslateMap >
oCis_linear< UnitaryMap >
oCis_scale< T >
oCis_scale< ScaleMap >
oCis_scale_translate< T >
oCis_scale_translate< ScaleTranslateMap >
oCis_uniform_diagonal_jacobian< T >
oCis_uniform_scale< T >
oCis_uniform_scale< UniformScaleMap >
oCis_uniform_scale_translate< T >
oCis_uniform_scale_translate< TranslationMap >
oCis_uniform_scale_translate< UniformScaleTranslateMap >
oCis_vec3d< Vec3T >Simple tool to help determine when type conversions are needed
oCis_vec3d< Vec3d >
oCISCurl< DiffScheme >Curl operator defined in index space using various first derivative schemes
oCISDivergence< DiffScheme >Divergence operator defined in index space using various first derivative schemes
oCISGradient< DiffScheme >Gradient operators defined in index space of various orders
oCISGradientBiased< GradScheme, Vec3Bias >Biased Gradient Operators, using upwinding defined by the Vec3Bias input
oCISGradientNormSqrd< GradScheme >
oCISLaplacian< DiffScheme >Laplacian defined in index space, using various ceneter-differnce stencils
oCISLaplacian< CD_FOURTH >
oCISLaplacian< CD_SECOND >
oCISLaplacian< CD_SIXTH >
oCISMeanCurvature< DiffScheme2, DiffScheme1 >Compute the mean curvature in index space
oCBIAS_SCHEME< SECOND_BIAS >::ISStencil< GridType >
oCBIAS_SCHEME< THIRD_BIAS >::ISStencil< GridType >
oCBIAS_SCHEME< WENO5_BIAS >::ISStencil< GridType >
oCBIAS_SCHEME< HJWENO5_BIAS >::ISStencil< GridType >
oCBIAS_SCHEME< bgs >::ISStencil< GridType >
oCBIAS_SCHEME< FIRST_BIAS >::ISStencil< GridType >
oCLeafManager< TreeT >::LeafRange::Iterator
oCIteratorBase< MaskIterT, NodeT >Base class for iterators over internal and leaf nodes
oCIteratorBase< MaskDenseIter, NodeT >
oCIteratorBase< MaskDenseIterator, NodeT >
oCIteratorRange< IterT >
oCIterListItem< PrevItemT, NodeVecT, VecSize, _Level >An IterListItem is an element of a compile-time linked list of iterators to nodes of different types
oCIterListItem< IterListItem, RestT, VecSize-1, 1 >
oCIterListItem< PrevChildItem, InvTreeT, ROOT_LEVEL+1, 0 >
oCIterListItem< PrevItem, InvTreeT, ROOT_LEVEL+1, LEAF_LEVEL >
oCIterListItem< PrevItemT, NodeVecT, 1, _Level >The final element of a compile-time linked list of iterators to nodes of different types
oCIterListItem< PrevItemT, NodeVecT, VecSize, 0U >The initial element of a compile-time linked list of iterators to nodes of different types
oCIterListItem< PrevValueItem, InvTreeT, ROOT_LEVEL+1, 0 >
oCIterTraits< NodeT, IterT >
oCIterTraits< NodeT, typename NodeT::ChildAllCIter >
oCIterTraits< NodeT, typename NodeT::ChildAllIter >
oCIterTraits< NodeT, typename NodeT::ChildOffCIter >
oCIterTraits< NodeT, typename NodeT::ChildOffIter >
oCIterTraits< NodeT, typename NodeT::ChildOnCIter >
oCIterTraits< NodeT, typename NodeT::ChildOnIter >
oCIterTraits< NodeT, typename NodeT::ValueAllCIter >
oCIterTraits< NodeT, typename NodeT::ValueAllIter >
oCIterTraits< NodeT, typename NodeT::ValueOffCIter >
oCIterTraits< NodeT, typename NodeT::ValueOffIter >
oCIterTraits< NodeT, typename NodeT::ValueOnCIter >
oCIterTraits< NodeT, typename NodeT::ValueOnIter >
oCIterTraits< typename PrevIterT::NonConstNodeType, PrevIterT >
oCLaplacian< MapType, DiffScheme >Compute the Laplacian at a given location in a grid using finite differencing of various orders. The result is defined in the range of the map
oCLaplacian< GridT, InterruptT >Computes the Laplacian of a scalar grid
oCLaplacian< ScaleMap, DiffScheme >
oCLaplacian< ScaleTranslateMap, DiffScheme >
oCLaplacian< TranslationMap, DiffScheme >
oCLaplacian< UniformScaleMap, DiffScheme >
oCLaplacian< UniformScaleTranslateMap, DiffScheme >
oCLaplacian< UnitaryMap, DiffScheme >
oCLeafCPtrList< TreeT >
oCLeafCPtrList< CharTreeT >
oCLeafCPtrList< DistTreeT >
oCLeafIteratorBase< TreeT, RootChildOnIterT >Base class for tree-traversal iterators over all leaf nodes (but not leaf voxels)
oCLeafManager< TreeT >This class manages a linear array of pointers to a given tree's leaf nodes, as well as optional auxiliary buffers (one or more per leaf) that can be swapped with the leaf nodes' voxel data buffers
oCLeafManagerImpl< ManagerT >
oCLeafManagerImpl< LeafManager< const TreeT > >
oCLeafNode< T, Log2Dim >Templated block class to hold specific data types and a fixed number of values determined by Log2Dim. The actual coordinate dimension of the block is 2^Log2Dim, i.e. Log2Dim=3 corresponds to a LeafNode that spans a 8^3 block
oCLeafNode< bool, Log2Dim >LeafNode specialization for values of type bool that stores both the active states and the values of (2^Log2Dim)^3 voxels as bit masks
oCLeafPtrList< TreeT >
oCLeafPtrList< BoolTreeT >
oCLeafPtrList< DistTreeT >
oCLeafPtrList< IntTreeT >
oCLeafManager< TreeT >::LeafRange
oCLeafTopologyDiffOp< TreeType1, TreeType2 >Functor for use with tools::foreach() to compute the boolean difference between the value masks of corresponding leaf nodes in two trees
oCLeafTopologyIntOp< TreeType1, TreeType2 >Functor for use with tools::foreach() to compute the boolean intersection between the value masks of corresponding leaf nodes in two trees
oCLeafTransformer< TreeType, LeafOp >Threaded operator that applies a user-supplied functor to each leaf node in a LeafManager
oCLegacyFrustumLegacyFrustum class used at DreamWorks for converting old vdb files
oCLevelSetAdvection< GridT, FieldT, InterruptT >Hyperbolic advection of narrow-band level sets in an external velocity field
oCLevelSetFracture< GridType, InterruptType >Level set fracturing
oCLevelSetPrune< ValueType >Prune any descendants whose values are all inactive and replace them with inactive tiles having values with a magnitude equal to the background value and a sign equal to the first value encountered in the (inactive) child
oCLevelSetSphere< GridT, InterruptT >Generates a signed distance field (or narrow band level set) to a single sphere
oCLevelSetTracker< GridT, InterruptT >Performs multi-threaded interface tracking of narrow band level sets
oCMagnitude< InGridT, InterruptT >
oCMapBaseAbstract base class for maps
oCMapRegistryThreadsafe singleton object for accessing the map type-name dictionary. Associates a map type-name with a factory function
oCMat< SIZE, T >
oCMat2< T >
oCMat< 3, T >
oCMat< 4, double >
oCMat< 4, Real >
oCMat< 4, T >
oCGridTransformer::MatrixTransform
oCMeanCurvature< MapType, DiffScheme2, DiffScheme1 >Compute the Mean Curvature
oCMeanCurvature< GridT, InterruptT >
oCMeanCurvature< TranslationMap, DiffScheme2, DiffScheme1 >
oCMeanCurvature< UniformScaleMap, DiffScheme2, DiffScheme1 >
oCMeanCurvature< UniformScaleTranslateMap, DiffScheme2, DiffScheme1 >
oCMerge< DistTreeT >
oCMergeBufferOp< TreeType, ValueType >
oCMeshGen< DistTreeT, MeshingOp >
oCMeshToVolume< DistGridT, InterruptT >
oCMeshVoxelizer< DistTreeT, InterruptT >TBB class object to voxelize a mesh of triangles and/or quads into a collection of VDB grids, namely a square distance grid, closest primitive grid and a intersecting voxels grid (the voxels intersect the mesh)
oCMetadataBase class for storing metadata information in a grid
oCMetaMapProvides functionality storing type agnostic metadata information. Grids and other structures can inherit from this to attain metadata functionality
oCMinMaxVoxel< TreeType >Threaded operator that finds the minimum and maximum values among the active leaf-level voxels of a grid
oCMinOp< TreeType, ValueType >
oCMorphology< TreeType >
oCFile::NameIterator
oCIterTraits< NodeT, typename NodeT::ChildAllCIter >::NodeConverter< OtherNodeT >
oCIterTraits< NodeT, typename NodeT::ValueOnIter >::NodeConverter< OtherNodeT >
oCIterTraits< NodeT, typename NodeT::ChildOnIter >::NodeConverter< OtherNodeT >
oCIterTraits< NodeT, typename NodeT::ChildOffIter >::NodeConverter< OtherNodeT >
oCIterTraits< NodeT, typename NodeT::ChildOffCIter >::NodeConverter< OtherNodeT >
oCIterTraits< NodeT, typename NodeT::ChildAllIter >::NodeConverter< OtherNodeT >
oCIterTraits< NodeT, typename NodeT::ValueOnCIter >::NodeConverter< OtherNodeT >
oCIterTraits< NodeT, typename NodeT::ValueOffIter >::NodeConverter< OtherNodeT >
oCIterTraits< NodeT, typename NodeT::ValueAllCIter >::NodeConverter< OtherNodeT >
oCIterTraits< NodeT, typename NodeT::ChildOnCIter >::NodeConverter< OtherNodeT >
oCIterTraits< NodeT, typename NodeT::ValueOffCIter >::NodeConverter< OtherNodeT >
oCIterTraits< NodeT, typename NodeT::ValueAllIter >::NodeConverter< OtherNodeT >
oCNodeIteratorBase< _TreeT, RootChildOnIterT >Base class for tree-traversal iterators over all nodes
oCNodeMask< Log2Dim >Bit mask for the internal and leaf nodes of VDB. This is a 64-bit implementation
oCNodeMask< 1 >Template specialization of NodeMask for Log2Dim=1, i.e. 2^3 nodes
oCNodeMask< 2 >Template specialization of NodeMask for Log2Dim=2, i.e. 4^3 nodes
oCNodeUnionImpl< ValueIsClass, ValueT, ChildT >
oCNodeUnionImpl< boost::is_class< ValueT >::value, ValueT, ChildT >
oCNodeUnionImpl< boost::is_class< ValueType >::value, ValueType, ChildNodeType >
oCNodeUnionImpl< false, ValueT, ChildT >
oCNodeUnionImpl< true, ValueT, ChildT >
oCNonUniformPointScatter< PointAccessorType, RandomGenerator, InterruptType >Non-uniform scatters of point in the active voxels. The local point count is implicitly defined as a product of of a global density and the local voxel (or tile) value
oCNormalize< GridT, InterruptT >
oCLevelSetTracker< GridT, InterruptT >::Normalizer< SpatialScheme, TemporalScheme >
oCNullInterrupterDummy NOOP interrupter class defining interface
oCOffsetOp< ValueType >
oCMagnitude< InGridT, InterruptT >::OpT
oCNormalize< GridT, InterruptT >::OpT
oCParticlesToLevelSet< GridT, ParticleListT, InterruptT, RealT >
oCParticlesToLevelSetAndId< LevelSetGridT, ParticleListT, InterruptT >Use this wrapper class to convert particles into a level set and a separate index grid of closest-point particle id. The latter can be used to subsequently transfer particles attributes into separate grids
oCPointAdvect< GridT, PointListT, StaggeredVelocity, InterrupterType >
oCPointGen< DistTreeT >
oCPointSampler
oCPointTransform
oCPolygonPoolCollection of quads and triangles
oCPrimCpy
oCpromote< S, T >
oCQuadMeshOp
oCQuadraticSampler
oCQuantizedUnitVec
oCQuat< T >
oCRandomIntSimple class to generate random intergers
oCRealToHalf< T >RealToHalf and its specializations define a mapping from floating-point data types to analogous half float types
oCRealToHalf< double >
oCRealToHalf< float >
oCRealToHalf< Vec2d >
oCRealToHalf< Vec2s >
oCRealToHalf< Vec3d >
oCRealToHalf< Vec3s >
oCReferenceData< DistTreeT >
oCRenormOp< GridType, ValueType >
oCReturnValue< T >
oCRootNode< ChildType >
oCRootNodeMask
oCSampler
oCScalarToVectorConverter< ScalarGridType >ScalarToVectorConverter<ScalarGridType>::Type is the type of a grid having the same tree configuration as ScalarGridType but value type Vec3<T> where T is ScalarGridType::ValueType
oCSeamMaskGen< DistTreeT >
oCShallowCopy
oCSharedOpApplier< IterT, OpT >
oCSharedOpTransformer< InIterT, OutTreeT, OpT >
oCShellVoxelCleaner< DistTreeT >TBB Class object that removes non-intersecting voxels that where set by rasterizing self-intersecting parts of the mesh
oCSqrtAndScaleOp< ValueType >
oCStaggeredBoxSampler
oCStaggeredPointSampler
oCStaggeredQuadraticSampler
oCSwappedCombineOp< ValueType, CombineOp >
oCTestLeafIO< typename >
oCTolerance< ValueType >
oCtolerance< T >
oCtolerance< double >
oCtolerance< float >
oCTolerancePrune< ValueType >Helper class for the tree nodes to replace constant tree branches (to within the provided tolerance) with a more memory efficient tile
oCTopologyCopy
oCTransformCalculate an axis-aligned bounding box in index space from a bounding sphere in world space
oCTree4< T, N1, N2, N3 >
oCTreeAdapter< _TreeType >This adapter allows code that is templated on a Tree type to accept either a Tree type or a Grid type
oCTreeAdapter< Grid< _TreeType > >Partial specialization for Grid types
oCTreeBaseBase class for typed trees
oCTreeIterTraits< TreeT, IterT >TreeIterTraits provides, for all tree iterators, a begin(tree) function that returns an iterator over a tree of arbitrary type
oCTreeIterTraits< TreeT, typename TreeT::LeafCIter >
oCTreeIterTraits< TreeT, typename TreeT::LeafIter >
oCTreeIterTraits< TreeT, typename TreeT::NodeCIter >
oCTreeIterTraits< TreeT, typename TreeT::NodeIter >
oCTreeIterTraits< TreeT, typename TreeT::RootNodeType::ChildAllCIter >
oCTreeIterTraits< TreeT, typename TreeT::RootNodeType::ChildAllIter >
oCTreeIterTraits< TreeT, typename TreeT::RootNodeType::ChildOffCIter >
oCTreeIterTraits< TreeT, typename TreeT::RootNodeType::ChildOffIter >
oCTreeIterTraits< TreeT, typename TreeT::RootNodeType::ChildOnCIter >
oCTreeIterTraits< TreeT, typename TreeT::RootNodeType::ChildOnIter >
oCTreeIterTraits< TreeT, typename TreeT::ValueAllCIter >
oCTreeIterTraits< TreeT, typename TreeT::ValueAllIter >
oCTreeIterTraits< TreeT, typename TreeT::ValueOffCIter >
oCTreeIterTraits< TreeT, typename TreeT::ValueOffIter >
oCTreeIterTraits< TreeT, typename TreeT::ValueOnCIter >
oCTreeIterTraits< TreeT, typename TreeT::ValueOnIter >
oCTreeTraits< TreeT >Useful traits for Tree types
oCTreeTraits< const TreeT >
oCTreeValueIteratorBase< _TreeT, ValueIterT >Base class for tree-traversal iterators over tile and voxel values
oCTrimOp< ValueType >
oCTuple< SIZE, T >
oCTuple< 2, T >
oCTuple< 3, double >
oCTuple< 3, Int32 >
oCTuple< 3, Real >
oCTuple< 3, T >
oCTuple< 4, T >
oCTupleAbs< SIZE, T, IsInteger >Helper class to compute the absolute value of a Tuple
oCTupleAbs< SIZE, T, true >
oCUniformPointScatter< PointAccessorType, RandomGenerator, InterruptType >The two point scatters UniformPointScatter and NonUniformPointScatter depend on the following two classes:
oCValueAccessorBase< TreeType >This base class for ValueAccessors manages registration of an accessor with a tree so that the tree can automatically clear the accessor whenever one of its nodes is deleted
oCValueAccessorBase< _TreeType >
oCValueAccessorBase< const BoolTreeT >
oCValueAccessorBase< const IntTreeT >
oCValueAccessorBase< const StencilTreeT >
oCValueAccessorBase< const TreeT >
oCValueAccessorBase< DistTreeT >
oCValueAccessorBase< IndexTreeT >
oCValueAccessorBase< StencilTreeT >
oCValueAccessorBase< TreeT >
oCLeafNode< T, Log2Dim >::ValueAll
oCInternalNode< _ChildNodeType, Log2Dim >::ValueAll
oCRootNode< ChildType >::ValueConverter< OtherValueType >ValueConverter<T>::Type is the type of a RootNode having the same child hierarchy as this node but a different value type, T
oCLeafNode< T, Log2Dim >::ValueConverter< OtherValueType >ValueConverter<T>::Type is the type of a LeafNode having the same child hierarchy and dimensions as this node but a different value type, T
oCTree< _RootNodeType >::ValueConverter< OtherValueType >ValueConverter<T>::Type is the type of a tree having the same hierarchy as this tree but a different value type, T
oCInternalNode< _ChildNodeType, Log2Dim >::ValueConverter< OtherValueType >ValueConverter<T>::Type is the type of an InternalNode having the same child hierarchy and dimensions as this node but a different value type, T
oCGrid< typename >::ValueConverter< OtherValueType >ValueConverter<T>::Type is the type of a grid having the same hierarchy as this grid but a different value type, T
oCLeafNode< bool, Log2Dim >::ValueConverter< ValueType >ValueConverter<T>::Type is the type of a LeafNode having the same dimensions as this node but a different value type, T
oCInternalNode< _ChildNodeType, Log2Dim >::ValueOff
oCLeafNode< T, Log2Dim >::ValueOff
oCInternalNode< _ChildNodeType, Log2Dim >::ValueOn
oCLeafNode< T, Log2Dim >::ValueOn
oCVectorToScalarConverter< VectorGridType >VectorToScalarConverter<VectorGridType>::Type is the type of a grid having the same tree configuration as VectorGridType but a scalar value type, T, where T is the type of the original vector components
oCVecTraits< T >
oCVecTraits< math::Vec2< T > >
oCVecTraits< math::Vec3< T > >
oCVecTraits< math::Vec4< T > >
oCVelocityIntegrator< GridT, StaggeredVelocity >Performs runge-kutta time integration of variable order in a static velocity field
oCVelocitySampler< GridT, StaggeredVelocity >
oCVersionId
oCVolumeToMeshMesh any scalar grid with a continuous isosurface
\CVoxelSignOp< ValueType >