OpenVDB  9.0.1
Classes | Public Types | Public Member Functions | Static Public Member Functions | Static Public Attributes | Static Protected Member Functions | List of all members
Grid< _TreeType > Class Template Reference

Container class that associates a tree with a transform and metadata. More...

#include <openvdb/Grid.h>

Inherits GridBase.

Classes

struct  ValueConverter
 ValueConverter<T>::Type is the type of a grid having the same hierarchy as this grid but a different value type, T. More...
 

Public Types

using Ptr = SharedPtr< Grid >
 
using ConstPtr = SharedPtr< const Grid >
 
using TreeType = _TreeType
 
using TreePtrType = typename _TreeType::Ptr
 
using ConstTreePtrType = typename _TreeType::ConstPtr
 
using ValueType = typename _TreeType::ValueType
 
using BuildType = typename _TreeType::BuildType
 
using ValueOnIter = typename _TreeType::ValueOnIter
 
using ValueOnCIter = typename _TreeType::ValueOnCIter
 
using ValueOffIter = typename _TreeType::ValueOffIter
 
using ValueOffCIter = typename _TreeType::ValueOffCIter
 
using ValueAllIter = typename _TreeType::ValueAllIter
 
using ValueAllCIter = typename _TreeType::ValueAllCIter
 
using Accessor = typename tree::ValueAccessor< _TreeType, true >
 
using ConstAccessor = typename tree::ValueAccessor< const _TreeType, true >
 
using UnsafeAccessor = typename tree::ValueAccessor< _TreeType, false >
 
using ConstUnsafeAccessor = typename tree::ValueAccessor< const _TreeType, false >
 
using GridFactory) = Ptr(*)(
 
using MetadataMap = std::map< Name, Metadata::Ptr >
 
using MetaIterator = MetadataMap::iterator
 
using ConstMetaIterator = MetadataMap::const_iterator
 

Public Member Functions

 Grid ()
 Construct a new grid with background value zero. More...
 
 Grid (const ValueType &background)
 Construct a new grid with the given background value. More...
 
 Grid (TreePtrType)
 Construct a new grid that shares the given tree and associates with it an identity linear transform. More...
 
 Grid (const Grid &)
 Deep copy another grid's metadata, transform and tree. More...
 
template<typename OtherTreeType >
 Grid (const Grid< OtherTreeType > &)
 Deep copy the metadata, transform and tree of another grid whose tree configuration is the same as this grid's but whose value type is different. Cast the other grid's values to this grid's value type. More...
 
 Grid (Grid &, ShallowCopy)
 Deep copy another grid's metadata and transform, but share its tree. More...
 
 Grid (const GridBase &)
 Deep copy another grid's metadata and transform, but construct a new tree with background value zero. More...
 
 ~Grid () override
 
Gridoperator= (const Grid &)=delete
 Disallow assignment, since it wouldn't be obvious whether the copy is deep or shallow. More...
 
Name type () const override
 Return the name of this grid's type. More...
 
Name valueType () const override
 Return the name of the type of a voxel's value (e.g., "float" or "vec3d"). More...
 
bool isTreeUnique () const final
 Return true if tree is not shared with another grid. More...
 
MetaMap::Ptr copyMeta () const
 Return a copy of this map whose fields are shared with this map. More...
 
MetaMap::Ptr deepCopyMeta () const
 Return a deep copy of this map that shares no data with this map. More...
 
void readMeta (std::istream &)
 Unserialize metadata from the given stream. More...
 
void writeMeta (std::ostream &) const
 Serialize metadata to the given stream. More...
 
void insertMeta (const Name &, const Metadata &value)
 Insert a new metadata field or overwrite the value of an existing field. More...
 
void insertMeta (const MetaMap &)
 Deep copy all of the metadata fields from the given map into this map. More...
 
void removeMeta (const Name &)
 Remove the given metadata field if it exists. More...
 
template<typename T >
T & metaValue (const Name &)
 Return a reference to the value of type T stored in the given metadata field. More...
 
template<typename T >
const T & metaValue (const Name &) const
 
MetaIterator beginMeta ()
 
ConstMetaIterator beginMeta () const
 
MetaIterator endMeta ()
 
ConstMetaIterator endMeta () const
 
void clearMetadata ()
 
size_t metaCount () const
 
std::string str (const std::string &indent="") const
 Return a string describing this metadata map. Prefix each line with indent. More...
 
bool operator== (const MetaMap &other) const
 Return true if the given map is equivalent to this map. More...
 
bool operator!= (const MetaMap &other) const
 Return true if the given map is different from this map. More...
 
Copying
Ptr copy ()
 Return a new grid of the same type as this grid whose metadata and transform are deep copies of this grid's and whose tree is shared with this grid. More...
 
ConstPtr copy () const
 Return a new grid of the same type as this grid whose metadata and transform are deep copies of this grid's and whose tree is shared with this grid. More...
 
Ptr copyWithNewTree () const
 Return a new grid of the same type as this grid whose metadata and transform are deep copies of this grid's and whose tree is default-constructed. More...
 
GridBase::Ptr copyGrid () override
 Return a new grid of the same type as this grid whose metadata is a deep copy of this grid's and whose tree and transform are shared with this grid. More...
 
GridBase::ConstPtr copyGrid () const override
 Return a new grid of the same type as this grid whose metadata is a deep copy of this grid's and whose tree and transform are shared with this grid. More...
 
GridBase::Ptr copyGridWithNewTree () const override
 Return a new grid of the same type as this grid whose metadata and transform are deep copies of this grid's and whose tree is default-constructed. More...
 
ConstPtr copyReplacingMetadata (const MetaMap &meta) const
 Return a new grid of the same type as this grid whose tree and transform is shared with this grid and whose metadata is provided as an argument. More...
 
ConstPtr copyReplacingTransform (math::Transform::Ptr xform) const
 Return a new grid of the same type as this grid whose tree is shared with this grid, whose metadata is a deep copy of this grid's and whose transform is provided as an argument. More...
 
ConstPtr copyReplacingMetadataAndTransform (const MetaMap &meta, math::Transform::Ptr xform) const
 Return a new grid of the same type as this grid whose tree is shared with this grid and whose transform and metadata are provided as arguments. More...
 
GridBase::ConstPtr copyGridReplacingMetadata (const MetaMap &meta) const override
 Return a new grid of the same type as this grid whose tree and transform is shared with this grid and whose metadata is provided as an argument. More...
 
GridBase::ConstPtr copyGridReplacingTransform (math::Transform::Ptr xform) const override
 Return a new grid of the same type as this grid whose tree is shared with this grid, whose metadata is a deep copy of this grid's and whose transform is provided as an argument. More...
 
GridBase::ConstPtr copyGridReplacingMetadataAndTransform (const MetaMap &meta, math::Transform::Ptr xform) const override
 Return a new grid of the same type as this grid whose tree is shared with this grid and whose transform and metadata are provided as arguments. More...
 
Ptr deepCopy () const
 Return a new grid whose metadata, transform and tree are deep copies of this grid's. More...
 
GridBase::Ptr deepCopyGrid () const override
 Return a new grid whose metadata, transform and tree are deep copies of this grid's. More...
 
Voxel access
const ValueTypebackground () const
 Return this grid's background value. More...
 
bool empty () const override
 Return true if this grid contains only inactive background voxels. More...
 
void clear () override
 Empty this grid, so that all voxels become inactive background voxels. More...
 
Accessor getAccessor ()
 Return an accessor that provides random read and write access to this grid's voxels. More...
 
UnsafeAccessor getUnsafeAccessor ()
 Return an unsafe accessor that provides random read and write access to this grid's voxels. More...
 
ConstAccessor getAccessor () const
 Return an accessor that provides random read-only access to this grid's voxels. More...
 
ConstAccessor getConstAccessor () const
 Return an accessor that provides random read-only access to this grid's voxels. More...
 
ConstUnsafeAccessor getConstUnsafeAccessor () const
 Return an unsafe accessor that provides random read-only access to this grid's voxels. More...
 
ValueOnIter beginValueOn ()
 Return an iterator over all of this grid's active values (tile and voxel). More...
 
ValueOnCIter beginValueOn () const
 Return an iterator over all of this grid's active values (tile and voxel). More...
 
ValueOnCIter cbeginValueOn () const
 Return an iterator over all of this grid's active values (tile and voxel). More...
 
ValueOffIter beginValueOff ()
 Return an iterator over all of this grid's inactive values (tile and voxel). More...
 
ValueOffCIter beginValueOff () const
 Return an iterator over all of this grid's inactive values (tile and voxel). More...
 
ValueOffCIter cbeginValueOff () const
 Return an iterator over all of this grid's inactive values (tile and voxel). More...
 
ValueAllIter beginValueAll ()
 Return an iterator over all of this grid's values (tile and voxel). More...
 
ValueAllCIter beginValueAll () const
 Return an iterator over all of this grid's values (tile and voxel). More...
 
ValueAllCIter cbeginValueAll () const
 Return an iterator over all of this grid's values (tile and voxel). More...
 
Tools
void sparseFill (const CoordBBox &bbox, const ValueType &value, bool active=true)
 Set all voxels within a given axis-aligned box to a constant value. More...
 
void fill (const CoordBBox &bbox, const ValueType &value, bool active=true)
 Set all voxels within a given axis-aligned box to a constant value. More...
 
void denseFill (const CoordBBox &bbox, const ValueType &value, bool active=true)
 Set all voxels within a given axis-aligned box to a constant value and ensure that those voxels are all represented at the leaf level. More...
 
void pruneGrid (float tolerance=0.0) override
 Reduce the memory footprint of this grid by increasing its sparseness. More...
 
void clip (const CoordBBox &) override
 Clip this grid to the given index-space bounding box. More...
 
void merge (Grid &other, MergePolicy policy=MERGE_ACTIVE_STATES)
 Efficiently merge another grid into this grid using one of several schemes. More...
 
template<typename OtherTreeType >
void topologyUnion (const Grid< OtherTreeType > &other)
 Union this grid's set of active values with the active values of the other grid, whose value type may be different. More...
 
template<typename OtherTreeType >
void topologyIntersection (const Grid< OtherTreeType > &other)
 Intersect this grid's set of active values with the active values of the other grid, whose value type may be different. More...
 
template<typename OtherTreeType >
void topologyDifference (const Grid< OtherTreeType > &other)
 Difference this grid's set of active values with the active values of the other grid, whose value type may be different. More...
 
Statistics
Index64 activeVoxelCount () const override
 Return the number of active voxels. More...
 
CoordBBox evalActiveVoxelBoundingBox () const override
 Return the axis-aligned bounding box of all active voxels. More...
 
Coord evalActiveVoxelDim () const override
 Return the dimensions of the axis-aligned bounding box of all active voxels. More...
 
void evalMinMax (ValueType &minVal, ValueType &maxVal) const
 Return the minimum and maximum active values in this grid. More...
 
Index64 memUsage () const override
 
Tree
TreePtrType treePtr ()
 Return a pointer to this grid's tree, which might be shared with other grids. The pointer is guaranteed to be non-null. More...
 
ConstTreePtrType treePtr () const
 Return a pointer to this grid's tree, which might be shared with other grids. The pointer is guaranteed to be non-null. More...
 
ConstTreePtrType constTreePtr () const
 Return a pointer to this grid's tree, which might be shared with other grids. The pointer is guaranteed to be non-null. More...
 
TreeBase::ConstPtr constBaseTreePtr () const override
 Return a pointer to this grid's tree, which might be shared with other grids. The pointer is guaranteed to be non-null. More...
 
void setTree (TreeBase::Ptr) override
 Associate the given tree with this grid, in place of its existing tree. More...
 
void newTree () override
 Associate a new, empty tree with this grid, in place of its existing tree. More...
 
TreeTypetree ()
 Return a reference to this grid's tree, which might be shared with other grids. More...
 
const TreeTypetree () const
 Return a reference to this grid's tree, which might be shared with other grids. More...
 
const TreeTypeconstTree () const
 Return a reference to this grid's tree, which might be shared with other grids. More...
 
I/O
void readTopology (std::istream &) override
 Read the grid topology from a stream. This will read only the grid structure, not the actual data buffers. More...
 
void writeTopology (std::ostream &) const override
 Write the grid topology to a stream. This will write only the grid structure, not the actual data buffers. More...
 
void readBuffers (std::istream &) override
 Read all data buffers for this grid. More...
 
void readBuffers (std::istream &, const CoordBBox &) override
 Read all of this grid's data buffers that intersect the given index-space bounding box. More...
 
void readNonresidentBuffers () const override
 Read all of this grid's data buffers that are not yet resident in memory (because delayed loading is in effect). More...
 
void writeBuffers (std::ostream &) const override
 Write out all data buffers for this grid. More...
 
void print (std::ostream &=std::cout, int verboseLevel=1) const override
 Output a human-readable description of this grid. More...
 
Type access
template<typename GridType >
bool isType () const
 Return true if this grid is of the same type as the template parameter. More...
 
Tree
TreeBase::Ptr baseTreePtr ()
 Return a pointer to this grid's tree, which might be shared with other grids. The pointer is guaranteed to be non-null. More...
 
TreeBase::ConstPtr baseTreePtr () const
 Return a pointer to this grid's tree, which might be shared with other grids. The pointer is guaranteed to be non-null. More...
 
TreeBasebaseTree ()
 Return a reference to this grid's tree, which might be shared with other grids. More...
 
const TreeBasebaseTree () const
 Return a reference to this grid's tree, which might be shared with other grids. More...
 
const TreeBaseconstBaseTree () const
 Return a reference to this grid's tree, which might be shared with other grids. More...
 
Tools
void clipGrid (const BBoxd &)
 Clip this grid to the given world-space bounding box. More...
 
template<typename GridTypeListT , typename OpT >
bool apply (OpT &) const
 If this grid resolves to one of the listed grid types, invoke the given functor on the resolved grid. More...
 
template<typename GridTypeListT , typename OpT >
bool apply (OpT &)
 If this grid resolves to one of the listed grid types, invoke the given functor on the resolved grid. More...
 
template<typename GridTypeListT , typename OpT >
bool apply (const OpT &) const
 If this grid resolves to one of the listed grid types, invoke the given functor on the resolved grid. More...
 
template<typename GridTypeListT , typename OpT >
bool apply (const OpT &)
 If this grid resolves to one of the listed grid types, invoke the given functor on the resolved grid. More...
 
Metadata
std::string getName () const
 Return this grid's user-specified name. More...
 
void setName (const std::string &)
 Specify a name for this grid. More...
 
std::string getCreator () const
 Return the user-specified description of this grid's creator. More...
 
void setCreator (const std::string &)
 Provide a description of this grid's creator. More...
 
bool saveFloatAsHalf () const
 Return true if this grid should be written out with floating-point voxel values (including components of vectors) quantized to 16 bits. More...
 
void setSaveFloatAsHalf (bool)
 Return this grid's user-specified name. More...
 
GridClass getGridClass () const
 Return the class of volumetric data (level set, fog volume, etc.) that is stored in this grid. More...
 
void setGridClass (GridClass)
 Specify the class of volumetric data (level set, fog volume, etc.) that is stored in this grid. More...
 
void clearGridClass ()
 Remove the setting specifying the class of this grid's volumetric data. More...
 
VecType getVectorType () const
 Return the type of vector data (invariant, covariant, etc.) stored in this grid, assuming that this grid contains a vector-valued tree. More...
 
void setVectorType (VecType)
 Specify the type of vector data (invariant, covariant, etc.) stored in this grid, assuming that this grid contains a vector-valued tree. More...
 
void clearVectorType ()
 Remove the setting specifying the type of vector data stored in this grid. More...
 
bool isInWorldSpace () const
 
void setIsInWorldSpace (bool)
 Specify whether this grid's voxel values are in world space or in local space. More...
 
Statistics
void addStatsMetadata ()
 Add metadata to this grid comprising the current values of statistics like the active voxel count and bounding box. More...
 
MetaMap::Ptr getStatsMetadata () const
 Return a new MetaMap containing just the metadata that was added to this grid with addStatsMetadata. More...
 
Transform
math::Transform::Ptr transformPtr ()
 Return a pointer to this grid's transform, which might be shared with other grids. More...
 
math::Transform::ConstPtr transformPtr () const
 Return a pointer to this grid's transform, which might be shared with other grids. More...
 
math::Transform::ConstPtr constTransformPtr () const
 Return a pointer to this grid's transform, which might be shared with other grids. More...
 
void setTransform (math::Transform::Ptr)
 Associate the given transform with this grid, in place of its existing transform. More...
 
Vec3d voxelSize () const
 Return the size of this grid's voxels. More...
 
Vec3d voxelSize (const Vec3d &xyz) const
 Return the size of this grid's voxel at position (x, y, z). More...
 
bool hasUniformVoxels () const
 Return true if the voxels in world space are uniformly sized cubes. More...
 
Vec3d indexToWorld (const Vec3d &xyz) const
 Apply this grid's transform to the given coordinates. More...
 
Vec3d indexToWorld (const Coord &ijk) const
 Apply this grid's transform to the given coordinates. More...
 
Vec3d worldToIndex (const Vec3d &xyz) const
 Apply the inverse of this grid's transform to the given coordinates. More...
 
math::Transformtransform ()
 Return a reference to this grid's transform, which might be shared with other grids. More...
 
const math::Transformtransform () const
 Return a reference to this grid's transform, which might be shared with other grids. More...
 
const math::TransformconstTransform () const
 Return a reference to this grid's transform, which might be shared with other grids. More...
 
I/O
void readTransform (std::istream &is)
 Read in the transform for this grid. More...
 
void writeTransform (std::ostream &os) const
 Write out the transform for this grid. More...
 
Metadata::Ptr operator[] (const Name &)
 Return a pointer to the metadata with the given name. If no such field exists, return a null pointer. More...
 
Metadata::ConstPtr operator[] (const Name &) const
 Return a pointer to the metadata with the given name. If no such field exists, return a null pointer. More...
 
template<typename T >
T::Ptr getMetadata (const Name &)
 Return a pointer to a TypedMetadata object of type T and with the given name. If no such field exists or if there is a type mismatch, return a null pointer. More...
 
template<typename T >
T::ConstPtr getMetadata (const Name &) const
 Return a pointer to a TypedMetadata object of type T and with the given name. If no such field exists or if there is a type mismatch, return a null pointer. More...
 

Static Public Member Functions

static Ptr create (const ValueType &background)
 Return a new grid with the given background value. More...
 
static Ptr create ()
 Return a new grid with background value zero. More...
 
static Ptr create (TreePtrType)
 Return a new grid that contains the given tree. More...
 
static Ptr create (const GridBase &other)
 Return a new, empty grid with the same transform and metadata as the given grid and with background value zero. More...
 
static Name gridType ()
 Return the name of this type of grid. More...
 
static bool hasMultiPassIO ()
 Return true if grids of this type require multiple I/O passes to read and write data buffers. More...
 
static std::string gridClassToString (GridClass)
 Return the metadata string value for the given class of volumetric data. More...
 
static std::string gridClassToMenuName (GridClass)
 Return a formatted string version of the grid class. More...
 
static GridClass stringToGridClass (const std::string &)
 Return the class of volumetric data specified by the given string. More...
 
static std::string vecTypeToString (VecType)
 Return the metadata string value for the given type of vector data. More...
 
static std::string vecTypeExamples (VecType)
 
static std::string vecTypeDescription (VecType)
 Return a string describing how the given type of vector data is affected by transformations (e.g., "Does not transform", given VEC_INVARIANT). More...
 
static VecType stringToVecType (const std::string &)
 
Registry
static bool isRegistered ()
 Return true if this grid type is registered. More...
 
static void registerGrid ()
 Register this grid type along with a factory function. More...
 
static void unregisterGrid ()
 Remove this grid type from the registry. More...
 
Registry
static Ptr createGrid (const Name &type)
 Create a new grid of the given (registered) type. More...
 
static bool isRegistered (const Name &type)
 Return true if the given grid type name is registered. More...
 
static void clearRegistry ()
 Clear the grid type registry. More...
 
template<typename GridType >
static GridType::Ptr grid (const GridBase::Ptr &)
 Return the result of downcasting a GridBase pointer to a Grid pointer of the specified type, or return a null pointer if the types are incompatible. More...
 
template<typename GridType >
static GridType::ConstPtr grid (const GridBase::ConstPtr &)
 Return the result of downcasting a GridBase pointer to a Grid pointer of the specified type, or return a null pointer if the types are incompatible. More...
 
template<typename GridType >
static GridType::ConstPtr constGrid (const GridBase::Ptr &)
 Return the result of downcasting a GridBase pointer to a Grid pointer of the specified type, or return a null pointer if the types are incompatible. More...
 
template<typename GridType >
static GridType::ConstPtr constGrid (const GridBase::ConstPtr &)
 Return the result of downcasting a GridBase pointer to a Grid pointer of the specified type, or return a null pointer if the types are incompatible. More...
 

Static Public Attributes

static const char *const META_GRID_CLASS
 
static const char *const META_GRID_CREATOR
 
static const char *const META_GRID_NAME
 
static const char *const META_SAVE_HALF_FLOAT
 
static const char *const META_IS_LOCAL_SPACE
 
static const char *const META_VECTOR_TYPE
 
static const char *const META_FILE_BBOX_MIN
 
static const char *const META_FILE_BBOX_MAX
 
static const char *const META_FILE_COMPRESSION
 
static const char *const META_FILE_MEM_BYTES
 
static const char *const META_FILE_VOXEL_COUNT
 
static const char *const META_FILE_DELAYED_LOAD
 

Static Protected Member Functions

static void registerGrid (const Name &type, GridFactory)
 Register a grid type along with a factory function. More...
 
static void unregisterGrid (const Name &type)
 Remove a grid type from the registry. More...
 

Detailed Description

template<typename _TreeType>
class openvdb::v9_0::Grid< _TreeType >

Container class that associates a tree with a transform and metadata.

Member Typedef Documentation

using Accessor = typename tree::ValueAccessor<_TreeType, true>
using BuildType = typename _TreeType::BuildType
using ConstAccessor = typename tree::ValueAccessor<const _TreeType, true>
using ConstMetaIterator = MetadataMap::const_iterator
inherited
using ConstPtr = SharedPtr<const Grid>
using ConstTreePtrType = typename _TreeType::ConstPtr
using ConstUnsafeAccessor = typename tree::ValueAccessor<const _TreeType, false>
using GridFactory = Ptr (*)(
inherited
using MetadataMap = std::map<Name, Metadata::Ptr>
inherited
using MetaIterator = MetadataMap::iterator
inherited
using Ptr = SharedPtr<Grid>
using TreePtrType = typename _TreeType::Ptr
using TreeType = _TreeType
using UnsafeAccessor = typename tree::ValueAccessor<_TreeType, false>
using ValueAllCIter = typename _TreeType::ValueAllCIter
using ValueAllIter = typename _TreeType::ValueAllIter
using ValueOffCIter = typename _TreeType::ValueOffCIter
using ValueOffIter = typename _TreeType::ValueOffIter
using ValueOnCIter = typename _TreeType::ValueOnCIter
using ValueOnIter = typename _TreeType::ValueOnIter
using ValueType = typename _TreeType::ValueType

Constructor & Destructor Documentation

Grid ( )
inline

Construct a new grid with background value zero.

Grid ( const ValueType background)
inlineexplicit

Construct a new grid with the given background value.

Grid ( TreePtrType  tree)
inlineexplicit

Construct a new grid that shares the given tree and associates with it an identity linear transform.

Exceptions
ValueErrorif the tree pointer is null
Grid ( const Grid< _TreeType > &  other)
inline

Deep copy another grid's metadata, transform and tree.

Grid ( const Grid< OtherTreeType > &  other)
inlineexplicit

Deep copy the metadata, transform and tree of another grid whose tree configuration is the same as this grid's but whose value type is different. Cast the other grid's values to this grid's value type.

Exceptions
TypeErrorif the other grid's tree configuration doesn't match this grid's or if this grid's ValueType is not constructible from the other grid's ValueType.
Grid ( Grid< _TreeType > &  other,
ShallowCopy   
)
inline

Deep copy another grid's metadata and transform, but share its tree.

Grid ( const GridBase other)
inlineexplicit

Deep copy another grid's metadata and transform, but construct a new tree with background value zero.

~Grid ( )
inlineoverride

Member Function Documentation

Index64 activeVoxelCount ( ) const
inlineoverridevirtual

Return the number of active voxels.

Implements GridBase.

void addStatsMetadata ( )
inherited

Add metadata to this grid comprising the current values of statistics like the active voxel count and bounding box.

Note
This metadata is not automatically kept up-to-date with changes to this grid.
bool apply ( OpT &  op) const
inlineinherited

If this grid resolves to one of the listed grid types, invoke the given functor on the resolved grid.

Returns
false if this grid's type is not one of the listed types
Example:
using AllowedGridTypes = openvdb::TypeList<
const openvdb::CoordBBox bbox{
openvdb::Coord{0,0,0}, openvdb::Coord{10,10,10}};
// Fill the grid if it is one of the allowed types.
myGridBasePtr->apply<AllowedGridTypes>(
[&bbox](auto& grid) { // C++14
using GridType = typename std::decay<decltype(grid)>::type;
grid.fill(bbox, typename GridType::ValueType(1));
}
);
See also
TypeList
bool apply ( OpT &  op)
inlineinherited

If this grid resolves to one of the listed grid types, invoke the given functor on the resolved grid.

Returns
false if this grid's type is not one of the listed types
Example:
using AllowedGridTypes = openvdb::TypeList<
openvdb::FloatGrid, openvdb::DoubleGrid>;
const openvdb::CoordBBox bbox{
openvdb::Coord{0,0,0}, openvdb::Coord{10,10,10}};
// Fill the grid if it is one of the allowed types.
myGridBasePtr->apply<AllowedGridTypes>(
[&bbox](auto& grid) { // C++14
using GridType = typename std::decay<decltype(grid)>::type;
grid.fill(bbox, typename GridType::ValueType(1));
}
);
See also
TypeList
bool apply ( const OpT &  op) const
inlineinherited

If this grid resolves to one of the listed grid types, invoke the given functor on the resolved grid.

Returns
false if this grid's type is not one of the listed types
Example:
using AllowedGridTypes = openvdb::TypeList<
openvdb::FloatGrid, openvdb::DoubleGrid>;
const openvdb::CoordBBox bbox{
openvdb::Coord{0,0,0}, openvdb::Coord{10,10,10}};
// Fill the grid if it is one of the allowed types.
myGridBasePtr->apply<AllowedGridTypes>(
[&bbox](auto& grid) { // C++14
using GridType = typename std::decay<decltype(grid)>::type;
grid.fill(bbox, typename GridType::ValueType(1));
}
);
See also
TypeList
bool apply ( const OpT &  op)
inlineinherited

If this grid resolves to one of the listed grid types, invoke the given functor on the resolved grid.

Returns
false if this grid's type is not one of the listed types
Example:
using AllowedGridTypes = openvdb::TypeList<
openvdb::FloatGrid, openvdb::DoubleGrid>;
const openvdb::CoordBBox bbox{
openvdb::Coord{0,0,0}, openvdb::Coord{10,10,10}};
// Fill the grid if it is one of the allowed types.
myGridBasePtr->apply<AllowedGridTypes>(
[&bbox](auto& grid) { // C++14
using GridType = typename std::decay<decltype(grid)>::type;
grid.fill(bbox, typename GridType::ValueType(1));
}
);
See also
TypeList
const ValueType& background ( ) const
inline

Return this grid's background value.

Note
Use tools::changeBackground to efficiently modify the background value.
TreeBase& baseTree ( )
inlineinherited

Return a reference to this grid's tree, which might be shared with other grids.

Note
Calling setTree on this grid invalidates all references previously returned by this method.
const TreeBase& baseTree ( ) const
inlineinherited

Return a reference to this grid's tree, which might be shared with other grids.

Note
Calling setTree on this grid invalidates all references previously returned by this method.
TreeBase::Ptr baseTreePtr ( )
inlineinherited

Return a pointer to this grid's tree, which might be shared with other grids. The pointer is guaranteed to be non-null.

TreeBase::ConstPtr baseTreePtr ( ) const
inlineinherited

Return a pointer to this grid's tree, which might be shared with other grids. The pointer is guaranteed to be non-null.

MetaIterator beginMeta ( )
inlineinherited
ConstMetaIterator beginMeta ( ) const
inlineinherited
ValueAllIter beginValueAll ( )
inline

Return an iterator over all of this grid's values (tile and voxel).

ValueAllCIter beginValueAll ( ) const
inline

Return an iterator over all of this grid's values (tile and voxel).

ValueOffIter beginValueOff ( )
inline

Return an iterator over all of this grid's inactive values (tile and voxel).

ValueOffCIter beginValueOff ( ) const
inline

Return an iterator over all of this grid's inactive values (tile and voxel).

ValueOnIter beginValueOn ( )
inline

Return an iterator over all of this grid's active values (tile and voxel).

ValueOnCIter beginValueOn ( ) const
inline

Return an iterator over all of this grid's active values (tile and voxel).

ValueAllCIter cbeginValueAll ( ) const
inline

Return an iterator over all of this grid's values (tile and voxel).

ValueOffCIter cbeginValueOff ( ) const
inline

Return an iterator over all of this grid's inactive values (tile and voxel).

ValueOnCIter cbeginValueOn ( ) const
inline

Return an iterator over all of this grid's active values (tile and voxel).

void clear ( )
inlineoverridevirtual

Empty this grid, so that all voxels become inactive background voxels.

Implements GridBase.

void clearGridClass ( )
inherited

Remove the setting specifying the class of this grid's volumetric data.

void clearMetadata ( )
inlineinherited
static void clearRegistry ( )
staticinherited

Clear the grid type registry.

void clearVectorType ( )
inherited

Remove the setting specifying the type of vector data stored in this grid.

void clip ( const CoordBBox &  bbox)
inlineoverridevirtual

Clip this grid to the given index-space bounding box.

Voxels that lie outside the bounding box are set to the background.

Warning
Clipping a level set will likely produce a grid that is no longer a valid level set.

Implements GridBase.

void clipGrid ( const BBoxd )
inherited

Clip this grid to the given world-space bounding box.

Voxels that lie outside the bounding box are set to the background.

Warning
Clipping a level set will likely produce a grid that is no longer a valid level set.
const TreeBase& constBaseTree ( ) const
inlineinherited

Return a reference to this grid's tree, which might be shared with other grids.

Note
Calling setTree on this grid invalidates all references previously returned by this method.
TreeBase::ConstPtr constBaseTreePtr ( ) const
inlineoverridevirtual

Return a pointer to this grid's tree, which might be shared with other grids. The pointer is guaranteed to be non-null.

Implements GridBase.

GridType::ConstPtr constGrid ( const GridBase::Ptr grid)
inlinestaticinherited

Return the result of downcasting a GridBase pointer to a Grid pointer of the specified type, or return a null pointer if the types are incompatible.

GridType::ConstPtr constGrid ( const GridBase::ConstPtr grid)
inlinestaticinherited

Return the result of downcasting a GridBase pointer to a Grid pointer of the specified type, or return a null pointer if the types are incompatible.

const math::Transform& constTransform ( ) const
inlineinherited

Return a reference to this grid's transform, which might be shared with other grids.

Note
Calling setTransform on this grid invalidates all references previously returned by this method.
math::Transform::ConstPtr constTransformPtr ( ) const
inlineinherited

Return a pointer to this grid's transform, which might be shared with other grids.

const TreeType& constTree ( ) const
inline

Return a reference to this grid's tree, which might be shared with other grids.

Note
Calling setTree() on this grid invalidates all references previously returned by this method.
ConstTreePtrType constTreePtr ( ) const
inline

Return a pointer to this grid's tree, which might be shared with other grids. The pointer is guaranteed to be non-null.

Grid< TreeT >::Ptr copy ( )
inline

Return a new grid of the same type as this grid whose metadata and transform are deep copies of this grid's and whose tree is shared with this grid.

Grid< TreeT >::ConstPtr copy ( ) const
inline

Return a new grid of the same type as this grid whose metadata and transform are deep copies of this grid's and whose tree is shared with this grid.

GridBase::Ptr copyGrid ( )
inlineoverridevirtual

Return a new grid of the same type as this grid whose metadata is a deep copy of this grid's and whose tree and transform are shared with this grid.

Implements GridBase.

GridBase::ConstPtr copyGrid ( ) const
inlineoverridevirtual

Return a new grid of the same type as this grid whose metadata is a deep copy of this grid's and whose tree and transform are shared with this grid.

Implements GridBase.

GridBase::ConstPtr copyGridReplacingMetadata ( const MetaMap meta) const
inlineoverridevirtual

Return a new grid of the same type as this grid whose tree and transform is shared with this grid and whose metadata is provided as an argument.

Implements GridBase.

GridBase::ConstPtr copyGridReplacingMetadataAndTransform ( const MetaMap meta,
math::Transform::Ptr  xform 
) const
inlineoverridevirtual

Return a new grid of the same type as this grid whose tree is shared with this grid and whose transform and metadata are provided as arguments.

Exceptions
ValueErrorif the transform pointer is null

Implements GridBase.

GridBase::ConstPtr copyGridReplacingTransform ( math::Transform::Ptr  xform) const
inlineoverridevirtual

Return a new grid of the same type as this grid whose tree is shared with this grid, whose metadata is a deep copy of this grid's and whose transform is provided as an argument.

Exceptions
ValueErrorif the transform pointer is null

Implements GridBase.

GridBase::Ptr copyGridWithNewTree ( ) const
inlineoverridevirtual

Return a new grid of the same type as this grid whose metadata and transform are deep copies of this grid's and whose tree is default-constructed.

Implements GridBase.

MetaMap::Ptr copyMeta ( ) const
inherited

Return a copy of this map whose fields are shared with this map.

Grid< TreeT >::ConstPtr copyReplacingMetadata ( const MetaMap meta) const
inline

Return a new grid of the same type as this grid whose tree and transform is shared with this grid and whose metadata is provided as an argument.

Grid< TreeT >::ConstPtr copyReplacingMetadataAndTransform ( const MetaMap meta,
math::Transform::Ptr  xform 
) const
inline

Return a new grid of the same type as this grid whose tree is shared with this grid and whose transform and metadata are provided as arguments.

Exceptions
ValueErrorif the transform pointer is null
Grid< TreeT >::ConstPtr copyReplacingTransform ( math::Transform::Ptr  xform) const
inline

Return a new grid of the same type as this grid whose tree is shared with this grid, whose metadata is a deep copy of this grid's and whose transform is provided as an argument.

Exceptions
ValueErrorif the transform pointer is null
Grid< TreeT >::Ptr copyWithNewTree ( ) const
inline

Return a new grid of the same type as this grid whose metadata and transform are deep copies of this grid's and whose tree is default-constructed.

Grid< TreeT >::Ptr create ( const ValueType background)
inlinestatic

Return a new grid with the given background value.

Grid< TreeT >::Ptr create ( )
inlinestatic

Return a new grid with background value zero.

Grid< TreeT >::Ptr create ( TreePtrType  tree)
inlinestatic

Return a new grid that contains the given tree.

Exceptions
ValueErrorif the tree pointer is null
Grid< TreeT >::Ptr create ( const GridBase other)
inlinestatic

Return a new, empty grid with the same transform and metadata as the given grid and with background value zero.

static Ptr createGrid ( const Name type)
staticinherited

Create a new grid of the given (registered) type.

Ptr deepCopy ( ) const
inline

Return a new grid whose metadata, transform and tree are deep copies of this grid's.

GridBase::Ptr deepCopyGrid ( ) const
inlineoverridevirtual

Return a new grid whose metadata, transform and tree are deep copies of this grid's.

Implements GridBase.

MetaMap::Ptr deepCopyMeta ( ) const
inherited

Return a deep copy of this map that shares no data with this map.

void denseFill ( const CoordBBox &  bbox,
const ValueType value,
bool  active = true 
)
inline

Set all voxels within a given axis-aligned box to a constant value and ensure that those voxels are all represented at the leaf level.

Parameters
bboxinclusive coordinates of opposite corners of an axis-aligned box.
valuethe value to which to set voxels within the box.
activeif true, mark voxels within the box as active, otherwise mark them as inactive.
bool empty ( ) const
inlineoverridevirtual

Return true if this grid contains only inactive background voxels.

Implements GridBase.

MetaIterator endMeta ( )
inlineinherited
ConstMetaIterator endMeta ( ) const
inlineinherited
CoordBBox evalActiveVoxelBoundingBox ( ) const
inlineoverridevirtual

Return the axis-aligned bounding box of all active voxels.

Implements GridBase.

Coord evalActiveVoxelDim ( ) const
inlineoverridevirtual

Return the dimensions of the axis-aligned bounding box of all active voxels.

Implements GridBase.

void evalMinMax ( ValueType minVal,
ValueType maxVal 
) const
inline

Return the minimum and maximum active values in this grid.

void fill ( const CoordBBox &  bbox,
const ValueType value,
bool  active = true 
)
inline

Set all voxels within a given axis-aligned box to a constant value.

Parameters
bboxinclusive coordinates of opposite corners of an axis-aligned box
valuethe value to which to set voxels within the box
activeif true, mark voxels within the box as active, otherwise mark them as inactive
Note
This operation generates a sparse, but not always optimally sparse, representation of the filled box. Follow fill operations with a prune() operation for optimal sparseness.
Accessor getAccessor ( )
inline

Return an accessor that provides random read and write access to this grid's voxels.

The accessor is safe in the sense that it is registered with this grid's tree.

ConstAccessor getAccessor ( ) const
inline

Return an accessor that provides random read-only access to this grid's voxels.

ConstAccessor getConstAccessor ( ) const
inline

Return an accessor that provides random read-only access to this grid's voxels.

ConstUnsafeAccessor getConstUnsafeAccessor ( ) const
inline

Return an unsafe accessor that provides random read-only access to this grid's voxels.

The accessor is unsafe in the sense that it is not registered with this grid's tree. In some rare cases this can give a performance advantage over a registered accessor, but it is unsafe if the tree topology is modified.

Warning
Only use this method if you're an expert and know the risks of using an unregistered accessor (see tree/ValueAccessor.h)
std::string getCreator ( ) const
inherited

Return the user-specified description of this grid's creator.

GridClass getGridClass ( ) const
inherited

Return the class of volumetric data (level set, fog volume, etc.) that is stored in this grid.

See also
gridClassToString, gridClassToMenuName, stringToGridClass
T::Ptr getMetadata ( const Name name)
inlineinherited

Return a pointer to a TypedMetadata object of type T and with the given name. If no such field exists or if there is a type mismatch, return a null pointer.

T::ConstPtr getMetadata ( const Name name) const
inlineinherited

Return a pointer to a TypedMetadata object of type T and with the given name. If no such field exists or if there is a type mismatch, return a null pointer.

std::string getName ( ) const
inherited

Return this grid's user-specified name.

MetaMap::Ptr getStatsMetadata ( ) const
inherited

Return a new MetaMap containing just the metadata that was added to this grid with addStatsMetadata.

If addStatsMetadata was never called on this grid, return an empty MetaMap.

UnsafeAccessor getUnsafeAccessor ( )
inline

Return an unsafe accessor that provides random read and write access to this grid's voxels.

The accessor is unsafe in the sense that it is not registered with this grid's tree. In some rare cases this can give a performance advantage over a registered accessor, but it is unsafe if the tree topology is modified.

Warning
Only use this method if you're an expert and know the risks of using an unregistered accessor (see tree/ValueAccessor.h)
VecType getVectorType ( ) const
inherited

Return the type of vector data (invariant, covariant, etc.) stored in this grid, assuming that this grid contains a vector-valued tree.

See also
vecTypeToString, vecTypeExamples, vecTypeDescription, stringToVecType
GridType::Ptr grid ( const GridBase::Ptr grid)
inlinestaticinherited

Return the result of downcasting a GridBase pointer to a Grid pointer of the specified type, or return a null pointer if the types are incompatible.

GridType::ConstPtr grid ( const GridBase::ConstPtr grid)
inlinestaticinherited

Return the result of downcasting a GridBase pointer to a Grid pointer of the specified type, or return a null pointer if the types are incompatible.

static std::string gridClassToMenuName ( GridClass  )
staticinherited

Return a formatted string version of the grid class.

static std::string gridClassToString ( GridClass  )
staticinherited

Return the metadata string value for the given class of volumetric data.

static Name gridType ( )
inlinestatic

Return the name of this type of grid.

bool hasMultiPassIO ( )
inlinestatic

Return true if grids of this type require multiple I/O passes to read and write data buffers.

See also
HasMultiPassIO
bool hasUniformVoxels ( ) const
inlineinherited

Return true if the voxels in world space are uniformly sized cubes.

Vec3d indexToWorld ( const Vec3d &  xyz) const
inlineinherited

Apply this grid's transform to the given coordinates.

Vec3d indexToWorld ( const Coord &  ijk) const
inlineinherited

Apply this grid's transform to the given coordinates.

void insertMeta ( const Name ,
const Metadata value 
)
inherited

Insert a new metadata field or overwrite the value of an existing field.

If a field with the given name doesn't already exist, add a new field. Otherwise, if the new value's type is the same as the existing field's value type, overwrite the existing value with new value.

Exceptions
TypeErrorif a field with the given name already exists, but its value type is not the same as the new value's
ValueErrorif the given field name is empty.
void insertMeta ( const MetaMap )
inherited

Deep copy all of the metadata fields from the given map into this map.

Exceptions
TypeErrorif any field in the given map has the same name as but a different value type than one of this map's fields.
bool isInWorldSpace ( ) const
inherited

Return true if this grid's voxel values are in world space and should be affected by transformations, false if they are in local space and should not be affected by transformations.

static bool isRegistered ( const Name type)
staticinherited

Return true if the given grid type name is registered.

static bool isRegistered ( )
inlinestatic

Return true if this grid type is registered.

bool isTreeUnique ( ) const
inlinefinalvirtual

Return true if tree is not shared with another grid.

Note
This is a virtual function with ABI=8

Implements GridBase.

bool isType ( ) const
inlineinherited

Return true if this grid is of the same type as the template parameter.

Index64 memUsage ( ) const
inlineoverridevirtual

Return the number of bytes of memory used by this grid.

Implements GridBase.

void merge ( Grid< _TreeType > &  other,
MergePolicy  policy = MERGE_ACTIVE_STATES 
)
inline

Efficiently merge another grid into this grid using one of several schemes.

This operation is primarily intended to combine grids that are mostly non-overlapping (for example, intermediate grids from computations that are parallelized across disjoint regions of space).

Warning
This operation always empties the other grid.
size_t metaCount ( ) const
inlineinherited
T & metaValue ( const Name name)
inlineinherited

Return a reference to the value of type T stored in the given metadata field.

Exceptions
LookupErrorif no field with the given name exists.
TypeErrorif the given field is not of type T.
const T & metaValue ( const Name name) const
inlineinherited
void newTree ( )
inlineoverridevirtual

Associate a new, empty tree with this grid, in place of its existing tree.

Note
The new tree has the same background value as the existing tree.

Implements GridBase.

bool operator!= ( const MetaMap other) const
inlineinherited

Return true if the given map is different from this map.

Grid& operator= ( const Grid< _TreeType > &  )
delete

Disallow assignment, since it wouldn't be obvious whether the copy is deep or shallow.

bool operator== ( const MetaMap other) const
inherited

Return true if the given map is equivalent to this map.

Metadata::Ptr operator[] ( const Name name)
inlineinherited

Return a pointer to the metadata with the given name. If no such field exists, return a null pointer.

Metadata::ConstPtr operator[] ( const Name name) const
inlineinherited

Return a pointer to the metadata with the given name. If no such field exists, return a null pointer.

void print ( std::ostream &  os = std::cout,
int  verboseLevel = 1 
) const
inlineoverridevirtual

Output a human-readable description of this grid.

Implements GridBase.

void pruneGrid ( float  tolerance = 0.0)
inlineoverridevirtual

Reduce the memory footprint of this grid by increasing its sparseness.

Implements GridBase.

void readBuffers ( std::istream &  is)
inlineoverridevirtual

Read all data buffers for this grid.

Implements GridBase.

void readBuffers ( std::istream &  is,
const CoordBBox &  bbox 
)
inlineoverridevirtual

Read all of this grid's data buffers that intersect the given index-space bounding box.

Implements GridBase.

void readMeta ( std::istream &  )
inherited

Unserialize metadata from the given stream.

void readNonresidentBuffers ( ) const
inlineoverridevirtual

Read all of this grid's data buffers that are not yet resident in memory (because delayed loading is in effect).

If this grid was read from a memory-mapped file, this operation disconnects the grid from the file.

See also
io::File::open, io::MappedFile

Implements GridBase.

void readTopology ( std::istream &  is)
inlineoverridevirtual

Read the grid topology from a stream. This will read only the grid structure, not the actual data buffers.

Implements GridBase.

void readTransform ( std::istream &  is)
inlineinherited

Read in the transform for this grid.

static void registerGrid ( const Name type,
GridFactory   
)
staticprotectedinherited

Register a grid type along with a factory function.

static void registerGrid ( )
inlinestatic

Register this grid type along with a factory function.

void removeMeta ( const Name )
inherited

Remove the given metadata field if it exists.

bool saveFloatAsHalf ( ) const
inherited

Return true if this grid should be written out with floating-point voxel values (including components of vectors) quantized to 16 bits.

void setCreator ( const std::string &  )
inherited

Provide a description of this grid's creator.

void setGridClass ( GridClass  )
inherited

Specify the class of volumetric data (level set, fog volume, etc.) that is stored in this grid.

See also
gridClassToString, gridClassToMenuName, stringToGridClass
void setIsInWorldSpace ( bool  )
inherited

Specify whether this grid's voxel values are in world space or in local space.

void setName ( const std::string &  )
inherited

Specify a name for this grid.

void setSaveFloatAsHalf ( bool  )
inherited

Return this grid's user-specified name.

void setTransform ( math::Transform::Ptr  xform)
inlineinherited

Associate the given transform with this grid, in place of its existing transform.

Exceptions
ValueErrorif the transform pointer is null
Note
Invalidates all references previously returned by transform or Transform.
void setTree ( TreeBase::Ptr  tree)
inlineoverridevirtual

Associate the given tree with this grid, in place of its existing tree.

Exceptions
ValueErrorif the tree pointer is null
TypeErrorif the tree is not of type TreeType
Note
Invalidates all references previously returned by baseTree(), constBaseTree(), tree() or constTree().

Implements GridBase.

void setVectorType ( VecType  )
inherited

Specify the type of vector data (invariant, covariant, etc.) stored in this grid, assuming that this grid contains a vector-valued tree.

See also
vecTypeToString, vecTypeExamples, vecTypeDescription, stringToVecType
void sparseFill ( const CoordBBox &  bbox,
const ValueType value,
bool  active = true 
)
inline

Set all voxels within a given axis-aligned box to a constant value.

Parameters
bboxinclusive coordinates of opposite corners of an axis-aligned box
valuethe value to which to set voxels within the box
activeif true, mark voxels within the box as active, otherwise mark them as inactive
Note
This operation generates a sparse, but not always optimally sparse, representation of the filled box. Follow fill operations with a prune() operation for optimal sparseness.
std::string str ( const std::string &  indent = "") const
inherited

Return a string describing this metadata map. Prefix each line with indent.

static GridClass stringToGridClass ( const std::string &  )
staticinherited

Return the class of volumetric data specified by the given string.

If the string is not one of the ones returned by gridClassToString, return GRID_UNKNOWN.

static VecType stringToVecType ( const std::string &  )
staticinherited
void topologyDifference ( const Grid< OtherTreeType > &  other)
inline

Difference this grid's set of active values with the active values of the other grid, whose value type may be different.

After this method is called, voxels in this grid will be active only if they were active to begin with and if the corresponding voxels in the other grid were inactive.

Note
This operation can delete branches of this grid that overlap with active tiles in the other grid. Also, because it can deactivate voxels, it can create leaf nodes with no active values. Thus, it is recommended to prune this grid after calling this method.
void topologyIntersection ( const Grid< OtherTreeType > &  other)
inline

Intersect this grid's set of active values with the active values of the other grid, whose value type may be different.

The resulting state of a value is active only if the corresponding value was already active AND if it is active in the other tree. Also, a resulting value maps to a voxel if the corresponding value already mapped to an active voxel in either of the two grids and it maps to an active tile or voxel in the other grid.

Note
This operation can delete branches of this grid that overlap with inactive tiles in the other grid. Also, because it can deactivate voxels, it can create leaf nodes with no active values. Thus, it is recommended to prune this grid after calling this method.
void topologyUnion ( const Grid< OtherTreeType > &  other)
inline

Union this grid's set of active values with the active values of the other grid, whose value type may be different.

The resulting state of a value is active if the corresponding value was already active OR if it is active in the other grid. Also, a resulting value maps to a voxel if the corresponding value already mapped to a voxel OR if it is a voxel in the other grid. Thus, a resulting value can only map to a tile if the corresponding value already mapped to a tile AND if it is a tile value in the other grid.

Note
This operation modifies only active states, not values. Specifically, active tiles and voxels in this grid are not changed, and tiles or voxels that were inactive in this grid but active in the other grid are marked as active in this grid but left with their original values.
math::Transform& transform ( )
inlineinherited

Return a reference to this grid's transform, which might be shared with other grids.

Note
Calling setTransform on this grid invalidates all references previously returned by this method.
const math::Transform& transform ( ) const
inlineinherited

Return a reference to this grid's transform, which might be shared with other grids.

Note
Calling setTransform on this grid invalidates all references previously returned by this method.
math::Transform::Ptr transformPtr ( )
inlineinherited

Return a pointer to this grid's transform, which might be shared with other grids.

math::Transform::ConstPtr transformPtr ( ) const
inlineinherited

Return a pointer to this grid's transform, which might be shared with other grids.

TreeType& tree ( )
inline

Return a reference to this grid's tree, which might be shared with other grids.

Note
Calling setTree() on this grid invalidates all references previously returned by this method.
const TreeType& tree ( ) const
inline

Return a reference to this grid's tree, which might be shared with other grids.

Note
Calling setTree() on this grid invalidates all references previously returned by this method.
TreePtrType treePtr ( )
inline

Return a pointer to this grid's tree, which might be shared with other grids. The pointer is guaranteed to be non-null.

ConstTreePtrType treePtr ( ) const
inline

Return a pointer to this grid's tree, which might be shared with other grids. The pointer is guaranteed to be non-null.

Name type ( ) const
inlineoverridevirtual

Return the name of this grid's type.

Implements GridBase.

static void unregisterGrid ( const Name type)
staticprotectedinherited

Remove a grid type from the registry.

static void unregisterGrid ( )
inlinestatic

Remove this grid type from the registry.

Name valueType ( ) const
inlineoverridevirtual

Return the name of the type of a voxel's value (e.g., "float" or "vec3d").

Implements GridBase.

static std::string vecTypeDescription ( VecType  )
staticinherited

Return a string describing how the given type of vector data is affected by transformations (e.g., "Does not transform", given VEC_INVARIANT).

static std::string vecTypeExamples ( VecType  )
staticinherited

Return a string listing examples of the given type of vector data (e.g., "Gradient/Normal", given VEC_COVARIANT).

static std::string vecTypeToString ( VecType  )
staticinherited

Return the metadata string value for the given type of vector data.

Vec3d voxelSize ( ) const
inlineinherited

Return the size of this grid's voxels.

Vec3d voxelSize ( const Vec3d &  xyz) const
inlineinherited

Return the size of this grid's voxel at position (x, y, z).

Note
Frustum and perspective transforms have position-dependent voxel size.
Vec3d worldToIndex ( const Vec3d &  xyz) const
inlineinherited

Apply the inverse of this grid's transform to the given coordinates.

void writeBuffers ( std::ostream &  os) const
inlineoverridevirtual

Write out all data buffers for this grid.

Implements GridBase.

void writeMeta ( std::ostream &  ) const
inherited

Serialize metadata to the given stream.

void writeTopology ( std::ostream &  os) const
inlineoverridevirtual

Write the grid topology to a stream. This will write only the grid structure, not the actual data buffers.

Implements GridBase.

void writeTransform ( std::ostream &  os) const
inlineinherited

Write out the transform for this grid.

Member Data Documentation

const char* const META_FILE_BBOX_MAX
staticinherited
const char* const META_FILE_BBOX_MIN
staticinherited
const char* const META_FILE_COMPRESSION
staticinherited
const char* const META_FILE_DELAYED_LOAD
staticinherited
const char* const META_FILE_MEM_BYTES
staticinherited
const char* const META_FILE_VOXEL_COUNT
staticinherited
const char* const META_GRID_CLASS
staticinherited
const char* const META_GRID_CREATOR
staticinherited
const char* const META_GRID_NAME
staticinherited
const char* const META_IS_LOCAL_SPACE
staticinherited
const char* const META_SAVE_HALF_FLOAT
staticinherited
const char* const META_VECTOR_TYPE
staticinherited