59#ifndef vtkHyperTreeGrid_h
60#define vtkHyperTreeGrid_h
62#include "vtkCommonDataModelModule.h"
72VTK_ABI_NAMESPACE_BEGIN
175 void SetExtent(
int x1,
int x2,
int y1,
int y2,
int z1,
int z2);
206 axis = this->Axis[0];
214 void Get2DAxes(
unsigned int& axis1,
unsigned int& axis2)
const
217 axis1 = this->Axis[0];
218 axis2 = this->Axis[1];
226 const unsigned int*
GetAxes()
const {
return this->Axis; }
410 bool create =
false);
422 unsigned int RecurseDichotomic(
423 double value,
vtkDoubleArray* coord,
double tol,
unsigned int ideb,
unsigned int ifin)
const;
425 unsigned int FindDichotomic(
double value,
vtkDataArray* coord,
double tol)
const;
450 bool create =
false);
469 bool create =
false);
550 void CleanPureMask();
649 vtkIdType,
unsigned int&,
unsigned int&,
unsigned int&)
const;
835 unsigned int Orientation;
836 unsigned int Axis[2];
848 unsigned int Dimensions[3];
849 unsigned int CellDims[3];
dynamic, self-adjusting array of bits
Fast, simple class for representing and operating on 3D bounds.
represent and manipulate cell attribute data
object represents upward pointers from points to list of cells using each point
create and manipulate ordered lists of objects
represent and manipulate attribute data in a dataset
dynamic, self-adjusting array of double
represent and manipulate fields of data
Objects for traversal a HyperTreeGrid.
Objects for traversal a HyperTreeGrid.
Objects for traversal a HyperTreeGrid.
Objects for traversal a HyperTreeGrid.
Objects for traversal a HyperTreeGrid.
Specific Moore super cursor that can subdivied neighborhood.
Objects for traversal a HyperTreeGrid.
Objects for traversal a HyperTreeGrid.
Objects for traversal a HyperTreeGrid.
Objects for traversal a HyperTreeGrid.
An iterator object to iteratively access trees in the grid.
vtkHyperTreeGridIterator()=default
std::map< vtkIdType, vtkSmartPointer< vtkHyperTree > >::iterator Iterator
vtkHyperTree * GetNextTree()
Get the next tree and set its index then increment the iterator.
vtkHyperTree * GetNextTree(vtkIdType &index)
Get the next tree and set its index then increment the iterator.
void Initialize(vtkHyperTreeGrid *)
Initialize the iterator on the tree set of the given grid.
bool HasMask()
Determine whether blanking mask is empty or not.
vtkHyperTreeGridNonOrientedMooreSuperCursorLight * NewNonOrientedMooreSuperCursorLight(vtkIdType index, bool create=false)
Used to initialize a cursor of the given type.
vtkFieldData * GetAttributesAsFieldData(int type) override
Returns the hypertree node field data stored as cell data.
vtkHyperTreeGridNonOrientedCursor * NewNonOrientedCursor(vtkIdType index, bool create=false)
Used to initialize a cursor of the given type.
vtkIdType GetNumberOfCells()
Return the number of cells.
const unsigned int * GetCellDims() const
Get grid sizes of this structured cells dataset.
virtual vtkHyperTree * GetTree(vtkIdType, bool create=false)
Return tree located at given index of hyper tree grid NB: This will construct a new HyperTree if grid...
void InitializeNonOrientedUnlimitedGeometryCursor(vtkHyperTreeGridNonOrientedUnlimitedGeometryCursor *cursor, vtkIdType index, bool create=false)
Used to initialize a cursor of the given type.
void SetMask(vtkBitArray *)
Set/Get the blanking mask of primal leaf cells.
virtual void CopyCoordinates(const vtkHyperTreeGrid *output)
Utility methods to set coordinates.
void InitializeNonOrientedVonNeumannSuperCursorLight(vtkHyperTreeGridNonOrientedVonNeumannSuperCursorLight *cursor, vtkIdType index, bool create=false)
Used to initialize a cursor of the given type.
virtual void GetLevelZeroOriginFromIndex(vtkIdType, double *)
Convert the global index of a root to its Spatial coordinates origin and size.
vtkHyperTreeGridNonOrientedVonNeumannSuperCursorLight * NewNonOrientedVonNeumannSuperCursorLight(vtkIdType index, bool create=false)
Used to initialize a cursor of the given type.
vtkHyperTreeGridOrientedCursor * NewOrientedCursor(vtkIdType index, bool create=false)
Used to initialize a cursor of the given type.
const unsigned int * GetDimensions() const
Get dimensions of this rectilinear grid dataset.
vtkUnsignedCharArray * TreeGhostArray
These arrays pointers are caches used to avoid a string comparison (when getting ghost arrays using G...
double * GetCenter()
Get the center of the bounding box.
virtual void Squeeze()
Squeeze this representation.
bool TreeGhostArrayCached
These arrays pointers are caches used to avoid a string comparison (when getting ghost arrays using G...
std::map< vtkIdType, vtkSmartPointer< vtkHyperTree > > HyperTrees
virtual void SetFixedCoordinates(unsigned int axis, double value)
Utility methods to set coordinates.
virtual void CopyEmptyStructure(vtkDataObject *)
Copy the internal structure with no data associated.
void DeepCopy(vtkDataObject *) override
Create deep copy of hyper tree grid.
void Get1DAxis(unsigned int &axis) const
Return the index of the valid dimension.
static vtkHyperTreeGrid * GetData(vtkInformation *info)
Retrieve an instance of this class from an information object.
char * InterfaceNormalsName
void GetIndexFromLevelZeroCoordinates(vtkIdType &, unsigned int, unsigned int, unsigned int) const
Convert the Cartesian coordinates of a root in the grid to its global index.
void InitializeOrientedGeometryCursor(vtkHyperTreeGridOrientedGeometryCursor *cursor, vtkIdType index, bool create=false)
Used to initialize a cursor of the given type.
virtual void CopyStructure(vtkDataObject *)
Copy the internal geometric and topological structure of a vtkHyperTreeGrid object.
const unsigned int * GetAxes() const
Get the axis information (used for CopyStructure).
unsigned int GetNumberOfLevels(vtkIdType)
Return the number of levels in an individual (primal) tree.
virtual void SetYCoordinates(vtkDataArray *)
Set/Get the grid coordinates in the y-direction.
vtkIdType GetMaxNumberOfTrees() const
Return the maximum number of trees in the level 0 grid.
void PrintSelf(ostream &os, vtkIndent indent) override
Methods invoked by print to print information about the object including superclasses.
virtual void SetXCoordinates(vtkDataArray *)
Set/Get the grid coordinates in the x-direction.
static vtkInformationIntegerKey * ORIENTATION()
virtual unsigned int FindDichotomicY(double value, double tol=0.0) const
size_t RemoveTree(vtkIdType index)
Remove the tree at the given index.
vtkCellData * GetCellData()
Return a pointer to this dataset's hypertree node data.
vtkIdType GetNumberOfElements(int type) override
Returns the number of nodes.
vtkHyperTreeGridNonOrientedGeometryCursor * FindNonOrientedGeometryCursor(double x[3])
Return a geometric cursor pointing to one of the nodes at position x.
vtkUnsignedCharArray * GetTreeGhostArray()
Gets the array that defines the ghost type of each cell.
char * InterfaceInterceptsName
bool TransposedRootIndexing
void Initialize() override
Restore data object to initial state.
unsigned int GetOrientation() const
Get the orientation of 1D or 2D grids:
static constexpr vtkIdType InvalidIndex
Invalid index that is returned for undefined nodes, for example for nodes that are out of bounds (the...
void SetIndexingModeToKJI()
Specify whether indexing mode of grid root cells must be transposed to x-axis first,...
void SetTree(vtkIdType, vtkHyperTree *)
Assign given tree to given index of hyper tree grid NB: This will create a new slot in the grid if ne...
virtual void GetLevelZeroOriginAndSizeFromIndex(vtkIdType, double *, double *)
Convert the global index of a root to its Spatial coordinates origin and size.
int GetExtentType() VTK_FUTURE_CONST override
Structured extent.
void InitializeNonOrientedMooreSuperCursorLight(vtkHyperTreeGridNonOrientedMooreSuperCursorLight *cursor, vtkIdType index, bool create=false)
Used to initialize a cursor of the given type.
virtual unsigned int FindDichotomicX(double value, double tol=0.0) const
unsigned int DepthLimiter
void SetDimensions(unsigned int i, unsigned int j, unsigned int k)
Set/Get sizes of this rectilinear grid dataset.
vtkDataArray * ZCoordinates
vtkDataArray * YCoordinates
vtkUnsignedCharArray * AllocateTreeGhostArray()
Allocate ghost array for points.
vtkIdType GetNumberOfNonEmptyTrees()
Get the number of non empty trees in this grid.
virtual unsigned long GetActualMemorySizeBytes()
Return the actual size of the data in bytes.
vtkHyperTreeGridOrientedGeometryCursor * NewOrientedGeometryCursor(vtkIdType index, bool create=false)
Used to initialize a cursor of the given type.
char * ModeSqueeze
ModeSqueeze.
void Get2DAxes(unsigned int &axis1, unsigned int &axis2) const
Return the indices of the two valid dimensions.
static vtkHyperTreeGrid * GetData(vtkInformationVector *v, int i=0)
Retrieve an instance of this class from an information object.
vtkHyperTreeGridNonOrientedGeometryCursor * NewNonOrientedGeometryCursor(vtkIdType index, bool create=false)
Used to initialize a cursor of the given type.
vtkIdType GetGlobalNodeIndexMax()
Return the maximum global index value.
int GetDataObjectType() VTK_FUTURE_CONST override
Return what type of dataset this is.
void InitializeOrientedCursor(vtkHyperTreeGridOrientedCursor *cursor, vtkIdType index, bool create=false)
Used to initialize a cursor of the given type.
void InitializeLocalIndexNode()
Initialize local indexes for every individual Hyper Tree after they have been refined.
vtkHyperTreeGridNonOrientedUnlimitedGeometryCursor * NewNonOrientedUnlimitedGeometryCursor(vtkIdType index, bool create=false)
Used to initialize a cursor of the given type.
virtual void ComputeBounds()
Compute the hyper tree grid bounding box ignoring masked cells.
unsigned long GetActualMemorySize() override
Return the actual size of the data in kibibytes (1024 bytes).
bool SupportsGhostArray(int type) override
Returns true if type is CELL, false otherwise.
void InitializeNonOrientedMooreSuperCursor(vtkHyperTreeGridNonOrientedMooreSuperCursor *cursor, vtkIdType index, bool create=false)
Used to initialize a cursor of the given type.
void InitializeTreeIterator(vtkHyperTreeGridIterator &)
Initialize an iterator to browse level 0 trees.
vtkHyperTreeGridNonOrientedUnlimitedMooreSuperCursor * NewNonOrientedUnlimitedMooreSuperCursor(vtkIdType index, bool create=false)
Used to initialize a cursor of the given type.
unsigned int GetNumberOfLevels()
Return the number of levels in the hyper tree grid.
void SetDimensions(const unsigned int dims[3])
Set/Get sizes of this rectilinear grid dataset.
static vtkInformationIntegerKey * DIMENSION()
static vtkInformationIntegerKey * LEVELS()
void SetExtent(const int extent[6])
Different ways to set the extent of the data array.
virtual unsigned int FindDichotomicZ(double value, double tol=0.0) const
vtkIdType GetShiftedLevelZeroIndex(vtkIdType, int, int, int) const
Return the root index of a root cell with given index displaced.
void SetDimensions(int i, int j, int k)
Set/Get sizes of this rectilinear grid dataset.
unsigned int GetChildMask(unsigned int)
Return hard-coded bitcode correspondng to child mask Dimension 1: Factor 2: 0: 100,...
vtkUnsignedCharArray * GetGhostCells()
Gets the array that defines the ghost type of each cell.
virtual void SetZCoordinates(vtkDataArray *)
Set/Get the grid coordinates in the z-direction.
vtkHyperTreeGridNonOrientedVonNeumannSuperCursor * NewNonOrientedVonNeumannSuperCursor(vtkIdType index, bool create=false)
Used to initialize a cursor of the given type.
void SetIndexingModeToIJK()
Specify whether indexing mode of grid root cells must be transposed to x-axis first,...
static vtkHyperTreeGrid * New()
vtkBitArray * GetPureMask()
Get or create pure material mask.
bool HasAnyGhostCells() const
Returns true if a ghost cell array is defined.
void SetBranchFactor(unsigned int)
Set/Get the subdivision factor in the grid refinement scheme.
void InitializeNonOrientedUnlimitedMooreSuperCursor(vtkHyperTreeGridNonOrientedUnlimitedMooreSuperCursor *cursor, vtkIdType index, bool create=false)
Used to initialize a cursor of the given type.
vtkIdType GetNumberOfLeaves()
Get the number of leaves in the primal tree grid.
void ShallowCopy(vtkDataObject *) override
Create shallow copy of hyper tree grid.
virtual double * GetBounds()
Return a pointer to the geometry bounding box in the form (xmin,xmax, ymin,ymax, zmin,...
static vtkInformationDoubleVectorKey * SIZES()
vtkHyperTreeGrid()
Constructor with default bounds (0,1, 0,1, 0,1).
unsigned int GetBranchFactor() const
Set/Get the subdivision factor in the grid refinement scheme.
vtkNew< vtkCellData > CellData
vtkHyperTreeGridNonOrientedMooreSuperCursor * NewNonOrientedMooreSuperCursor(vtkIdType index, bool create=false)
Used to initialize a cursor of the given type.
void InitializeNonOrientedGeometryCursor(vtkHyperTreeGridNonOrientedGeometryCursor *cursor, vtkIdType index, bool create=false)
Used to initialize a cursor of the given type.
void InitializeNonOrientedCursor(vtkHyperTreeGridNonOrientedCursor *cursor, vtkIdType index, bool create=false)
Used to initialize a cursor of the given type.
unsigned int GetDimension() const
Get the dimensionality of the grid from the Dimensions/Extent.
unsigned int GetNumberOfChildren() const
The number of children each node can have.
void InitializeNonOrientedVonNeumannSuperCursor(vtkHyperTreeGridNonOrientedVonNeumannSuperCursor *cursor, vtkIdType index, bool create=false)
Used to initialize a cursor of the given type.
void GetLevelZeroCoordinatesFromIndex(vtkIdType, unsigned int &, unsigned int &, unsigned int &) const
Convert the global index of a root to its Cartesian coordinates in the grid.
virtual void GetGridBounds(double bounds[6])
Return a pointer to the grid bounding box in the form (xmin,xmax, ymin,ymax, zmin,...
virtual void SetTransposedRootIndexing(bool)
Specify whether indexing mode of grid root cells must be transposed to x-axis first,...
unsigned int NumberOfChildren
unsigned int BranchFactor
vtkDataArray * XCoordinates
void SetDimensions(const int dims[3])
Set/Get sizes of this rectilinear grid dataset.
A data object structured as a tree.
dynamic, self-adjusting array of vtkIdType
a simple class to control print indentation
cell represents a 1D line
Allocate and hold a VTK object.
a cell that represents an orthogonal quadrilateral
represent and manipulate 3D points
Hold a reference to a vtkObjectBase instance.
record modification and/or execution time
dynamic, self-adjusting array of unsigned char
virtual int GetDimension()=0
Return the topological dimension of the current cell.
#define VTK_SIZEHINT(...)
1.15.0