/usr/include/vtk-7.1/vtkAbstractCellLocator.h is in libvtk7-dev 7.1.1+dfsg1-2.
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Program: Visualization Toolkit
Module: vtkAbstractCellLocator.h
Copyright (c) Ken Martin, Will Schroeder, Bill Lorensen
All rights reserved.
See Copyright.txt or http://www.kitware.com/Copyright.htm for details.
This software is distributed WITHOUT ANY WARRANTY; without even
the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR
PURPOSE. See the above copyright notice for more information.
=========================================================================*/
/**
* @class vtkAbstractCellLocator
* @brief an abstract base class for locators which find cells
*
* vtkAbstractCellLocator is a spatial search object to quickly locate cells in 3D.
* vtkAbstractCellLocator supplies a basic interface which concrete subclasses
* should implement.
*
* @warning
* When deriving a class from vtkAbstractCellLocator, one should include the
* 'hidden' member functions by the following construct in the derived class
* \verbatim
* using vtkAbstractCellLocator::IntersectWithLine;
* using vtkAbstractCellLocator::FindClosestPoint;
* using vtkAbstractCellLocator::FindClosestPointWithinRadius;
* \endverbatim
*
*
* @sa
* vtkLocator vtkPointLocator vtkOBBTree vtkCellLocator
*/
#ifndef vtkAbstractCellLocator_h
#define vtkAbstractCellLocator_h
#include "vtkCommonDataModelModule.h" // For export macro
#include "vtkLocator.h"
class vtkCellArray;
class vtkGenericCell;
class vtkIdList;
class vtkPoints;
class VTKCOMMONDATAMODEL_EXPORT vtkAbstractCellLocator : public vtkLocator
{
public:
vtkTypeMacro(vtkAbstractCellLocator,vtkLocator);
void PrintSelf(ostream& os, vtkIndent indent) VTK_OVERRIDE;
//@{
/**
* Specify the preferred/maximum number of cells in each node/bucket.
* Default 32. Locators generally operate by subdividing space into
* smaller regions until the number of cells in each region (or node)
* reaches the desired level.
*/
vtkSetClampMacro(NumberOfCellsPerNode,int,1,VTK_INT_MAX);
vtkGetMacro(NumberOfCellsPerNode,int);
//@}
//@{
/**
* Boolean controls whether the bounds of each cell are computed only
* once and then saved. Should be 10 to 20% faster if repeatedly
* calling any of the Intersect/Find routines and the extra memory
* won't cause disk caching (24 extra bytes per cell are required to
* save the bounds).
*/
vtkSetMacro(CacheCellBounds,int);
vtkGetMacro(CacheCellBounds,int);
vtkBooleanMacro(CacheCellBounds,int);
//@}
//@{
/**
* Boolean controls whether to maintain list of cells in each node.
* not applicable to all implementations, but if the locator is being used
* as a geometry simplification technique, there is no need to keep them.
*/
vtkSetMacro(RetainCellLists,int);
vtkGetMacro(RetainCellLists,int);
vtkBooleanMacro(RetainCellLists,int);
//@}
//@{
/**
* Most Locators build their search structures during BuildLocator
* but some may delay construction until it is actually needed.
* If LazyEvaluation is supported, this turns on/off the feature.
* if not supported, it is ignored.
*/
vtkSetMacro(LazyEvaluation,int);
vtkGetMacro(LazyEvaluation,int);
vtkBooleanMacro(LazyEvaluation,int);
//@}
//@{
/**
* Some locators support querying a new dataset without rebuilding
* the search structure (typically this may occur when a dataset
* changes due to a time update, but is actually the same topology)
* Turning on this flag enables some locators to skip the rebuilding
* phase
*/
vtkSetMacro(UseExistingSearchStructure,int);
vtkGetMacro(UseExistingSearchStructure,int);
vtkBooleanMacro(UseExistingSearchStructure,int);
//@}
/**
* Return intersection point (if any) of finite line with cells contained
* in cell locator. See vtkCell.h parameters documentation.
*/
virtual int IntersectWithLine(
double p1[3], double p2[3], double tol, double& t, double x[3],
double pcoords[3], int &subId);
/**
* Return intersection point (if any) AND the cell which was intersected by
* the finite line.
*/
virtual int IntersectWithLine(
double p1[3], double p2[3], double tol, double& t, double x[3],
double pcoords[3], int &subId, vtkIdType &cellId);
/**
* Return intersection point (if any) AND the cell which was intersected by
* the finite line. The cell is returned as a cell id and as a generic cell.
*/
virtual int IntersectWithLine(
double p1[3], double p2[3], double tol, double& t, double x[3],
double pcoords[3], int &subId, vtkIdType &cellId, vtkGenericCell *cell);
/**
* Take the passed line segment and intersect it with the data set.
* This method assumes that the data set is a vtkPolyData that describes
* a closed surface, and the intersection points that are returned in
* 'points' alternate between entrance points and exit points.
* The return value of the function is 0 if no intersections were found,
* -1 if point 'a0' lies inside the closed surface, or +1 if point 'a0'
* lies outside the closed surface.
* Either 'points' or 'cellIds' can be set to NULL if you don't want
* to receive that information. This method is currently only implemented
* in vtkOBBTree
*/
virtual int IntersectWithLine(
const double p1[3], const double p2[3],
vtkPoints *points, vtkIdList *cellIds);
/**
* Return the closest point and the cell which is closest to the point x.
* The closest point is somewhere on a cell, it need not be one of the
* vertices of the cell.
*/
virtual void FindClosestPoint(
double x[3], double closestPoint[3],
vtkIdType &cellId, int &subId, double& dist2);
/**
* Return the closest point and the cell which is closest to the point x.
* The closest point is somewhere on a cell, it need not be one of the
* vertices of the cell. This version takes in a vtkGenericCell
* to avoid allocating and deallocating the cell. This is much faster than
* the version which does not take a *cell, especially when this function is
* called many times in a row such as by a for loop, where the allocation and
* deallocation can be done only once outside the for loop. If a cell is
* found, "cell" contains the points and ptIds for the cell "cellId" upon
* exit.
*/
virtual void FindClosestPoint(
double x[3], double closestPoint[3],
vtkGenericCell *cell, vtkIdType &cellId,
int &subId, double& dist2);
/**
* Return the closest point within a specified radius and the cell which is
* closest to the point x. The closest point is somewhere on a cell, it
* need not be one of the vertices of the cell. This method returns 1 if
* a point is found within the specified radius. If there are no cells within
* the specified radius, the method returns 0 and the values of closestPoint,
* cellId, subId, and dist2 are undefined.
*/
virtual vtkIdType FindClosestPointWithinRadius(
double x[3], double radius,
double closestPoint[3], vtkIdType &cellId,
int &subId, double& dist2);
/**
* Return the closest point within a specified radius and the cell which is
* closest to the point x. The closest point is somewhere on a cell, it
* need not be one of the vertices of the cell. This method returns 1 if a
* point is found within the specified radius. If there are no cells within
* the specified radius, the method returns 0 and the values of
* closestPoint, cellId, subId, and dist2 are undefined. This version takes
* in a vtkGenericCell to avoid allocating and deallocating the cell. This
* is much faster than the version which does not take a *cell, especially
* when this function is called many times in a row such as by a for loop,
* where the allocation and deallocation can be done only once outside the
* for loop. If a closest point is found, "cell" contains the points and
* ptIds for the cell "cellId" upon exit.
*/
virtual vtkIdType FindClosestPointWithinRadius(
double x[3], double radius,
double closestPoint[3],
vtkGenericCell *cell, vtkIdType &cellId,
int &subId, double& dist2);
/**
* Return the closest point within a specified radius and the cell which is
* closest to the point x. The closest point is somewhere on a cell, it
* need not be one of the vertices of the cell. This method returns 1 if a
* point is found within the specified radius. If there are no cells within
* the specified radius, the method returns 0 and the values of
* closestPoint, cellId, subId, and dist2 are undefined. This version takes
* in a vtkGenericCell to avoid allocating and deallocating the cell. This
* is much faster than the version which does not take a *cell, especially
* when this function is called many times in a row such as by a for loop,
* where the allocation and dealloction can be done only once outside the
* for loop. If a closest point is found, "cell" contains the points and
* ptIds for the cell "cellId" upon exit. If a closest point is found,
* inside returns the return value of the EvaluatePosition call to the
* closest cell; inside(=1) or outside(=0).
*/
virtual vtkIdType FindClosestPointWithinRadius(
double x[3], double radius,
double closestPoint[3],
vtkGenericCell *cell, vtkIdType &cellId,
int &subId, double& dist2, int &inside);
/**
* Return a list of unique cell ids inside of a given bounding box. The
* user must provide the vtkIdList to populate. This method returns data
* only after the locator has been built.
*/
virtual void FindCellsWithinBounds(double *bbox, vtkIdList *cells);
/**
* Given a finite line defined by the two points (p1,p2), return the list
* of unique cell ids in the buckets containing the line. It is possible
* that an empty cell list is returned. The user must provide the vtkIdList
* to populate. This method returns data only after the locator has been
* built.
*/
virtual void FindCellsAlongLine(
double p1[3], double p2[3], double tolerance, vtkIdList *cells);
/**
* Returns the Id of the cell containing the point,
* returns -1 if no cell found. This interface uses a tolerance of zero
*/
virtual vtkIdType FindCell(double x[3]);
/**
* Find the cell containing a given point. returns -1 if no cell found
* the cell parameters are copied into the supplied variables, a cell must
* be provided to store the information.
*/
virtual vtkIdType FindCell(
double x[3], double tol2, vtkGenericCell *GenCell,
double pcoords[3], double *weights);
/**
* Quickly test if a point is inside the bounds of a particular cell.
* Some locators cache cell bounds and this function can make use
* of fast access to the data.
*/
virtual bool InsideCellBounds(double x[3], vtkIdType cell_ID);
protected:
vtkAbstractCellLocator();
~vtkAbstractCellLocator() VTK_OVERRIDE;
//@{
/**
* This command is used internally by the locator to copy
* all cell Bounds into the internal CellBounds array. Subsequent
* calls to InsideCellBounds(...) can make use of the data
* A valid dataset must be present for this to work. Returns true
* if bounds wre copied, false otherwise.
*/
virtual bool StoreCellBounds();
virtual void FreeCellBounds();
//@}
int NumberOfCellsPerNode;
int RetainCellLists;
int CacheCellBounds;
int LazyEvaluation;
int UseExistingSearchStructure;
vtkGenericCell *GenericCell;
double (*CellBounds)[6];
private:
vtkAbstractCellLocator(const vtkAbstractCellLocator&) VTK_DELETE_FUNCTION;
void operator=(const vtkAbstractCellLocator&) VTK_DELETE_FUNCTION;
};
#endif
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