comac_desk_app/ThirdpartyLibs/Libs/windows-x86_64/vtk/include/vtkFindCellStrategy.h

/*=========================================================================

  Program:   Visualization Toolkit
  Module:    vtkFindCellStrategy.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   vtkFindCellStrategy
 * @brief   helper class to manage the vtkPointSet::FindCell() METHOD
 *
 * vtkFindCellStrategy is a helper class to manage the use of locators for
 * locating cells containing a query point x[3], the so-called FindCell()
 * method. The use of vtkDataSet::FindCell() is a common operation in
 * applications such as streamline generation and probing. However, in some
 * dataset types FindCell() can be implemented very simply (e.g.,
 * vtkImageData) while in other datasets it is a complex operation requiring
 * supplemental objects like locators to perform efficiently. In particular,
 * vtkPointSet and its subclasses (like vtkUnstructuredGrid) require complex
 * strategies to efficiently implement the FindCell() operation. Subclasses
 * of the abstract vtkFindCellStrategy implement several of these strategies.
 *
 * The are two key methods to this class and subclasses. The Initialize()
 * method negotiates with an input dataset to define the locator to use:
 * either a locator associated with the input dataset, or possibly an
 * alternative locator defined by the strategy (subclasses of
 * vtkFindCellStrategy do this). The second important method, FindCell()
 * mimics vtkDataSet::FindCell() and can be used in place of it.
 *
 * Note that vtkFindCellStrategy is in general not thread-safe as the
 * strategies contain state used to accelerate the search process. Hence
 * if multiple threads are attempting to invoke FindCell(), each thread
 * needs to have its own instance of the vtkFindCellStrategy.
 *
 * @sa
 * vtkPointSet vtkPolyData vtkStructuredGrid vtkUnstructuredGrid
 * vtkAbstractInterpolatedVelocityField vtkClosetPointStrategy
 * vtkCellLocatorStrategy vtkClosestNPointsStrategy
 */

#ifndef vtkFindCellStrategy_h
#define vtkFindCellStrategy_h

#include "vtkCommonDataModelModule.h" // For export macro
#include "vtkObject.h"

class vtkCell;
class vtkGenericCell;
class vtkPointSet;

class VTKCOMMONDATAMODEL_EXPORT vtkFindCellStrategy : public vtkObject
{
public:
  ///@{
  /**
   * Standard methods for type information and printing.
   */
  vtkTypeMacro(vtkFindCellStrategy, vtkObject);
  void PrintSelf(ostream& os, vtkIndent indent) override;
  ///@}

  /**
   * All subclasses of this class must provide an initialize method.  This
   * method performs handshaking and setup between the vtkPointSet dataset
   * and associated locator(s). A return value==0 means the initialization
   * process failed. The initialization is set up in such a way as to prevent
   * multiple locators from being built.
   */
  virtual int Initialize(vtkPointSet* ps);

  /**
   * Virtual method for finding a cell. Subclasses must satisfy this API.
   * This method is of the same signature as vtkDataSet::FindCell(). This
   * method is not thread safe: separate instances of vtkFindCellStrategy
   * should be created for each thread invoking FindCell(). This is done for
   * performance reasons to reduce the number of objects created/destroyed on
   * each FindCell() invocation.
   */
  virtual vtkIdType FindCell(double x[3], vtkCell* cell, vtkGenericCell* gencell, vtkIdType cellId,
    double tol2, int& subId, double pcoords[3], double* weights) = 0;

  /**
   * 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) = 0;

  /**
   * Quickly test if a point is inside the bounds of a particular cell.
   */
  virtual bool InsideCellBounds(double x[3], vtkIdType cellId) = 0;

  /**
   * Copy essential parameters between instances of this class. This
   * generally is used to copy from instance prototype to another, or to copy
   * strategies between thread instances.  Sub-classes can contribute to
   * the parameter copying process via chaining.
   */
  virtual void CopyParameters(vtkFindCellStrategy* from);

protected:
  vtkFindCellStrategy();
  ~vtkFindCellStrategy() override;

  // You may ask why this OwnsLocator rigamarole. The reason is that the reference counting garbage
  // collector gets confused when the  (cell/point) locator, point set, and strategy are all mixed
  // together; resulting in memory leaks etc, So this defines if the locator specified or taken from
  // another strategy instance or the dataset.
  bool OwnsLocator;
  vtkPointSet* PointSet; // vtkPointSet which this strategy is associated with
  double Bounds[6];      // bounding box of vtkPointSet

  vtkTimeStamp InitializeTime; // time at which strategy was initialized

private:
  vtkFindCellStrategy(const vtkFindCellStrategy&) = delete;
  void operator=(const vtkFindCellStrategy&) = delete;
};

#endif
init 2024-11-21 11:50:43 +08:00			`/*=========================================================================`

			`Program: Visualization Toolkit`
			`Module: vtkFindCellStrategy.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 vtkFindCellStrategy`
			`* @brief helper class to manage the vtkPointSet::FindCell() METHOD`
			`*`
			`* vtkFindCellStrategy is a helper class to manage the use of locators for`
			`* locating cells containing a query point x[3], the so-called FindCell()`
			`* method. The use of vtkDataSet::FindCell() is a common operation in`
			`* applications such as streamline generation and probing. However, in some`
			`* dataset types FindCell() can be implemented very simply (e.g.,`
			`* vtkImageData) while in other datasets it is a complex operation requiring`
			`* supplemental objects like locators to perform efficiently. In particular,`
			`* vtkPointSet and its subclasses (like vtkUnstructuredGrid) require complex`
			`* strategies to efficiently implement the FindCell() operation. Subclasses`
			`* of the abstract vtkFindCellStrategy implement several of these strategies.`
			`*`
			`* The are two key methods to this class and subclasses. The Initialize()`
			`* method negotiates with an input dataset to define the locator to use:`
			`* either a locator associated with the input dataset, or possibly an`
			`* alternative locator defined by the strategy (subclasses of`
			`* vtkFindCellStrategy do this). The second important method, FindCell()`
			`* mimics vtkDataSet::FindCell() and can be used in place of it.`
			`*`
			`* Note that vtkFindCellStrategy is in general not thread-safe as the`
			`* strategies contain state used to accelerate the search process. Hence`
			`* if multiple threads are attempting to invoke FindCell(), each thread`
			`* needs to have its own instance of the vtkFindCellStrategy.`
			`*`
			`* @sa`
			`* vtkPointSet vtkPolyData vtkStructuredGrid vtkUnstructuredGrid`
			`* vtkAbstractInterpolatedVelocityField vtkClosetPointStrategy`
			`* vtkCellLocatorStrategy vtkClosestNPointsStrategy`
			`*/`

			`#ifndef vtkFindCellStrategy_h`
			`#define vtkFindCellStrategy_h`

			`#include "vtkCommonDataModelModule.h" // For export macro`
			`#include "vtkObject.h"`

			`class vtkCell;`
			`class vtkGenericCell;`
			`class vtkPointSet;`

			`class VTKCOMMONDATAMODEL_EXPORT vtkFindCellStrategy : public vtkObject`
			`{`
			`public:`
			`///@{`
			`/**`
			`* Standard methods for type information and printing.`
			`*/`
			`vtkTypeMacro(vtkFindCellStrategy, vtkObject);`
			`void PrintSelf(ostream& os, vtkIndent indent) override;`
			`///@}`

			`/**`
			`* All subclasses of this class must provide an initialize method. This`
			`* method performs handshaking and setup between the vtkPointSet dataset`
			`* and associated locator(s). A return value==0 means the initialization`
			`* process failed. The initialization is set up in such a way as to prevent`
			`* multiple locators from being built.`
			`*/`
			`virtual int Initialize(vtkPointSet* ps);`

			`/**`
			`* Virtual method for finding a cell. Subclasses must satisfy this API.`
			`* This method is of the same signature as vtkDataSet::FindCell(). This`
			`* method is not thread safe: separate instances of vtkFindCellStrategy`
			`* should be created for each thread invoking FindCell(). This is done for`
			`* performance reasons to reduce the number of objects created/destroyed on`
			`* each FindCell() invocation.`
			`*/`
			`virtual vtkIdType FindCell(double x[3], vtkCell* cell, vtkGenericCell* gencell, vtkIdType cellId,`
			`double tol2, int& subId, double pcoords[3], double* weights) = 0;`

			`/**`
			`* 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) = 0;`

			`/**`
			`* Quickly test if a point is inside the bounds of a particular cell.`
			`*/`
			`virtual bool InsideCellBounds(double x[3], vtkIdType cellId) = 0;`

			`/**`
			`* Copy essential parameters between instances of this class. This`
			`* generally is used to copy from instance prototype to another, or to copy`
			`* strategies between thread instances. Sub-classes can contribute to`
			`* the parameter copying process via chaining.`
			`*/`
			`virtual void CopyParameters(vtkFindCellStrategy* from);`

			`protected:`
			`vtkFindCellStrategy();`
			`~vtkFindCellStrategy() override;`

			`// You may ask why this OwnsLocator rigamarole. The reason is that the reference counting garbage`
			`// collector gets confused when the (cell/point) locator, point set, and strategy are all mixed`
			`// together; resulting in memory leaks etc, So this defines if the locator specified or taken from`
			`// another strategy instance or the dataset.`
			`bool OwnsLocator;`
			`vtkPointSet* PointSet; // vtkPointSet which this strategy is associated with`
			`double Bounds[6]; // bounding box of vtkPointSet`

			`vtkTimeStamp InitializeTime; // time at which strategy was initialized`

			`private:`
			`vtkFindCellStrategy(const vtkFindCellStrategy&) = delete;`
			`void operator=(const vtkFindCellStrategy&) = delete;`
			`};`

			`#endif`