/*========================================================================= Program: Visualization Toolkit Module: vtkDicer.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 vtkDicer * @brief abstract superclass to divide dataset into pieces * * Subclasses of vtkDicer divides the input dataset into separate * pieces. These pieces can then be operated on by other filters * (e.g., vtkThreshold). One application is to break very large * polygonal models into pieces and performing viewing and occlusion * culling on the pieces. Multiple pieces can also be streamed through * the visualization pipeline. * * To use this filter, you must specify the execution mode of the * filter; i.e., set the way that the piece size is controlled (do * this by setting the DiceMode ivar). The filter does not change the * geometry or topology of the input dataset, rather it generates * integer numbers that indicate which piece a particular point * belongs to (i.e., it modifies the point and cell attribute * data). The integer number can be placed into the output scalar * data, or the output field data. * * @warning * The number of pieces generated may not equal the specified number * of pieces. Use the method GetNumberOfActualPieces() after filter * execution to get the actual number of pieces generated. * * @sa * vtkOBBDicer vtkConnectedDicer vtkSpatialDicer */ #ifndef vtkDicer_h #define vtkDicer_h #include "vtkDataSetAlgorithm.h" #include "vtkFiltersGeneralModule.h" // For export macro #define VTK_DICE_MODE_NUMBER_OF_POINTS 0 #define VTK_DICE_MODE_SPECIFIED_NUMBER 1 #define VTK_DICE_MODE_MEMORY_LIMIT 2 class VTKFILTERSGENERAL_EXPORT vtkDicer : public vtkDataSetAlgorithm { public: vtkTypeMacro(vtkDicer, vtkDataSetAlgorithm); void PrintSelf(ostream& os, vtkIndent indent) override; //@{ /** * Set/Get the flag which controls whether to generate point scalar * data or point field data. If this flag is off, scalar data is * generated. Otherwise, field data is generated. Note that the * generated the data are integer numbers indicating which piece a * particular point belongs to. */ vtkSetMacro(FieldData, vtkTypeBool); vtkGetMacro(FieldData, vtkTypeBool); vtkBooleanMacro(FieldData, vtkTypeBool); //@} //@{ /** * Specify the method to determine how many pieces the data should be * broken into. By default, the number of points per piece is used. */ vtkSetClampMacro(DiceMode, int, VTK_DICE_MODE_NUMBER_OF_POINTS, VTK_DICE_MODE_MEMORY_LIMIT); vtkGetMacro(DiceMode, int); void SetDiceModeToNumberOfPointsPerPiece() { this->SetDiceMode(VTK_DICE_MODE_NUMBER_OF_POINTS); } void SetDiceModeToSpecifiedNumberOfPieces() { this->SetDiceMode(VTK_DICE_MODE_SPECIFIED_NUMBER); } void SetDiceModeToMemoryLimitPerPiece() { this->SetDiceMode(VTK_DICE_MODE_MEMORY_LIMIT); } //@} //@{ /** * Use the following method after the filter has updated to * determine the actual number of pieces the data was separated * into. */ vtkGetMacro(NumberOfActualPieces, int); //@} //@{ /** * Control piece size based on the maximum number of points per piece. * (This ivar has effect only when the DiceMode is set to * SetDiceModeToNumberOfPoints().) */ vtkSetClampMacro(NumberOfPointsPerPiece, int, 1000, VTK_INT_MAX); vtkGetMacro(NumberOfPointsPerPiece, int); //@} //@{ /** * Set/Get the number of pieces the object is to be separated into. * (This ivar has effect only when the DiceMode is set to * SetDiceModeToSpecifiedNumber()). Note that the ivar * NumberOfPieces is a target - depending on the particulars of the * data, more or less number of pieces than the target value may be * created. */ vtkSetClampMacro(NumberOfPieces, int, 1, VTK_INT_MAX); vtkGetMacro(NumberOfPieces, int); //@} //@{ /** * Control piece size based on a memory limit. (This ivar has * effect only when the DiceMode is set to * SetDiceModeToMemoryLimit()). The memory limit should be set in * kibibytes (1024 bytes). */ vtkSetClampMacro(MemoryLimit, unsigned long, 100, VTK_INT_MAX); vtkGetMacro(MemoryLimit, unsigned long); //@} protected: vtkDicer(); ~vtkDicer() override {} virtual void UpdatePieceMeasures(vtkDataSet* input); int NumberOfPointsPerPiece; int NumberOfPieces; unsigned long MemoryLimit; int NumberOfActualPieces; vtkTypeBool FieldData; int DiceMode; private: vtkDicer(const vtkDicer&) = delete; void operator=(const vtkDicer&) = delete; }; #endif