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/*=========================================================================
Program: Visualization Toolkit
Module: vtkIntegrateAttributes.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 vtkIntegrateAttributes
* @brief Integrates lines, surfaces and volume.
*
* Integrates all point and cell data attributes while computing
* length, area or volume. Works for 1D, 2D or 3D. Only one dimensionality
* at a time. For volume, this filter ignores all but 3D cells. It
* will not compute the volume contained in a closed surface.
* The output of this filter is a single point and vertex. The attributes
* for this point and cell will contain the integration results
* for the corresponding input attributes.
*/
#ifndef vtkIntegrateAttributes_h
#define vtkIntegrateAttributes_h
#include "vtkFiltersParallelModule.h" // For export macro
#include "vtkUnstructuredGridAlgorithm.h"
class vtkDataSet;
class vtkIdList;
class vtkInformation;
class vtkInformationVector;
class vtkDataSetAttributes;
class vtkMultiProcessController;
class VTKFILTERSPARALLEL_EXPORT vtkIntegrateAttributes : public vtkUnstructuredGridAlgorithm
{
public:
static vtkIntegrateAttributes* New();
vtkTypeMacro(vtkIntegrateAttributes, vtkUnstructuredGridAlgorithm);
void PrintSelf(ostream& os, vtkIndent indent) override;
//@{
/**
* Get/Set the parallel controller to use. By default, set to.
* `vtkMultiProcessController::GlobalController`.
*/
void SetController(vtkMultiProcessController* controller);
vtkGetObjectMacro(Controller, vtkMultiProcessController);
//@}
//@{
/**
* If set to true then the filter will divide all output cell data arrays (the integrated values)
* by the computed volume/area of the dataset. Defaults to false.
*/
vtkSetMacro(DivideAllCellDataByVolume, bool);
vtkGetMacro(DivideAllCellDataByVolume, bool);
//@}
protected:
vtkIntegrateAttributes();
~vtkIntegrateAttributes() override;
vtkMultiProcessController* Controller;
int RequestData(vtkInformation* request, vtkInformationVector** inputVector,
vtkInformationVector* outputVector) override;
// Create a default executive.
vtkExecutive* CreateDefaultExecutive() override;
int FillInputPortInformation(int, vtkInformation*) override;
int CompareIntegrationDimension(vtkDataSet* output, int dim);
int IntegrationDimension;
// The length, area or volume of the data set. Computed by Execute;
double Sum;
// ToCompute the location of the output point.
double SumCenter[3];
bool DivideAllCellDataByVolume;
void IntegratePolyLine(
vtkDataSet* input, vtkUnstructuredGrid* output, vtkIdType cellId, vtkIdList* cellPtIds);
void IntegratePolygon(
vtkDataSet* input, vtkUnstructuredGrid* output, vtkIdType cellId, vtkIdList* cellPtIds);
void IntegrateTriangleStrip(
vtkDataSet* input, vtkUnstructuredGrid* output, vtkIdType cellId, vtkIdList* cellPtIds);
void IntegrateTriangle(vtkDataSet* input, vtkUnstructuredGrid* output, vtkIdType cellId,
vtkIdType pt1Id, vtkIdType pt2Id, vtkIdType pt3Id);
void IntegrateTetrahedron(vtkDataSet* input, vtkUnstructuredGrid* output, vtkIdType cellId,
vtkIdType pt1Id, vtkIdType pt2Id, vtkIdType pt3Id, vtkIdType pt4Id);
void IntegratePixel(
vtkDataSet* input, vtkUnstructuredGrid* output, vtkIdType cellId, vtkIdList* cellPtIds);
void IntegrateVoxel(
vtkDataSet* input, vtkUnstructuredGrid* output, vtkIdType cellId, vtkIdList* cellPtIds);
void IntegrateGeneral1DCell(
vtkDataSet* input, vtkUnstructuredGrid* output, vtkIdType cellId, vtkIdList* cellPtIds);
void IntegrateGeneral2DCell(
vtkDataSet* input, vtkUnstructuredGrid* output, vtkIdType cellId, vtkIdList* cellPtIds);
void IntegrateGeneral3DCell(
vtkDataSet* input, vtkUnstructuredGrid* output, vtkIdType cellId, vtkIdList* cellPtIds);
void IntegrateSatelliteData(vtkDataSetAttributes* inda, vtkDataSetAttributes* outda);
void ZeroAttributes(vtkDataSetAttributes* outda);
int PieceNodeMinToNode0(vtkUnstructuredGrid* data);
void SendPiece(vtkUnstructuredGrid* src);
void ReceivePiece(vtkUnstructuredGrid* mergeTo, int fromId);
// This function assumes the data is in the format of the output of this filter with one
// point/cell having the value computed as its only tuple. It divides each value by sum,
// skipping the last data array if requested (so the volume doesn't get divided by itself
// and set to 1).
static void DivideDataArraysByConstant(
vtkDataSetAttributes* data, bool skipLastArray, double sum);
private:
vtkIntegrateAttributes(const vtkIntegrateAttributes&) = delete;
void operator=(const vtkIntegrateAttributes&) = delete;
class vtkFieldList;
vtkFieldList* CellFieldList;
vtkFieldList* PointFieldList;
int FieldListIndex;
void AllocateAttributes(vtkFieldList& fieldList, vtkDataSetAttributes* outda);
void ExecuteBlock(vtkDataSet* input, vtkUnstructuredGrid* output, int fieldset_index,
vtkFieldList& pdList, vtkFieldList& cdList);
void IntegrateData1(vtkDataSetAttributes* inda, vtkDataSetAttributes* outda, vtkIdType pt1Id,
double k, vtkFieldList& fieldlist, int fieldlist_index);
void IntegrateData2(vtkDataSetAttributes* inda, vtkDataSetAttributes* outda, vtkIdType pt1Id,
vtkIdType pt2Id, double k, vtkFieldList& fieldlist, int fieldlist_index);
void IntegrateData3(vtkDataSetAttributes* inda, vtkDataSetAttributes* outda, vtkIdType pt1Id,
vtkIdType pt2Id, vtkIdType pt3Id, double k, vtkFieldList& fieldlist, int fieldlist_index);
void IntegrateData4(vtkDataSetAttributes* inda, vtkDataSetAttributes* outda, vtkIdType pt1Id,
vtkIdType pt2Id, vtkIdType pt3Id, vtkIdType pt4Id, double k, vtkFieldList& fieldlist,
int fieldlist_index);
public:
enum CommunicationIds
{
IntegrateAttrInfo = 2000,
IntegrateAttrData
};
};
#endif