/*========================================================================= Program: Visualization Toolkit Module: vtkThreshold.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 vtkThreshold * @brief extracts cells where scalar value in cell satisfies threshold criterion * * vtkThreshold is a filter that extracts cells from any dataset type that * satisfy a threshold criterion. A cell satisfies the criterion if the * scalar value of (every or any) point satisfies the criterion. The * criterion can take three forms: 1) greater than a particular value; 2) * less than a particular value; or 3) between two values. The output of this * filter is an unstructured grid. * * Note that scalar values are available from the point and cell attribute * data. By default, point data is used to obtain scalars, but you can * control this behavior. See the AttributeMode ivar below. * * By default only the first scalar value is used in the decision. Use the ComponentMode * and SelectedComponent ivars to control this behavior. * * @sa * vtkThresholdPoints vtkThresholdTextureCoords */ #ifndef vtkThreshold_h #define vtkThreshold_h #include "vtkFiltersCoreModule.h" // For export macro #include "vtkUnstructuredGridAlgorithm.h" #define VTK_ATTRIBUTE_MODE_DEFAULT 0 #define VTK_ATTRIBUTE_MODE_USE_POINT_DATA 1 #define VTK_ATTRIBUTE_MODE_USE_CELL_DATA 2 // order / values are important because of the SetClampMacro #define VTK_COMPONENT_MODE_USE_SELECTED 0 #define VTK_COMPONENT_MODE_USE_ALL 1 #define VTK_COMPONENT_MODE_USE_ANY 2 class vtkDataArray; class vtkIdList; class VTKFILTERSCORE_EXPORT vtkThreshold : public vtkUnstructuredGridAlgorithm { public: static vtkThreshold* New(); vtkTypeMacro(vtkThreshold, vtkUnstructuredGridAlgorithm); void PrintSelf(ostream& os, vtkIndent indent) override; /** * Criterion is cells whose scalars are less or equal to lower threshold. */ void ThresholdByLower(double lower); /** * Criterion is cells whose scalars are greater or equal to upper threshold. */ void ThresholdByUpper(double upper); /** * Criterion is cells whose scalars are between lower and upper thresholds * (inclusive of the end values). */ void ThresholdBetween(double lower, double upper); //@{ /** * Get the Upper and Lower thresholds. */ vtkGetMacro(UpperThreshold, double); vtkGetMacro(LowerThreshold, double); //@} //@{ /** * Control how the filter works with scalar point data and cell attribute * data. By default (AttributeModeToDefault), the filter will use point * data, and if no point data is available, then cell data is * used. Alternatively you can explicitly set the filter to use point data * (AttributeModeToUsePointData) or cell data (AttributeModeToUseCellData). */ vtkSetMacro(AttributeMode, int); vtkGetMacro(AttributeMode, int); void SetAttributeModeToDefault() { this->SetAttributeMode(VTK_ATTRIBUTE_MODE_DEFAULT); } void SetAttributeModeToUsePointData() { this->SetAttributeMode(VTK_ATTRIBUTE_MODE_USE_POINT_DATA); } void SetAttributeModeToUseCellData() { this->SetAttributeMode(VTK_ATTRIBUTE_MODE_USE_CELL_DATA); } const char* GetAttributeModeAsString(); //@} //@{ /** * Control how the decision of in / out is made with multi-component data. * The choices are to use the selected component (specified in the * SelectedComponent ivar), or to look at all components. When looking at * all components, the evaluation can pass if all the components satisfy * the rule (UseAll) or if any satisfy is (UseAny). The default value is * UseSelected. */ vtkSetClampMacro(ComponentMode, int, VTK_COMPONENT_MODE_USE_SELECTED, VTK_COMPONENT_MODE_USE_ANY); vtkGetMacro(ComponentMode, int); void SetComponentModeToUseSelected() { this->SetComponentMode(VTK_COMPONENT_MODE_USE_SELECTED); } void SetComponentModeToUseAll() { this->SetComponentMode(VTK_COMPONENT_MODE_USE_ALL); } void SetComponentModeToUseAny() { this->SetComponentMode(VTK_COMPONENT_MODE_USE_ANY); } const char* GetComponentModeAsString(); //@} //@{ /** * When the component mode is UseSelected, this ivar indicated the selected * component. The default value is 0. */ vtkSetClampMacro(SelectedComponent, int, 0, VTK_INT_MAX); vtkGetMacro(SelectedComponent, int); //@} //@{ /** * If using scalars from point data, all scalars for all points in a cell * must satisfy the threshold criterion if AllScalars is set. Otherwise, * just a single scalar value satisfying the threshold criterion enables * will extract the cell. */ vtkSetMacro(AllScalars, vtkTypeBool); vtkGetMacro(AllScalars, vtkTypeBool); vtkBooleanMacro(AllScalars, vtkTypeBool); //@} //@{ /** * If this is on (default is off), we will use the continuous interval * [minimum cell scalar, maxmimum cell scalar] to intersect the threshold bound * , rather than the set of discrete scalar values from the vertices * *WARNING*: For higher order cells, the scalar range of the cell is * not the same as the vertex scalar interval used here, so the * result will not be accurate. */ vtkSetMacro(UseContinuousCellRange, vtkTypeBool); vtkGetMacro(UseContinuousCellRange, vtkTypeBool); vtkBooleanMacro(UseContinuousCellRange, vtkTypeBool); //@} //@{ /** * Set the data type of the output points (See the data types defined in * vtkType.h). The default data type is float. * These methods are deprecated. Please use the SetOutputPointsPrecision() * and GetOutputPointsPrecision() methods instead. */ void SetPointsDataTypeToDouble() { this->SetPointsDataType(VTK_DOUBLE); } void SetPointsDataTypeToFloat() { this->SetPointsDataType(VTK_FLOAT); } void SetPointsDataType(int type); int GetPointsDataType(); //@} //@{ /** * Invert the threshold results. That is, cells that would have been in the output with this * option off are excluded, while cells that would have been excluded from the output are * included. */ vtkSetMacro(Invert, bool); vtkGetMacro(Invert, bool); vtkBooleanMacro(Invert, bool); //@} //@{ /** * Set/get the desired precision for the output types. See the documentation * for the vtkAlgorithm::DesiredOutputPrecision enum for an explanation of * the available precision settings. */ void SetOutputPointsPrecision(int precision); int GetOutputPointsPrecision() const; //@} //@{ /** * Methods used for thresholding. vtkThreshold::Lower returns true if s is lower than threshold, * vtkThreshold::Upper returns true if s is upper than treshold, and vtkThreshold::Between returns * true if s is between two threshold. * * @warning vtkThreshold::Lower and vtkThreshold::Upper use different thresholds which are set * using the methods vtkThreshold::ThresholdByLower and vtkThreshold::ThresholdByUpper * respectively. vtkThreshold::ThresholdBetween sets both thresholds. Do not use those methods * without priorly setting the corresponding threshold. * * @note They are not protected member for inheritance purposes. The addresses of those methods is * stored in one of this class attributes to figure out which version of the threshold to apply, * which are inaccessible if protected. */ int Lower(double s) const; int Upper(double s) const; int Between(double s) const; //@} protected: vtkThreshold(); ~vtkThreshold() override; // Usual data generation method int RequestData(vtkInformation*, vtkInformationVector**, vtkInformationVector*) override; int FillInputPortInformation(int port, vtkInformation* info) override; vtkTypeBool AllScalars; double LowerThreshold; double UpperThreshold; int AttributeMode; int ComponentMode; int SelectedComponent; int OutputPointsPrecision; vtkTypeBool UseContinuousCellRange; bool Invert; int (vtkThreshold::*ThresholdFunction)(double s) const; int EvaluateComponents(vtkDataArray* scalars, vtkIdType id); int EvaluateCell(vtkDataArray* scalars, vtkIdList* cellPts, int numCellPts); int EvaluateCell(vtkDataArray* scalars, int c, vtkIdList* cellPts, int numCellPts); private: vtkThreshold(const vtkThreshold&) = delete; void operator=(const vtkThreshold&) = delete; }; #endif