/*========================================================================= Program: Visualization Toolkit Module: vtkCellLocatorInterpolatedVelocityField.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 vtkCellLocatorInterpolatedVelocityField * @brief A concrete class for * obtaining the interpolated velocity values at a point. * * * vtkCellLocatorInterpolatedVelocityField acts as a continuous velocity * field via cell interpolation on a vtkDataSet, NumberOfIndependentVariables * = 4 (x,y,z,t) and NumberOfFunctions = 3 (u,v,w). As a concrete sub-class * of vtkCompositeInterpolatedVelocityField, it adopts vtkAbstractCellLocator's * sub-classes, e.g., vtkCellLocator and vtkModifiedBSPTree, without the use * of vtkPointLocator ( employed by vtkDataSet/vtkPointSet::FindCell() in * vtkInterpolatedVelocityField ). vtkCellLocatorInterpolatedVelocityField * adopts one level of cell caching. Specifically, if the next point is still * within the previous cell, cell location is then simply skipped and vtkCell:: * EvaluatePosition() is called to obtain the new parametric coordinates and * weights that are used to interpolate the velocity function values across the * vertices of this cell. Otherwise a global cell (the target containing the next * point) location is instead directly invoked, without exploiting the clue that * vtkInterpolatedVelocityField makes use of from the previous cell (an immediate * neighbor). Although ignoring the neighbor cell may incur a relatively high * computational cost, vtkCellLocatorInterpolatedVelocityField is more robust in * locating the target cell than its sibling class vtkInterpolatedVelocityField. * * @warning * vtkCellLocatorInterpolatedVelocityField is not thread safe. A new instance * should be created by each thread. * * @sa * vtkCompositeInterpolatedVelocityField vtkInterpolatedVelocityField * vtkGenericInterpolatedVelocityField vtkCachingInterpolatedVelocityField * vtkTemporalInterpolatedVelocityField vtkFunctionSet vtkStreamTracer */ #ifndef vtkCellLocatorInterpolatedVelocityField_h #define vtkCellLocatorInterpolatedVelocityField_h #include "vtkCompositeInterpolatedVelocityField.h" #include "vtkFiltersFlowPathsModule.h" // For export macro class vtkAbstractCellLocator; class vtkCellLocatorInterpolatedVelocityFieldCellLocatorsType; class VTKFILTERSFLOWPATHS_EXPORT vtkCellLocatorInterpolatedVelocityField : public vtkCompositeInterpolatedVelocityField { public: vtkTypeMacro(vtkCellLocatorInterpolatedVelocityField, vtkCompositeInterpolatedVelocityField); void PrintSelf(ostream& os, vtkIndent indent) override; /** * Construct a vtkCellLocatorInterpolatedVelocityField without an initial * dataset. Caching is set on and LastCellId is set to -1. */ static vtkCellLocatorInterpolatedVelocityField* New(); //@{ /** * Get the cell locator attached to the most recently visited dataset. */ vtkGetObjectMacro(LastCellLocator, vtkAbstractCellLocator); //@} //@{ /** * Set/Get the prototype of the cell locator that is used for interpolating * the velocity field during integration. The prototype is used to * instantiate locators for performing interpolation. By default, a * vtkModifiedBSPTree is used - other classes such as vtkStaticCellLocator * can be faster. */ void SetCellLocatorPrototype(vtkAbstractCellLocator* prototype); vtkGetObjectMacro(CellLocatorPrototype, vtkAbstractCellLocator); //@} /** * Import parameters. Sub-classes can add more after chaining. */ void CopyParameters(vtkAbstractInterpolatedVelocityField* from) override; /** * Add a dataset coupled with a cell locator (of type vtkAbstractCellLocator) * for vector function evaluation. Note the use of a vtkAbstractCellLocator * enables robust cell location. If more than one dataset is added, the * evaluation point is searched in all until a match is found. THIS FUNCTION * DOES NOT CHANGE THE REFERENCE COUNT OF dataset FOR THREAD SAFETY REASONS. */ void AddDataSet(vtkDataSet* dataset) override; using Superclass::FunctionValues; /** * Evaluate the velocity field f at point (x, y, z). */ int FunctionValues(double* x, double* f) override; /** * Set the cell id cached by the last evaluation within a specified dataset. */ void SetLastCellId(vtkIdType c, int dataindex) override; /** * Set the cell id cached by the last evaluation. */ void SetLastCellId(vtkIdType c) override { this->Superclass::SetLastCellId(c); } protected: vtkCellLocatorInterpolatedVelocityField(); ~vtkCellLocatorInterpolatedVelocityField() override; /** * Evaluate the velocity field f at point (x, y, z) in a specified dataset * (actually of type vtkPointSet only) through the use of the associated * vtkAbstractCellLocator::FindCell() (instead of involving vtkPointLocator) * to locate the next cell if the given point is outside the current cell. */ int FunctionValues(vtkDataSet* ds, vtkAbstractCellLocator* loc, double* x, double* f); /** * Evaluate the velocity field f at point (x, y, z) in a specified dataset * (of type vtkImageData or vtkRectilinearGrid only) by invoking FindCell() * to locate the next cell if the given point is outside the current cell. */ int FunctionValues(vtkDataSet* ds, double* x, double* f) override { return this->Superclass::FunctionValues(ds, x, f); } private: vtkAbstractCellLocator* LastCellLocator; vtkAbstractCellLocator* CellLocatorPrototype; vtkCellLocatorInterpolatedVelocityFieldCellLocatorsType* CellLocators; vtkCellLocatorInterpolatedVelocityField(const vtkCellLocatorInterpolatedVelocityField&) = delete; void operator=(const vtkCellLocatorInterpolatedVelocityField&) = delete; }; #endif