/*========================================================================= Program: Visualization Toolkit Module: vtkSPHCubicKernel.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 vtkSPHCubicKernel * @brief a cubic SPH interpolation kernel * * * vtkSPHCubicKernel is an smooth particle hydrodynamics interpolation kernel as * described by D.J. Price. This is a cubic formulation. * * @warning * For more information see D.J. Price, Smoothed particle hydrodynamics and * magnetohydrodynamics, J. Comput. Phys. 231:759-794, 2012. Especially * equation 49. * * @par Acknowledgments: * The following work has been generously supported by Altair Engineering * and FluiDyna GmbH. Please contact Steve Cosgrove or Milos Stanic for * more information. * * @sa * vtkSPHKernel vtkSPHInterpolator */ #ifndef vtkSPHCubicKernel_h #define vtkSPHCubicKernel_h #include "vtkFiltersPointsModule.h" // For export macro #include "vtkSPHKernel.h" #include // For std::min() class vtkIdList; class vtkDoubleArray; class VTKFILTERSPOINTS_EXPORT vtkSPHCubicKernel : public vtkSPHKernel { public: //@{ /** * Standard methods for instantiation, obtaining type information, and printing. */ static vtkSPHCubicKernel* New(); vtkTypeMacro(vtkSPHCubicKernel, vtkSPHKernel); void PrintSelf(ostream& os, vtkIndent indent) override; //@} /** * Produce the computational parameters for the kernel. Invoke this method * after setting initial values like SpatialStep. */ void Initialize(vtkAbstractPointLocator* loc, vtkDataSet* ds, vtkPointData* pd) override; //@{ /** * Compute weighting factor given a normalized distance from a sample point. */ double ComputeFunctionWeight(const double d) override { double tmp1 = 2.0 - std::min(d, 2.0); double tmp2 = 1.0 - std::min(d, 1.0); return (0.25 * tmp1 * tmp1 * tmp1 - tmp2 * tmp2 * tmp2); } //@} //@{ /** * Compute weighting factor for derivative quantities given a normalized * distance from a sample point. */ double ComputeDerivWeight(const double d) override { double tmp1 = 2.0 - std::min(d, 2.0); double tmp2 = 1.0 - std::min(d, 1.0); return (-0.75 * tmp1 * tmp1 + 3.0 * tmp2 * tmp2); } //@} protected: vtkSPHCubicKernel(); ~vtkSPHCubicKernel() override; private: vtkSPHCubicKernel(const vtkSPHCubicKernel&) = delete; void operator=(const vtkSPHCubicKernel&) = delete; }; #endif