//============================================================================ // Copyright (c) Kitware, Inc. // All rights reserved. // See LICENSE.txt 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. //============================================================================ #ifndef vtk_m_source_Wavelet_h #define vtk_m_source_Wavelet_h #include namespace vtkm { namespace source { /** * @brief The Wavelet source creates a dataset similar to VTK's * vtkRTAnalyticSource. * * This class generates a predictable structured dataset with a smooth yet * interesting set of scalars, which is useful for testing and benchmarking. * * The Execute method creates a complete structured dataset that have a * point field names 'scalars' * * The scalars are computed as: * * ``` * MaxVal * Gauss + MagX * sin(FrqX*x) + MagY * sin(FrqY*y) + MagZ * cos(FrqZ*z) * ``` * * The dataset properties are determined by: * - `Minimum/MaximumExtent`: The logical point extents of the dataset. * - `Spacing`: The distance between points of the dataset. * - `Center`: The center of the dataset. * * The scalar functions is control via: * - `Center`: The center of a Gaussian contribution to the scalars. * - `StandardDeviation`: The unscaled width of a Gaussian contribution. * - `MaximumValue`: Upper limit of the scalar range. * - `Frequency`: The Frq[XYZ] parameters of the periodic contributions. * - `Magnitude`: The Mag[XYZ] parameters of the periodic contributions. * * By default, the following parameters are used: * - `Extents`: { -10, -10, -10 } `-->` { 10, 10, 10 } * - `Spacing`: { 1, 1, 1 } * - `Center`: { 0, 0, 0 } * - `StandardDeviation`: 0.5 * - `MaximumValue`: 255 * - `Frequency`: { 60, 30, 40 } * - `Magnitude`: { 10, 18, 5 } */ class VTKM_SOURCE_EXPORT Wavelet final : public vtkm::source::Source { public: VTKM_CONT Wavelet(vtkm::Id3 minExtent = { -10 }, vtkm::Id3 maxExtent = { 10 }); VTKM_CONT void SetCenter(const vtkm::Vec& center) { this->Center = center; } VTKM_CONT void SetSpacing(const vtkm::Vec& spacing) { this->Spacing = spacing; } VTKM_CONT void SetFrequency(const vtkm::Vec& frequency) { this->Frequency = frequency; } VTKM_CONT void SetMagnitude(const vtkm::Vec& magnitude) { this->Magnitude = magnitude; } VTKM_CONT void SetMinimumExtent(const vtkm::Id3& minExtent) { this->MinimumExtent = minExtent; } VTKM_CONT void SetMaximumExtent(const vtkm::Id3& maxExtent) { this->MaximumExtent = maxExtent; } VTKM_CONT void SetExtent(const vtkm::Id3& minExtent, const vtkm::Id3& maxExtent) { this->MinimumExtent = minExtent; this->MaximumExtent = maxExtent; } VTKM_CONT void SetMaximumValue(const vtkm::FloatDefault& maxVal) { this->MaximumValue = maxVal; } VTKM_CONT void SetStandardDeviation(const vtkm::FloatDefault& stdev) { this->StandardDeviation = stdev; } vtkm::cont::DataSet Execute() const; private: vtkm::cont::Field GeneratePointField(const vtkm::cont::CellSetStructured<3>& cellset, const std::string& name) const; vtkm::Vec3f Center; vtkm::Vec3f Spacing; vtkm::Vec3f Frequency; vtkm::Vec3f Magnitude; vtkm::Id3 MinimumExtent; vtkm::Id3 MaximumExtent; vtkm::FloatDefault MaximumValue; vtkm::FloatDefault StandardDeviation; }; } //namespace source } //namespace vtkm #endif //vtk_m_source_Wavelet_h