/*========================================================================= Program: Visualization Toolkit Module: vtkDataObjectGenerator.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 vtkDataObjectGenerator * @brief produces simple (composite or atomic) data * sets for testing. * * vtkDataObjectGenerator parses a string and produces dataobjects from the * dataobject template names it sees in the string. For example, if the string * contains "ID1" the generator will create a vtkImageData. "UF1", "RG1", * "SG1", "PD1", and "UG1" will produce vtkUniformGrid, vtkRectilinearGrid, * vtkStructuredGrid, vtkPolyData and vtkUnstructuredGrid respectively. * "PD2" will produce an alternate vtkPolyData. You * can compose composite datasets from the atomic ones listed above * by placing them within one of the two composite dataset identifiers * - "MB{}" or "HB[]". "MB{ ID1 PD1 MB{} }" for example will create a * vtkMultiBlockDataSet consisting of three blocks: image data, poly data, * multi-block (empty). Hierarchical Box data sets additionally require * the notion of groups, declared within "()" braces, to specify AMR depth. * "HB[ (UF1)(UF1)(UF1) ]" will create a vtkHierarchicalBoxDataSet representing * an octree that is three levels deep, in which the firstmost cell in each level * is refined. */ #ifndef vtkDataObjectGenerator_h #define vtkDataObjectGenerator_h #include "vtkDataObjectAlgorithm.h" #include "vtkFiltersCoreModule.h" // For export macro class vtkInternalStructureCache; class VTKFILTERSCORE_EXPORT vtkDataObjectGenerator : public vtkDataObjectAlgorithm { public: static vtkDataObjectGenerator* New(); vtkTypeMacro(vtkDataObjectGenerator, vtkDataObjectAlgorithm); void PrintSelf(ostream& os, vtkIndent indent) override; //@{ /** * The string that will be parsed to specify a dataobject structure. */ vtkSetStringMacro(Program); vtkGetStringMacro(Program); //@} protected: vtkDataObjectGenerator(); ~vtkDataObjectGenerator() override; int RequestData( vtkInformation* req, vtkInformationVector** inV, vtkInformationVector* outV) override; int RequestDataObject( vtkInformation* req, vtkInformationVector** inV, vtkInformationVector* outV) override; int RequestInformation( vtkInformation* req, vtkInformationVector** inV, vtkInformationVector* outV) override; int RequestUpdateExtent( vtkInformation* req, vtkInformationVector** inV, vtkInformationVector* outV) override; // the string to parse to create a structure char* Program; // a record of the structure vtkInternalStructureCache* Structure; // Helper for RequestDataObject vtkDataObject* CreateOutputDataObjects(vtkInternalStructureCache* structure); // Helper for RequestData vtkDataObject* FillOutputDataObjects( vtkInternalStructureCache* structure, int level, int stripe = 0); // to determine which composite data stripe to fill in vtkIdType Rank; vtkIdType Processors; // create the templated atomic data sets void MakeImageData1(vtkDataSet* ds); void MakeImageData2(vtkDataSet* ds); void MakeUniformGrid1(vtkDataSet* ds); void MakeRectilinearGrid1(vtkDataSet* ds); void MakeStructuredGrid1(vtkDataSet* ds); void MakePolyData1(vtkDataSet* ds); void MakePolyData2(vtkDataSet* ds); void MakeUnstructuredGrid1(vtkDataSet* ds); void MakeUnstructuredGrid2(vtkDataSet* ds); void MakeUnstructuredGrid3(vtkDataSet* ds); void MakeUnstructuredGrid4(vtkDataSet* ds); // used to spatially separate sub data sets within composites double XOffset; // increases for each dataset index double YOffset; // increases for each sub data set double ZOffset; // increases for each group index // used to filling in point and cell values with unique Ids vtkIdType CellIdCounter; vtkIdType PointIdCounter; // assign point and cell values to each point and cell void MakeValues(vtkDataSet* ds); private: vtkDataObjectGenerator(const vtkDataObjectGenerator&) = delete; void operator=(const vtkDataObjectGenerator&) = delete; }; #endif