/*========================================================================= Program: Visualization Toolkit Module: $RCSfile: vtkTree.h,v $ 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. =========================================================================*/ /*------------------------------------------------------------------------- Copyright 2008 Sandia Corporation. Under the terms of Contract DE-AC04-94AL85000 with Sandia Corporation, the U.S. Government retains certain rights in this software. -------------------------------------------------------------------------*/ // .NAME vtkTree - A rooted tree data structure. // // .SECTION Description // vtkTree is a connected directed graph with no cycles. A tree is a type of // directed graph, so works with all graph algorithms. // // vtkTree is a read-only data structure. // To construct a tree, create an instance of vtkMutableDirectedGraph. // Add vertices and edges with AddVertex() and AddEdge(). You may alternately // start by adding a single vertex as the root then call graph->AddChild(parent) // which adds a new vertex and connects the parent to the child. // The tree MUST have all edges in the proper direction, from parent to child. // After building the tree, call tree->CheckedShallowCopy(graph) to copy the // structure into a vtkTree. This method will return false if the graph is // an invalid tree. // // vtkTree provides some convenience methods for obtaining the parent and // children of a vertex, for finding the root, and determining if a vertex // is a leaf (a vertex with no children). // // .SECTION See Also // vtkDirectedGraph vtkMutableDirectedGraph vtkGraph #ifndef __vtkTree_h #define __vtkTree_h #include "vtkDirectedAcyclicGraph.h" class vtkIdTypeArray; class VTK_FILTERING_EXPORT vtkTree : public vtkDirectedAcyclicGraph { public: static vtkTree *New(); vtkTypeRevisionMacro(vtkTree, vtkDirectedAcyclicGraph); void PrintSelf(ostream& os, vtkIndent indent); // Description: // Return what type of dataset this is. virtual int GetDataObjectType() {return VTK_TREE;} // Description: // Get the root vertex of the tree. vtkGetMacro(Root, vtkIdType); // Description: // Get the number of children of a vertex. vtkIdType GetNumberOfChildren(vtkIdType v) { return this->GetOutDegree(v); } // Description: // Get the i-th child of a parent vertex. vtkIdType GetChild(vtkIdType v, vtkIdType i); // Description: // Get the child vertices of a vertex. // This is a convenience method that functions exactly like // GetAdjacentVertices. void GetChildren(vtkIdType v, vtkAdjacentVertexIterator *it) { this->GetAdjacentVertices(v, it); } // Description: // Get the parent of a vertex. vtkIdType GetParent(vtkIdType v); // Description: // Get the edge connecting the vertex to its parent. //BTX vtkEdgeType GetParentEdge(vtkIdType v); //ETX // Description: // Get the level of the vertex in the tree. The root vertex has level 0. // Returns -1 if the vertex id is < 0 or greater than the number of vertices // in the tree. vtkIdType GetLevel(vtkIdType v); // Description: // Return whether the vertex is a leaf (i.e. it has no children). bool IsLeaf(vtkIdType vertex); //BTX // Description: // Retrieve a graph from an information vector. static vtkTree *GetData(vtkInformation *info); static vtkTree *GetData(vtkInformationVector *v, int i=0); //ETX // Description: // Reorder the children of a parent vertex. // The children array must contain all the children of parent, // just in a different order. // This does not change the topology of the tree. virtual void ReorderChildren(vtkIdType parent, vtkIdTypeArray *children); protected: vtkTree(); ~vtkTree(); // Description: // Check the storage, and accept it if it is a valid // tree. virtual bool IsStructureValid(vtkGraph *g); // Description: // The root of the tree. vtkIdType Root; private: vtkTree(const vtkTree&); // Not implemented. void operator=(const vtkTree&); // Not implemented. }; #endif