boost_1_45_0/libs/graph/example/subgraph.cpp - nest-learning-thermostat/5.0/boost - Git at Google

 //=======================================================================
 // Copyright 2001 University of Notre Dame.
 // Author: Jeremy G. Siek
 //
 // Distributed under the Boost Software License, Version 1.0. (See
 // accompanying file LICENSE_1_0.txt or copy at
 // http://www.boost.org/LICENSE_1_0.txt)
 //=======================================================================

 /*
   Sample output:

   G0:
   0 --> 1
   1 --> 2 3
   2 --> 5
   3 -->
   4 --> 1 5
   5 --> 3
   0(0,1) 1(1,2) 2(1,3) 6(2,5) 3(4,1) 4(4,5) 5(5,3)

   G1:
   2 --> 5
   4 --> 5
   5 -->
   6(2,5) 4(4,5)

   G2:
   0 --> 1
   1 -->
   0(0,1)

  */

 #include <boost/config.hpp>
 #include <iostream>
 #include <boost/graph/subgraph.hpp>
 #include <boost/graph/adjacency_list.hpp>
 #include <boost/graph/graph_utility.hpp>

 int main(int,char*[])
 {
   using namespace boost;
   typedef adjacency_list_traits<vecS, vecS, directedS> Traits;
   typedef subgraph< adjacency_list<vecS, vecS, directedS,
     property<vertex_color_t, int>, property<edge_index_t, int> > > Graph;

   const int N = 6;
   Graph G0(N);
   enum { A, B, C, D, E, F};     // for conveniently refering to vertices in G0

   Graph& G1 = G0.create_subgraph();
   Graph& G2 = G0.create_subgraph();
   enum { A1, B1, C1 };          // for conveniently refering to vertices in G1
   enum { A2, B2 };              // for conveniently refering to vertices in G2

   add_vertex(C, G1); // global vertex C becomes local A1 for G1
   add_vertex(E, G1); // global vertex E becomes local B1 for G1
   add_vertex(F, G1); // global vertex F becomes local C1 for G1

   add_vertex(A, G2); // global vertex A becomes local A1 for G2
   add_vertex(B, G2); // global vertex B becomes local B1 for G2

   add_edge(A, B, G0);
   add_edge(B, C, G0);
   add_edge(B, D, G0);
   add_edge(E, B, G0);
   add_edge(E, F, G0);
   add_edge(F, D, G0);

   add_edge(A1, C1, G1); // (A1,C1) is subgraph G1 local indices for (C,F).

   std::cout << "G0:" << std::endl;
   print_graph(G0, get(vertex_index, G0));
   print_edges2(G0, get(vertex_index, G0), get(edge_index, G0));
   std::cout << std::endl;

   Graph::children_iterator ci, ci_end;
   int num = 1;
   for (boost::tie(ci, ci_end) = G0.children(); ci != ci_end; ++ci) {
     std::cout << "G" << num++ << ":" << std::endl;
     print_graph(*ci, get(vertex_index, *ci));
     print_edges2(*ci, get(vertex_index, *ci), get(edge_index, *ci));
     std::cout << std::endl;
   }

   return 0;
 }
	//=======================================================================
	// Copyright 2001 University of Notre Dame.
	// Author: Jeremy G. Siek
	//
	// Distributed under the Boost Software License, Version 1.0. (See
	// accompanying file LICENSE_1_0.txt or copy at
	// http://www.boost.org/LICENSE_1_0.txt)
	//=======================================================================

	/*
	Sample output:

	G0:
	0 --> 1
	1 --> 2 3
	2 --> 5
	3 -->
	4 --> 1 5
	5 --> 3
	0(0,1) 1(1,2) 2(1,3) 6(2,5) 3(4,1) 4(4,5) 5(5,3)

	G1:
	2 --> 5
	4 --> 5
	5 -->
	6(2,5) 4(4,5)

	G2:
	0 --> 1
	1 -->
	0(0,1)

	*/

	#include <boost/config.hpp>
	#include <iostream>
	#include <boost/graph/subgraph.hpp>
	#include <boost/graph/adjacency_list.hpp>
	#include <boost/graph/graph_utility.hpp>

	int main(int,char*[])
	{
	using namespace boost;
	typedef adjacency_list_traits<vecS, vecS, directedS> Traits;
	typedef subgraph< adjacency_list<vecS, vecS, directedS,
	property<vertex_color_t, int>, property<edge_index_t, int> > > Graph;

	const int N = 6;
	Graph G0(N);
	enum { A, B, C, D, E, F}; // for conveniently refering to vertices in G0

	Graph& G1 = G0.create_subgraph();
	Graph& G2 = G0.create_subgraph();
	enum { A1, B1, C1 }; // for conveniently refering to vertices in G1
	enum { A2, B2 }; // for conveniently refering to vertices in G2

	add_vertex(C, G1); // global vertex C becomes local A1 for G1
	add_vertex(E, G1); // global vertex E becomes local B1 for G1
	add_vertex(F, G1); // global vertex F becomes local C1 for G1

	add_vertex(A, G2); // global vertex A becomes local A1 for G2
	add_vertex(B, G2); // global vertex B becomes local B1 for G2

	add_edge(A, B, G0);
	add_edge(B, C, G0);
	add_edge(B, D, G0);
	add_edge(E, B, G0);
	add_edge(E, F, G0);
	add_edge(F, D, G0);

	add_edge(A1, C1, G1); // (A1,C1) is subgraph G1 local indices for (C,F).

	std::cout << "G0:" << std::endl;
	print_graph(G0, get(vertex_index, G0));
	print_edges2(G0, get(vertex_index, G0), get(edge_index, G0));
	std::cout << std::endl;

	Graph::children_iterator ci, ci_end;
	int num = 1;
	for (boost::tie(ci, ci_end) = G0.children(); ci != ci_end; ++ci) {
	std::cout << "G" << num++ << ":" << std::endl;
	print_graph(ci, get(vertex_index, ci));
	print_edges2(ci, get(vertex_index, ci), get(edge_index, *ci));
	std::cout << std::endl;
	}

	return 0;
	}