boost_1_45_0/libs/graph/test/test_construction.hpp - nest-learning-thermostat/5.0/boost - Git at Google

 // (C) Copyright 2009 Andrew Sutton
 //
 // Use, modification and distribution are subject to the
 // Boost Software License, Version 1.0 (See accompanying file
 // LICENSE_1_0.txt or http://www.boost.org/LICENSE_1_0.txt)

 #ifndef TEST_CONSTRUCTION_HPP
 #define TEST_CONSTRUCTION_HPP

 #include <utility>

 /** @name Build Graph
  * Build the standard graph structure used in the remaining tests. Depending
  * on the mutability traits of the graph G, this may or may not add N vertices
  * to graph. The Add and Label type parameters are used to dispatch a build
  * method for normal or labeled graphs.
  */
 //@{
 // This will basically catch adjacency matrices, which don't get built.
 template <typename Graph, typename Add, typename Label>
 void build_graph(Graph& g, Add, Label)
 { }

 // This matches MutableGraph, so just add some vertices.
 template <typename Graph>
 void build_graph(Graph& g, boost::mpl::true_, boost::mpl::false_) {
     using namespace boost;
     BOOST_CONCEPT_ASSERT((VertexListGraphConcept<Graph>));
     BOOST_CONCEPT_ASSERT((VertexMutableGraphConcept<Graph>));

     std::cout << "...build_normal\n";
     for(std::size_t i = 0; i < N; ++i) {
         add_vertex(g);
     }
     BOOST_ASSERT(num_vertices(g) == N);
 }

 // This will match labeled graphs.
 template <typename Graph>
 void build_graph(Graph& g, boost::mpl::false_, boost::mpl::true_) {
     using namespace boost;
     BOOST_CONCEPT_ASSERT((VertexListGraphConcept<Graph>));
     // BOOST_CONCEPT_ASSERT((VertexMutableGraphConcept<Graph>));

     std::cout << "...build_labeled\n";
     // Add each vertex labeled with the number i.
     for(std::size_t i = 0; i < N; ++i) {
         add_vertex(i, g);
     }
     BOOST_ASSERT(num_vertices(g) == N);
 }
 //@}

 /** @name Build Mutable
  * For mutable property graphs, try to add a vertex with a property. This test
  * actually builds a new graph - or at least tries to. We're not testing for
  * labeled graphs since that's actually done in build_graph above.
  */
 //@{
 template <typename Graph, typename Add, typename Label>
 void build_property_graph(Graph const& g, Add, Label)
 { }

 template <typename Graph>
 void build_property_graph(Graph const&, boost::mpl::true_, boost::mpl::false_) {
     using namespace boost;
     BOOST_CONCEPT_ASSERT((VertexMutablePropertyGraphConcept<Graph>));
     typedef typename vertex_property<Graph>::type VertexProp;

     std::cout << "...build mutable\n";

     // Start with clean graph. Nothing really to assert. Just make sure it
     // copmpiles.
     Graph h;
     add_vertex(VertexProp(), h);
 }
 //@}


 /** @name Connect Graph
  * Given a constructed graph, connect the edges to create a the standard
  * testing graph. To facilitate ease of use, we pass a vector of vertices
  * along with the graph such that v[0] -> *vertices(g).first, etc. The
  * Labeled type parameter is used to dispatch connection techniques for
  * normal or labled graphs.
  */
 //@{
 template <typename Graph, typename VertexSet>
 void connect_graph(Graph& g, VertexSet const& verts, boost::mpl::false_) {
     using namespace boost;
     BOOST_CONCEPT_ASSERT((AdjacencyMatrixConcept<Graph>));
     BOOST_CONCEPT_ASSERT((EdgeMutableGraphConcept<Graph>));

     std::cout << "...connect_normal\n";
     Pair *f, *l;
     for(tie(f, l) = edge_pairs(); f != l; ++f) {
         Pair const& e = *f;
         add_edge(verts[e.first], verts[e.second], g);
     }

     // Is the lollipop connected? Is the lollipop not connected to the roof?
     BOOST_ASSERT(edge(verts[5], verts[3], g).second == true);
     BOOST_ASSERT(edge(verts[5], verts[0], g).second == false);
 }

 template <typename Graph, typename VertexSet>
 void connect_graph(Graph& g, VertexSet const& verts, boost::mpl::true_) {
     using namespace boost;
     BOOST_CONCEPT_ASSERT((AdjacencyMatrixConcept<Graph>));
     // BOOST_CONCEPT_ASSERT((EdgeMutableGraphConcept<Graph>));

     std::cout << "...connect_labeled\n";
     // With labeled graphs, we want to operate directly on the edge numbers
     // rather than looking up the correct vertex index. This is because the
     // vertices are already mapped to indices.
     Pair* p = edge_pairs().first;
     for(std::size_t i = 0; i < M; ++i) {
         Pair const& e = p[i];
         add_edge_by_label(e.first, e.second, g);
     }

     // Is the lollipop connected?
     BOOST_ASSERT(edge_by_label(5, 3, g).second == true);
     BOOST_ASSERT(edge_by_label(5, 0, g).second == false);
 }
 //@}

 #endif
	// (C) Copyright 2009 Andrew Sutton
	//
	// Use, modification and distribution are subject to the
	// Boost Software License, Version 1.0 (See accompanying file
	// LICENSE_1_0.txt or http://www.boost.org/LICENSE_1_0.txt)

	#ifndef TEST_CONSTRUCTION_HPP
	#define TEST_CONSTRUCTION_HPP

	#include <utility>

	/** @name Build Graph
	* Build the standard graph structure used in the remaining tests. Depending
	* on the mutability traits of the graph G, this may or may not add N vertices
	* to graph. The Add and Label type parameters are used to dispatch a build
	* method for normal or labeled graphs.
	*/
	//@{
	// This will basically catch adjacency matrices, which don't get built.
	template <typename Graph, typename Add, typename Label>
	void build_graph(Graph& g, Add, Label)
	{ }

	// This matches MutableGraph, so just add some vertices.
	template <typename Graph>
	void build_graph(Graph& g, boost::mpl::true_, boost::mpl::false_) {
	using namespace boost;
	BOOST_CONCEPT_ASSERT((VertexListGraphConcept<Graph>));
	BOOST_CONCEPT_ASSERT((VertexMutableGraphConcept<Graph>));

	std::cout << "...build_normal\n";
	for(std::size_t i = 0; i < N; ++i) {
	add_vertex(g);
	}
	BOOST_ASSERT(num_vertices(g) == N);
	}

	// This will match labeled graphs.
	template <typename Graph>
	void build_graph(Graph& g, boost::mpl::false_, boost::mpl::true_) {
	using namespace boost;
	BOOST_CONCEPT_ASSERT((VertexListGraphConcept<Graph>));
	// BOOST_CONCEPT_ASSERT((VertexMutableGraphConcept<Graph>));

	std::cout << "...build_labeled\n";
	// Add each vertex labeled with the number i.
	for(std::size_t i = 0; i < N; ++i) {
	add_vertex(i, g);
	}
	BOOST_ASSERT(num_vertices(g) == N);
	}
	//@}

	/** @name Build Mutable
	* For mutable property graphs, try to add a vertex with a property. This test
	* actually builds a new graph - or at least tries to. We're not testing for
	* labeled graphs since that's actually done in build_graph above.
	*/
	//@{
	template <typename Graph, typename Add, typename Label>
	void build_property_graph(Graph const& g, Add, Label)
	{ }

	template <typename Graph>
	void build_property_graph(Graph const&, boost::mpl::true_, boost::mpl::false_) {
	using namespace boost;
	BOOST_CONCEPT_ASSERT((VertexMutablePropertyGraphConcept<Graph>));
	typedef typename vertex_property<Graph>::type VertexProp;

	std::cout << "...build mutable\n";

	// Start with clean graph. Nothing really to assert. Just make sure it
	// copmpiles.
	Graph h;
	add_vertex(VertexProp(), h);
	}
	//@}


	/** @name Connect Graph
	* Given a constructed graph, connect the edges to create a the standard
	* testing graph. To facilitate ease of use, we pass a vector of vertices
	* along with the graph such that v[0] -> *vertices(g).first, etc. The
	* Labeled type parameter is used to dispatch connection techniques for
	* normal or labled graphs.
	*/
	//@{
	template <typename Graph, typename VertexSet>
	void connect_graph(Graph& g, VertexSet const& verts, boost::mpl::false_) {
	using namespace boost;
	BOOST_CONCEPT_ASSERT((AdjacencyMatrixConcept<Graph>));
	BOOST_CONCEPT_ASSERT((EdgeMutableGraphConcept<Graph>));

	std::cout << "...connect_normal\n";
	Pair f, l;
	for(tie(f, l) = edge_pairs(); f != l; ++f) {
	Pair const& e = *f;
	add_edge(verts[e.first], verts[e.second], g);
	}

	// Is the lollipop connected? Is the lollipop not connected to the roof?
	BOOST_ASSERT(edge(verts[5], verts[3], g).second == true);
	BOOST_ASSERT(edge(verts[5], verts[0], g).second == false);
	}

	template <typename Graph, typename VertexSet>
	void connect_graph(Graph& g, VertexSet const& verts, boost::mpl::true_) {
	using namespace boost;
	BOOST_CONCEPT_ASSERT((AdjacencyMatrixConcept<Graph>));
	// BOOST_CONCEPT_ASSERT((EdgeMutableGraphConcept<Graph>));

	std::cout << "...connect_labeled\n";
	// With labeled graphs, we want to operate directly on the edge numbers
	// rather than looking up the correct vertex index. This is because the
	// vertices are already mapped to indices.
	Pair* p = edge_pairs().first;
	for(std::size_t i = 0; i < M; ++i) {
	Pair const& e = p[i];
	add_edge_by_label(e.first, e.second, g);
	}

	// Is the lollipop connected?
	BOOST_ASSERT(edge_by_label(5, 3, g).second == true);
	BOOST_ASSERT(edge_by_label(5, 0, g).second == false);
	}
	//@}

	#endif