boost_1_45_0/libs/graph/test/bundled_properties.cpp - nest-learning-thermostat/5.1.5/boost - Git at Google

 // Boost Graph library

 //  Copyright Douglas Gregor 2004. Use, modification and
 //  distribution is subject to 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)

 #include <boost/test/minimal.hpp>
 #include <boost/graph/adjacency_list.hpp>
 #include <boost/graph/adjacency_matrix.hpp>
 #include <boost/graph/filtered_graph.hpp>
 #include <boost/graph/subgraph.hpp>
 #include <string>
 #include <vector>
 #include <boost/graph/adjacency_list_io.hpp>
 #include <sstream>
 #include <boost/graph/iteration_macros.hpp>
 #include <algorithm>
 #include <iterator>

 using namespace std;
 using namespace boost;

 struct City
 {
   City() {}
   City(const std::string& name, int pop, int zipcode) : name(name), population(pop)
   {
     zipcodes.push_back(zipcode);
   }

   string name;
   int population;
   vector<int> zipcodes;
 };

 std::ostream& operator<<(std::ostream& out, const City& city)
 {
   out << city.name << ' ' << city.population << ' ';
   copy(city.zipcodes.begin(), city.zipcodes.end(),
        ostream_iterator<int>(out, " "));
   out << -1;
   return out;
 }

 std::istream& operator>>(std::istream& in, City& city)
 {
   if (in >> city.name >> city.population) {
     int zip;
     city.zipcodes.clear();
     while (in >> zip && zip != -1)
       city.zipcodes.push_back(zip);
   }
   return in;
 }

 bool operator==(const City& c1, const City& c2)
 {
   return (c1.name == c2.name && c1.population == c2.population
           && c1.zipcodes == c2.zipcodes);
 }

 struct Highway
 {
   Highway() {}
   Highway(const string& name, double miles, int speed_limit = 65, int lanes = 4, bool divided = true)
     : name(name), miles(miles), speed_limit(speed_limit), lanes(lanes), divided(divided) {}

   string name;
   double miles;
   int speed_limit;
   int lanes;
   bool divided;
 };

 std::ostream& operator<<(std::ostream& out, const Highway& highway)
 {
   return out << highway.name << ' ' << highway.miles << ' ' << highway.miles
              << ' ' << highway.speed_limit << ' ' << highway.lanes
              << ' ' << highway.divided;
 }

 std::istream& operator>>(std::istream& in, Highway& highway)
 {
   return in >> highway.name >> highway.miles >> highway.miles
             >> highway.speed_limit  >> highway.lanes
             >> highway.divided;
 }

 bool operator==(const Highway& h1, const Highway& h2)
 {
   return (h1.name == h2.name && h1.miles == h2.miles
           && h1.speed_limit == h2.speed_limit && h1.lanes == h2.lanes
           && h1.divided == h2.divided);
 }

 template<bool> struct truth {};

 template<typename Map, typename VertexIterator, typename Bundle>
 typename boost::graph_traits<Map>::vertex_descriptor
 do_add_vertex(Map& map, VertexIterator, const Bundle& bundle, truth<true>)
 {
   return add_vertex(bundle, map);
 }

 template<typename Map, typename VertexIterator, typename Bundle>
 typename boost::graph_traits<Map>::vertex_descriptor
 do_add_vertex(Map& map, VertexIterator& vi, const Bundle& bundle, truth<false>)
 {
   get(boost::vertex_bundle, map)[*vi] = bundle;
   return *vi++;
 }

 template<class EL, class VL, class D, class VP, class EP, class GP>
 void test_io(adjacency_list<EL,VL,D,VP,EP,GP>& map, int)
 {
   typedef adjacency_list<EL,VL,D,VP,EP,GP> Map;

   ostringstream out;
   cout << write(map);
   out << write(map);

   istringstream in(out.str());
   adjacency_list<EL,VL,D,VP,EP,GP> map2;
   in >> read(map2);
   typename graph_traits<adjacency_list<EL,VL,D,VP,EP,GP> >::vertex_iterator
     v2 = vertices(map2).first;
   BGL_FORALL_VERTICES_T(v, map, Map) {
     BOOST_CHECK(map[v] == map2[*v2]);
     typename graph_traits<adjacency_list<EL,VL,D,VP,EP,GP> >::out_edge_iterator
       e2 = out_edges(*v2, map2).first;
     BGL_FORALL_OUTEDGES_T(v, e, map, Map) {
       BOOST_CHECK(map[e] == map[*e2]);
       ++e2;
     }
     ++v2;
   }
 }

 template<typename Map>
 void test_io(const Map&, long)
 {
   // Nothing to test
 }

 template<typename Map, bool CanAddVertex>
 void test_bundled_properties(Map*, truth<CanAddVertex> can_add_vertex)
 {
   typedef typename boost::graph_traits<Map>::vertex_iterator   vertex_iterator;
   typedef typename boost::graph_traits<Map>::vertex_descriptor vertex_descriptor;
   typedef typename boost::graph_traits<Map>::edge_descriptor   edge_descriptor;

   Map map(CanAddVertex? 2 : 3);

   vertex_iterator vi = vertices(map).first;
   vertex_descriptor v = *vi;
   map[v].name = "Troy";
   map[v].population = 49170;
   map[v].zipcodes.push_back(12180);

   ++vi;
   vertex_descriptor u = *vi++;
   map[u].name = "Albany";
   map[u].population = 95658;
   map[u].zipcodes.push_back(12201);

   // Try adding a vertex with a property value
   vertex_descriptor bloomington = do_add_vertex(map, vi, City("Bloomington", 39000, 47401),
                                                 can_add_vertex);
   BOOST_CHECK(get(boost::vertex_bundle, map)[bloomington].zipcodes[0] == 47401);

   edge_descriptor e = add_edge(v, u, map).first;
   map[e].name = "I-87";
   map[e].miles = 10;
   map[e].speed_limit = 65;
   map[e].lanes = 4;
   map[e].divided = true;

   edge_descriptor our_trip = add_edge(v, bloomington, Highway("Long", 1000), map).first;
   BOOST_CHECK(get(boost::edge_bundle, map, our_trip).miles == 1000);

   BOOST_CHECK(get(get(&City::name, map), v) == "Troy");
   BOOST_CHECK(get(get(&Highway::name, map), e) == "I-87");
   BOOST_CHECK(get(&City::name, map, u) == "Albany");
   BOOST_CHECK(get(&Highway::name, map, e) == "I-87");
   put(&City::population, map, v, 49168);
   BOOST_CHECK(get(&City::population, map)[v] == 49168);

   boost::filtered_graph<Map, boost::keep_all> fmap(map, boost::keep_all());
   BOOST_CHECK(get(boost::edge_bundle, map, our_trip).miles == 1000);

   BOOST_CHECK(get(get(&City::name, fmap), v) == "Troy");
   BOOST_CHECK(get(get(&Highway::name, fmap), e) == "I-87");
   BOOST_CHECK(get(&City::name, fmap, u) == "Albany");
   BOOST_CHECK(get(&Highway::name, fmap, e) == "I-87");
   put(&City::population, fmap, v, 49169);
   BOOST_CHECK(get(&City::population, fmap)[v] == 49169);

   test_io(map, 0);
 }

 void test_subgraph_bundled_properties()
 {
   typedef boost::subgraph<
             boost::adjacency_list<boost::vecS, boost::vecS,
                                   boost::bidirectionalS, City,
                                   boost::property<boost::edge_index_t, int,
                                                   Highway> > > SubMap;
   typedef boost::graph_traits<SubMap>::vertex_descriptor Vertex;
   typedef boost::graph_traits<SubMap>::vertex_iterator vertex_iterator;

   SubMap map(3);
   vertex_iterator vi = vertices(map).first;
   Vertex troy = *vi++;
   map[troy].name = "Troy";
   map[*vi++].name = "Bloomington";
   map[*vi++].name = "Endicott";

   SubMap& g1 = map.create_subgraph();
   Vertex troy1 = add_vertex(*vertices(map).first, g1);
   BOOST_CHECK(map[troy1].name == g1[troy1].name);
 }

 int test_main(int, char*[])
 {
   typedef boost::adjacency_list<
     boost::listS, boost::vecS, boost::bidirectionalS,
     City, Highway> Map1;
   typedef boost::adjacency_matrix<boost::directedS,
     City, Highway> Map2;

   test_bundled_properties(static_cast<Map1*>(0), truth<true>());
   test_bundled_properties(static_cast<Map2*>(0), truth<false>());
   test_subgraph_bundled_properties();
   return 0;
 }
	// Boost Graph library

	// Copyright Douglas Gregor 2004. Use, modification and
	// distribution is subject to 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)

	#include <boost/test/minimal.hpp>
	#include <boost/graph/adjacency_list.hpp>
	#include <boost/graph/adjacency_matrix.hpp>
	#include <boost/graph/filtered_graph.hpp>
	#include <boost/graph/subgraph.hpp>
	#include <string>
	#include <vector>
	#include <boost/graph/adjacency_list_io.hpp>
	#include <sstream>
	#include <boost/graph/iteration_macros.hpp>
	#include <algorithm>
	#include <iterator>

	using namespace std;
	using namespace boost;

	struct City
	{
	City() {}
	City(const std::string& name, int pop, int zipcode) : name(name), population(pop)
	{
	zipcodes.push_back(zipcode);
	}

	string name;
	int population;
	vector<int> zipcodes;
	};

	std::ostream& operator<<(std::ostream& out, const City& city)
	{
	out << city.name << ' ' << city.population << ' ';
	copy(city.zipcodes.begin(), city.zipcodes.end(),
	ostream_iterator<int>(out, " "));
	out << -1;
	return out;
	}

	std::istream& operator>>(std::istream& in, City& city)
	{
	if (in >> city.name >> city.population) {
	int zip;
	city.zipcodes.clear();
	while (in >> zip && zip != -1)
	city.zipcodes.push_back(zip);
	}
	return in;
	}

	bool operator==(const City& c1, const City& c2)
	{
	return (c1.name == c2.name && c1.population == c2.population
	&& c1.zipcodes == c2.zipcodes);
	}

	struct Highway
	{
	Highway() {}
	Highway(const string& name, double miles, int speed_limit = 65, int lanes = 4, bool divided = true)
	: name(name), miles(miles), speed_limit(speed_limit), lanes(lanes), divided(divided) {}

	string name;
	double miles;
	int speed_limit;
	int lanes;
	bool divided;
	};

	std::ostream& operator<<(std::ostream& out, const Highway& highway)
	{
	return out << highway.name << ' ' << highway.miles << ' ' << highway.miles
	<< ' ' << highway.speed_limit << ' ' << highway.lanes
	<< ' ' << highway.divided;
	}

	std::istream& operator>>(std::istream& in, Highway& highway)
	{
	return in >> highway.name >> highway.miles >> highway.miles
	>> highway.speed_limit >> highway.lanes
	>> highway.divided;
	}

	bool operator==(const Highway& h1, const Highway& h2)
	{
	return (h1.name == h2.name && h1.miles == h2.miles
	&& h1.speed_limit == h2.speed_limit && h1.lanes == h2.lanes
	&& h1.divided == h2.divided);
	}

	template<bool> struct truth {};

	template<typename Map, typename VertexIterator, typename Bundle>
	typename boost::graph_traits<Map>::vertex_descriptor
	do_add_vertex(Map& map, VertexIterator, const Bundle& bundle, truth<true>)
	{
	return add_vertex(bundle, map);
	}

	template<typename Map, typename VertexIterator, typename Bundle>
	typename boost::graph_traits<Map>::vertex_descriptor
	do_add_vertex(Map& map, VertexIterator& vi, const Bundle& bundle, truth<false>)
	{
	get(boost::vertex_bundle, map)[*vi] = bundle;
	return *vi++;
	}

	template<class EL, class VL, class D, class VP, class EP, class GP>
	void test_io(adjacency_list<EL,VL,D,VP,EP,GP>& map, int)
	{
	typedef adjacency_list<EL,VL,D,VP,EP,GP> Map;

	ostringstream out;
	cout << write(map);
	out << write(map);

	istringstream in(out.str());
	adjacency_list<EL,VL,D,VP,EP,GP> map2;
	in >> read(map2);
	typename graph_traits<adjacency_list<EL,VL,D,VP,EP,GP> >::vertex_iterator
	v2 = vertices(map2).first;
	BGL_FORALL_VERTICES_T(v, map, Map) {
	BOOST_CHECK(map[v] == map2[*v2]);
	typename graph_traits<adjacency_list<EL,VL,D,VP,EP,GP> >::out_edge_iterator
	e2 = out_edges(*v2, map2).first;
	BGL_FORALL_OUTEDGES_T(v, e, map, Map) {
	BOOST_CHECK(map[e] == map[*e2]);
	++e2;
	}
	++v2;
	}
	}

	template<typename Map>
	void test_io(const Map&, long)
	{
	// Nothing to test
	}

	template<typename Map, bool CanAddVertex>
	void test_bundled_properties(Map*, truth<CanAddVertex> can_add_vertex)
	{
	typedef typename boost::graph_traits<Map>::vertex_iterator vertex_iterator;
	typedef typename boost::graph_traits<Map>::vertex_descriptor vertex_descriptor;
	typedef typename boost::graph_traits<Map>::edge_descriptor edge_descriptor;

	Map map(CanAddVertex? 2 : 3);

	vertex_iterator vi = vertices(map).first;
	vertex_descriptor v = *vi;
	map[v].name = "Troy";
	map[v].population = 49170;
	map[v].zipcodes.push_back(12180);

	++vi;
	vertex_descriptor u = *vi++;
	map[u].name = "Albany";
	map[u].population = 95658;
	map[u].zipcodes.push_back(12201);

	// Try adding a vertex with a property value
	vertex_descriptor bloomington = do_add_vertex(map, vi, City("Bloomington", 39000, 47401),
	can_add_vertex);
	BOOST_CHECK(get(boost::vertex_bundle, map)[bloomington].zipcodes[0] == 47401);

	edge_descriptor e = add_edge(v, u, map).first;
	map[e].name = "I-87";
	map[e].miles = 10;
	map[e].speed_limit = 65;
	map[e].lanes = 4;
	map[e].divided = true;

	edge_descriptor our_trip = add_edge(v, bloomington, Highway("Long", 1000), map).first;
	BOOST_CHECK(get(boost::edge_bundle, map, our_trip).miles == 1000);

	BOOST_CHECK(get(get(&City::name, map), v) == "Troy");
	BOOST_CHECK(get(get(&Highway::name, map), e) == "I-87");
	BOOST_CHECK(get(&City::name, map, u) == "Albany");
	BOOST_CHECK(get(&Highway::name, map, e) == "I-87");
	put(&City::population, map, v, 49168);
	BOOST_CHECK(get(&City::population, map)[v] == 49168);

	boost::filtered_graph<Map, boost::keep_all> fmap(map, boost::keep_all());
	BOOST_CHECK(get(boost::edge_bundle, map, our_trip).miles == 1000);

	BOOST_CHECK(get(get(&City::name, fmap), v) == "Troy");
	BOOST_CHECK(get(get(&Highway::name, fmap), e) == "I-87");
	BOOST_CHECK(get(&City::name, fmap, u) == "Albany");
	BOOST_CHECK(get(&Highway::name, fmap, e) == "I-87");
	put(&City::population, fmap, v, 49169);
	BOOST_CHECK(get(&City::population, fmap)[v] == 49169);

	test_io(map, 0);
	}

	void test_subgraph_bundled_properties()
	{
	typedef boost::subgraph<
	boost::adjacency_list<boost::vecS, boost::vecS,
	boost::bidirectionalS, City,
	boost::property<boost::edge_index_t, int,
	Highway> > > SubMap;
	typedef boost::graph_traits<SubMap>::vertex_descriptor Vertex;
	typedef boost::graph_traits<SubMap>::vertex_iterator vertex_iterator;

	SubMap map(3);
	vertex_iterator vi = vertices(map).first;
	Vertex troy = *vi++;
	map[troy].name = "Troy";
	map[*vi++].name = "Bloomington";
	map[*vi++].name = "Endicott";

	SubMap& g1 = map.create_subgraph();
	Vertex troy1 = add_vertex(*vertices(map).first, g1);
	BOOST_CHECK(map[troy1].name == g1[troy1].name);
	}

	int test_main(int, char*[])
	{
	typedef boost::adjacency_list<
	boost::listS, boost::vecS, boost::bidirectionalS,
	City, Highway> Map1;
	typedef boost::adjacency_matrix<boost::directedS,
	City, Highway> Map2;

	test_bundled_properties(static_cast<Map1*>(0), truth<true>());
	test_bundled_properties(static_cast<Map2*>(0), truth<false>());
	test_subgraph_bundled_properties();
	return 0;
	}