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

 //=======================================================================
 // Copyright 2007 Aaron Windsor
 //
 // 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)
 //=======================================================================
 #include <iostream>
 #include <boost/graph/adjacency_list.hpp>
 #include <boost/graph/properties.hpp>
 #include <boost/graph/graph_traits.hpp>
 #include <boost/property_map/property_map.hpp>
 #include <vector>

 #include <boost/graph/planar_canonical_ordering.hpp>
 #include <boost/graph/is_straight_line_drawing.hpp>
 #include <boost/graph/chrobak_payne_drawing.hpp>
 #include <boost/graph/boyer_myrvold_planar_test.hpp>


 using namespace boost;

 //a class to hold the coordinates of the straight line embedding
 struct coord_t
 {
   std::size_t x;
   std::size_t y;
 };


 int main(int argc, char** argv)
 {
   typedef adjacency_list
     < vecS,
       vecS,
       undirectedS,
       property<vertex_index_t, int>
     > graph;


   //Define the storage type for the planar embedding
   typedef std::vector< std::vector< graph_traits<graph>::edge_descriptor > >
     embedding_storage_t;
   typedef boost::iterator_property_map
     < embedding_storage_t::iterator,
       property_map<graph, vertex_index_t>::type
     >
     embedding_t;


   // Create the graph - a maximal planar graph on 7 vertices. The functions
   // planar_canonical_ordering and chrobak_payne_straight_line_drawing both
   // require a maximal planar graph. If you start with a graph that isn't
   // maximal planar (or you're not sure), you can use the functions
   // make_connected, make_biconnected_planar, and make_maximal planar in
   // sequence to add a set of edges to any undirected planar graph to make
   // it maximal planar.

   graph g(7);
   add_edge(0,1,g);
   add_edge(1,2,g);
   add_edge(2,3,g);
   add_edge(3,0,g);
   add_edge(3,4,g);
   add_edge(4,5,g);
   add_edge(5,6,g);
   add_edge(6,3,g);
   add_edge(0,4,g);
   add_edge(1,3,g);
   add_edge(3,5,g);
   add_edge(2,6,g);
   add_edge(1,4,g);
   add_edge(1,5,g);
   add_edge(1,6,g);


   // Create the planar embedding
   embedding_storage_t embedding_storage(num_vertices(g));
   embedding_t embedding(embedding_storage.begin(), get(vertex_index,g));

   boyer_myrvold_planarity_test(boyer_myrvold_params::graph = g,
                                boyer_myrvold_params::embedding = embedding
                                );


   // Find a canonical ordering
   std::vector<graph_traits<graph>::vertex_descriptor> ordering;
   planar_canonical_ordering(g, embedding, std::back_inserter(ordering));


   //Set up a property map to hold the mapping from vertices to coord_t's
   typedef std::vector< coord_t > straight_line_drawing_storage_t;
   typedef boost::iterator_property_map
     < straight_line_drawing_storage_t::iterator,
       property_map<graph, vertex_index_t>::type
     >
     straight_line_drawing_t;

   straight_line_drawing_storage_t straight_line_drawing_storage
     (num_vertices(g));
   straight_line_drawing_t straight_line_drawing
     (straight_line_drawing_storage.begin(),
      get(vertex_index,g)
      );


   // Compute the straight line drawing
   chrobak_payne_straight_line_drawing(g,
                                       embedding,
                                       ordering.begin(),
                                       ordering.end(),
                                       straight_line_drawing
                                       );


   std::cout << "The straight line drawing is: " << std::endl;
   graph_traits<graph>::vertex_iterator vi, vi_end;
   for(tie(vi,vi_end) = vertices(g); vi != vi_end; ++vi)
     {
       coord_t coord(get(straight_line_drawing,*vi));
       std::cout << *vi << " -> (" << coord.x << ", " << coord.y << ")"
                 << std::endl;
     }

   // Verify that the drawing is actually a plane drawing
   if (is_straight_line_drawing(g, straight_line_drawing))
     std::cout << "Is a plane drawing." << std::endl;
   else
     std::cout << "Is not a plane drawing." << std::endl;

   return 0;
 }
	//=======================================================================
	// Copyright 2007 Aaron Windsor
	//
	// 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)
	//=======================================================================
	#include <iostream>
	#include <boost/graph/adjacency_list.hpp>
	#include <boost/graph/properties.hpp>
	#include <boost/graph/graph_traits.hpp>
	#include <boost/property_map/property_map.hpp>
	#include <vector>

	#include <boost/graph/planar_canonical_ordering.hpp>
	#include <boost/graph/is_straight_line_drawing.hpp>
	#include <boost/graph/chrobak_payne_drawing.hpp>
	#include <boost/graph/boyer_myrvold_planar_test.hpp>



	using namespace boost;

	//a class to hold the coordinates of the straight line embedding
	struct coord_t
	{
	std::size_t x;
	std::size_t y;
	};


	int main(int argc, char** argv)
	{
	typedef adjacency_list
	< vecS,
	vecS,
	undirectedS,
	property<vertex_index_t, int>
	> graph;



	//Define the storage type for the planar embedding
	typedef std::vector< std::vector< graph_traits<graph>::edge_descriptor > >
	embedding_storage_t;
	typedef boost::iterator_property_map
	< embedding_storage_t::iterator,
	property_map<graph, vertex_index_t>::type
	>
	embedding_t;



	// Create the graph - a maximal planar graph on 7 vertices. The functions
	// planar_canonical_ordering and chrobak_payne_straight_line_drawing both
	// require a maximal planar graph. If you start with a graph that isn't
	// maximal planar (or you're not sure), you can use the functions
	// make_connected, make_biconnected_planar, and make_maximal planar in
	// sequence to add a set of edges to any undirected planar graph to make
	// it maximal planar.

	graph g(7);
	add_edge(0,1,g);
	add_edge(1,2,g);
	add_edge(2,3,g);
	add_edge(3,0,g);
	add_edge(3,4,g);
	add_edge(4,5,g);
	add_edge(5,6,g);
	add_edge(6,3,g);
	add_edge(0,4,g);
	add_edge(1,3,g);
	add_edge(3,5,g);
	add_edge(2,6,g);
	add_edge(1,4,g);
	add_edge(1,5,g);
	add_edge(1,6,g);



	// Create the planar embedding
	embedding_storage_t embedding_storage(num_vertices(g));
	embedding_t embedding(embedding_storage.begin(), get(vertex_index,g));

	boyer_myrvold_planarity_test(boyer_myrvold_params::graph = g,
	boyer_myrvold_params::embedding = embedding
	);



	// Find a canonical ordering
	std::vector<graph_traits<graph>::vertex_descriptor> ordering;
	planar_canonical_ordering(g, embedding, std::back_inserter(ordering));


	//Set up a property map to hold the mapping from vertices to coord_t's
	typedef std::vector< coord_t > straight_line_drawing_storage_t;
	typedef boost::iterator_property_map
	< straight_line_drawing_storage_t::iterator,
	property_map<graph, vertex_index_t>::type
	>
	straight_line_drawing_t;

	straight_line_drawing_storage_t straight_line_drawing_storage
	(num_vertices(g));
	straight_line_drawing_t straight_line_drawing
	(straight_line_drawing_storage.begin(),
	get(vertex_index,g)
	);



	// Compute the straight line drawing
	chrobak_payne_straight_line_drawing(g,
	embedding,
	ordering.begin(),
	ordering.end(),
	straight_line_drawing
	);



	std::cout << "The straight line drawing is: " << std::endl;
	graph_traits<graph>::vertex_iterator vi, vi_end;
	for(tie(vi,vi_end) = vertices(g); vi != vi_end; ++vi)
	{
	coord_t coord(get(straight_line_drawing,*vi));
	std::cout << *vi << " -> (" << coord.x << ", " << coord.y << ")"
	<< std::endl;
	}

	// Verify that the drawing is actually a plane drawing
	if (is_straight_line_drawing(g, straight_line_drawing))
	std::cout << "Is a plane drawing." << std::endl;
	else
	std::cout << "Is not a plane drawing." << std::endl;

	return 0;
	}