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// Copyright 2004 The Trustees of Indiana University.
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// Distributed under the Boost Software License, Version 1.0.
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// (See accompanying file LICENSE_1_0.txt or copy at
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// http://www.boost.org/LICENSE_1_0.txt)
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// Authors: Jeremiah Willcock
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// Douglas Gregor
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// Andrew Lumsdaine
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#ifndef BOOST_GRAPH_GURSOY_ATUN_LAYOUT_HPP
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#define BOOST_GRAPH_GURSOY_ATUN_LAYOUT_HPP
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williamr@2
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// Gursoy-Atun graph layout, based on:
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// "Neighbourhood Preserving Load Balancing: A Self-Organizing Approach"
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// in EuroPar 2000, p. 234 of LNCS 1900
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// http://springerlink.metapress.com/link.asp?id=pcu07ew5rhexp9yt
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#include <cmath>
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#include <vector>
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#include <exception>
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#include <algorithm>
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#include <boost/graph/visitors.hpp>
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#include <boost/graph/properties.hpp>
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#include <boost/random/uniform_01.hpp>
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#include <boost/random/linear_congruential.hpp>
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#include <boost/shared_ptr.hpp>
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#include <boost/graph/breadth_first_search.hpp>
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#include <boost/graph/dijkstra_shortest_paths.hpp>
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#include <boost/graph/named_function_params.hpp>
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namespace boost {
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namespace detail {
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struct over_distance_limit : public std::exception {};
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template <typename PositionMap, typename NodeDistanceMap, typename Topology,
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typename Graph>
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struct update_position_visitor {
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typedef typename Topology::point_type Point;
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PositionMap position_map;
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NodeDistanceMap node_distance;
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const Topology& space;
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Point input_vector;
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double distance_limit;
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double learning_constant;
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double falloff_ratio;
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typedef boost::on_examine_vertex event_filter;
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typedef typename graph_traits<Graph>::vertex_descriptor
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vertex_descriptor;
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update_position_visitor(PositionMap position_map,
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NodeDistanceMap node_distance,
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const Topology& space,
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const Point& input_vector,
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double distance_limit,
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double learning_constant,
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double falloff_ratio):
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position_map(position_map), node_distance(node_distance),
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space(space),
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input_vector(input_vector), distance_limit(distance_limit),
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learning_constant(learning_constant), falloff_ratio(falloff_ratio) {}
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void operator()(vertex_descriptor v, const Graph&) const
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{
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#ifndef BOOST_NO_STDC_NAMESPACE
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using std::pow;
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#endif
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if (get(node_distance, v) > distance_limit)
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throw over_distance_limit();
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Point old_position = get(position_map, v);
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double distance = get(node_distance, v);
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double fraction =
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learning_constant * pow(falloff_ratio, distance * distance);
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put(position_map, v,
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space.move_position_toward(old_position, fraction, input_vector));
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}
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};
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template<typename EdgeWeightMap>
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struct gursoy_shortest
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{
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template<typename Graph, typename NodeDistanceMap, typename UpdatePosition>
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static inline void
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run(const Graph& g, typename graph_traits<Graph>::vertex_descriptor s,
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NodeDistanceMap node_distance, UpdatePosition& update_position,
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EdgeWeightMap weight)
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{
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boost::dijkstra_shortest_paths(g, s, weight_map(weight).
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visitor(boost::make_dijkstra_visitor(std::make_pair(
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boost::record_distances(node_distance, boost::on_edge_relaxed()),
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update_position))));
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}
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};
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template<>
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struct gursoy_shortest<dummy_property_map>
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{
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template<typename Graph, typename NodeDistanceMap, typename UpdatePosition>
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static inline void
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run(const Graph& g, typename graph_traits<Graph>::vertex_descriptor s,
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NodeDistanceMap node_distance, UpdatePosition& update_position,
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dummy_property_map)
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{
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boost::breadth_first_search(g, s,
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visitor(boost::make_bfs_visitor(std::make_pair(
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boost::record_distances(node_distance, boost::on_tree_edge()),
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update_position))));
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}
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};
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} // namespace detail
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template <typename VertexListAndIncidenceGraph, typename Topology,
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typename PositionMap, typename Diameter, typename VertexIndexMap,
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typename EdgeWeightMap>
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void
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gursoy_atun_step
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(const VertexListAndIncidenceGraph& graph,
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const Topology& space,
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PositionMap position,
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Diameter diameter,
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double learning_constant,
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VertexIndexMap vertex_index_map,
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EdgeWeightMap weight)
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{
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#ifndef BOOST_NO_STDC_NAMESPACE
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using std::pow;
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using std::exp;
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#endif
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typedef typename graph_traits<VertexListAndIncidenceGraph>::vertex_iterator
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vertex_iterator;
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typedef typename graph_traits<VertexListAndIncidenceGraph>::vertex_descriptor
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vertex_descriptor;
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typedef typename Topology::point_type point_type;
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vertex_iterator i, iend;
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std::vector<double> distance_from_input_vector(num_vertices(graph));
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typedef boost::iterator_property_map<std::vector<double>::iterator,
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VertexIndexMap,
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double, double&>
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DistanceFromInputMap;
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DistanceFromInputMap distance_from_input(distance_from_input_vector.begin(),
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vertex_index_map);
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std::vector<double> node_distance_map_vector(num_vertices(graph));
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typedef boost::iterator_property_map<std::vector<double>::iterator,
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VertexIndexMap,
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double, double&>
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NodeDistanceMap;
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NodeDistanceMap node_distance(node_distance_map_vector.begin(),
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vertex_index_map);
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point_type input_vector = space.random_point();
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vertex_descriptor min_distance_loc
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= graph_traits<VertexListAndIncidenceGraph>::null_vertex();
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double min_distance = 0.0;
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bool min_distance_unset = true;
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for (boost::tie(i, iend) = vertices(graph); i != iend; ++i) {
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double this_distance = space.distance(get(position, *i), input_vector);
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put(distance_from_input, *i, this_distance);
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if (min_distance_unset || this_distance < min_distance) {
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min_distance = this_distance;
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min_distance_loc = *i;
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}
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min_distance_unset = false;
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}
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assert (!min_distance_unset); // Graph must have at least one vertex
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boost::detail::update_position_visitor<
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PositionMap, NodeDistanceMap, Topology,
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VertexListAndIncidenceGraph>
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update_position(position, node_distance, space,
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input_vector, diameter, learning_constant,
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exp(-1. / (2 * diameter * diameter)));
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std::fill(node_distance_map_vector.begin(), node_distance_map_vector.end(), 0);
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try {
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typedef detail::gursoy_shortest<EdgeWeightMap> shortest;
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shortest::run(graph, min_distance_loc, node_distance, update_position,
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weight);
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} catch (detail::over_distance_limit) {
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/* Thrown to break out of BFS or Dijkstra early */
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}
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}
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template <typename VertexListAndIncidenceGraph, typename Topology,
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typename PositionMap, typename VertexIndexMap,
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typename EdgeWeightMap>
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void gursoy_atun_refine(const VertexListAndIncidenceGraph& graph,
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const Topology& space,
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PositionMap position,
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int nsteps,
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double diameter_initial,
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double diameter_final,
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double learning_constant_initial,
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double learning_constant_final,
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VertexIndexMap vertex_index_map,
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EdgeWeightMap weight)
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{
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#ifndef BOOST_NO_STDC_NAMESPACE
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using std::pow;
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using std::exp;
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#endif
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typedef typename graph_traits<VertexListAndIncidenceGraph>::vertex_iterator
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vertex_iterator;
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typedef typename graph_traits<VertexListAndIncidenceGraph>::vertex_descriptor
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vertex_descriptor;
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typedef typename Topology::point_type point_type;
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vertex_iterator i, iend;
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double diameter_ratio = (double)diameter_final / diameter_initial;
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double learning_constant_ratio =
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learning_constant_final / learning_constant_initial;
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std::vector<double> distance_from_input_vector(num_vertices(graph));
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typedef boost::iterator_property_map<std::vector<double>::iterator,
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VertexIndexMap,
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double, double&>
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DistanceFromInputMap;
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DistanceFromInputMap distance_from_input(distance_from_input_vector.begin(),
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vertex_index_map);
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std::vector<int> node_distance_map_vector(num_vertices(graph));
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typedef boost::iterator_property_map<std::vector<int>::iterator,
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VertexIndexMap, double, double&>
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NodeDistanceMap;
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NodeDistanceMap node_distance(node_distance_map_vector.begin(),
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vertex_index_map);
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for (int round = 0; round < nsteps; ++round) {
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double part_done = (double)round / (nsteps - 1);
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int diameter = (int)(diameter_initial * pow(diameter_ratio, part_done));
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double learning_constant =
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learning_constant_initial * pow(learning_constant_ratio, part_done);
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gursoy_atun_step(graph, space, position, diameter, learning_constant,
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vertex_index_map, weight);
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}
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}
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template <typename VertexListAndIncidenceGraph, typename Topology,
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typename PositionMap, typename VertexIndexMap,
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typename EdgeWeightMap>
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void gursoy_atun_layout(const VertexListAndIncidenceGraph& graph,
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const Topology& space,
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PositionMap position,
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int nsteps,
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double diameter_initial,
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double diameter_final,
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double learning_constant_initial,
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double learning_constant_final,
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VertexIndexMap vertex_index_map,
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EdgeWeightMap weight)
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{
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typedef typename graph_traits<VertexListAndIncidenceGraph>::vertex_iterator
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vertex_iterator;
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vertex_iterator i, iend;
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for (boost::tie(i, iend) = vertices(graph); i != iend; ++i) {
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put(position, *i, space.random_point());
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}
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gursoy_atun_refine(graph, space,
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williamr@2
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259 |
position, nsteps,
|
|
williamr@2
|
260 |
diameter_initial, diameter_final,
|
|
williamr@2
|
261 |
learning_constant_initial, learning_constant_final,
|
|
williamr@2
|
262 |
vertex_index_map, weight);
|
|
williamr@2
|
263 |
}
|
|
williamr@2
|
264 |
|
|
williamr@2
|
265 |
template <typename VertexListAndIncidenceGraph, typename Topology,
|
|
williamr@2
|
266 |
typename PositionMap, typename VertexIndexMap>
|
|
williamr@2
|
267 |
void gursoy_atun_layout(const VertexListAndIncidenceGraph& graph,
|
|
williamr@2
|
268 |
const Topology& space,
|
|
williamr@2
|
269 |
PositionMap position,
|
|
williamr@2
|
270 |
int nsteps,
|
|
williamr@2
|
271 |
double diameter_initial,
|
|
williamr@2
|
272 |
double diameter_final,
|
|
williamr@2
|
273 |
double learning_constant_initial,
|
|
williamr@2
|
274 |
double learning_constant_final,
|
|
williamr@2
|
275 |
VertexIndexMap vertex_index_map)
|
|
williamr@2
|
276 |
{
|
|
williamr@2
|
277 |
gursoy_atun_layout(graph, space, position, nsteps,
|
|
williamr@2
|
278 |
diameter_initial, diameter_final,
|
|
williamr@2
|
279 |
learning_constant_initial, learning_constant_final,
|
|
williamr@2
|
280 |
vertex_index_map, dummy_property_map());
|
|
williamr@2
|
281 |
}
|
|
williamr@2
|
282 |
|
|
williamr@2
|
283 |
template <typename VertexListAndIncidenceGraph, typename Topology,
|
|
williamr@2
|
284 |
typename PositionMap>
|
|
williamr@2
|
285 |
void gursoy_atun_layout(const VertexListAndIncidenceGraph& graph,
|
|
williamr@2
|
286 |
const Topology& space,
|
|
williamr@2
|
287 |
PositionMap position,
|
|
williamr@2
|
288 |
int nsteps,
|
|
williamr@2
|
289 |
double diameter_initial,
|
|
williamr@2
|
290 |
double diameter_final = 1.0,
|
|
williamr@2
|
291 |
double learning_constant_initial = 0.8,
|
|
williamr@2
|
292 |
double learning_constant_final = 0.2)
|
|
williamr@2
|
293 |
{
|
|
williamr@2
|
294 |
gursoy_atun_layout(graph, space, position, nsteps, diameter_initial,
|
|
williamr@2
|
295 |
diameter_final, learning_constant_initial,
|
|
williamr@2
|
296 |
learning_constant_final, get(vertex_index, graph));
|
|
williamr@2
|
297 |
}
|
|
williamr@2
|
298 |
|
|
williamr@2
|
299 |
template <typename VertexListAndIncidenceGraph, typename Topology,
|
|
williamr@2
|
300 |
typename PositionMap>
|
|
williamr@2
|
301 |
void gursoy_atun_layout(const VertexListAndIncidenceGraph& graph,
|
|
williamr@2
|
302 |
const Topology& space,
|
|
williamr@2
|
303 |
PositionMap position,
|
|
williamr@2
|
304 |
int nsteps)
|
|
williamr@2
|
305 |
{
|
|
williamr@2
|
306 |
#ifndef BOOST_NO_STDC_NAMESPACE
|
|
williamr@2
|
307 |
using std::sqrt;
|
|
williamr@2
|
308 |
#endif
|
|
williamr@2
|
309 |
|
|
williamr@2
|
310 |
gursoy_atun_layout(graph, space, position, nsteps,
|
|
williamr@2
|
311 |
sqrt((double)num_vertices(graph)));
|
|
williamr@2
|
312 |
}
|
|
williamr@2
|
313 |
|
|
williamr@2
|
314 |
template <typename VertexListAndIncidenceGraph, typename Topology,
|
|
williamr@2
|
315 |
typename PositionMap>
|
|
williamr@2
|
316 |
void gursoy_atun_layout(const VertexListAndIncidenceGraph& graph,
|
|
williamr@2
|
317 |
const Topology& space,
|
|
williamr@2
|
318 |
PositionMap position)
|
|
williamr@2
|
319 |
{
|
|
williamr@2
|
320 |
gursoy_atun_layout(graph, space, position, num_vertices(graph));
|
|
williamr@2
|
321 |
}
|
|
williamr@2
|
322 |
|
|
williamr@2
|
323 |
template<typename VertexListAndIncidenceGraph, typename Topology,
|
|
williamr@2
|
324 |
typename PositionMap, typename P, typename T, typename R>
|
|
williamr@2
|
325 |
void
|
|
williamr@2
|
326 |
gursoy_atun_layout(const VertexListAndIncidenceGraph& graph,
|
|
williamr@2
|
327 |
const Topology& space,
|
|
williamr@2
|
328 |
PositionMap position,
|
|
williamr@2
|
329 |
const bgl_named_params<P,T,R>& params)
|
|
williamr@2
|
330 |
{
|
|
williamr@2
|
331 |
#ifndef BOOST_NO_STDC_NAMESPACE
|
|
williamr@2
|
332 |
using std::sqrt;
|
|
williamr@2
|
333 |
#endif
|
|
williamr@2
|
334 |
|
|
williamr@2
|
335 |
std::pair<double, double> diam(sqrt(double(num_vertices(graph))), 1.0);
|
|
williamr@2
|
336 |
std::pair<double, double> learn(0.8, 0.2);
|
|
williamr@2
|
337 |
gursoy_atun_layout(graph, space, position,
|
|
williamr@2
|
338 |
choose_param(get_param(params, iterations_t()),
|
|
williamr@2
|
339 |
num_vertices(graph)),
|
|
williamr@2
|
340 |
choose_param(get_param(params, diameter_range_t()),
|
|
williamr@2
|
341 |
diam).first,
|
|
williamr@2
|
342 |
choose_param(get_param(params, diameter_range_t()),
|
|
williamr@2
|
343 |
diam).second,
|
|
williamr@2
|
344 |
choose_param(get_param(params, learning_constant_range_t()),
|
|
williamr@2
|
345 |
learn).first,
|
|
williamr@2
|
346 |
choose_param(get_param(params, learning_constant_range_t()),
|
|
williamr@2
|
347 |
learn).second,
|
|
williamr@2
|
348 |
choose_const_pmap(get_param(params, vertex_index), graph,
|
|
williamr@2
|
349 |
vertex_index),
|
|
williamr@2
|
350 |
choose_param(get_param(params, edge_weight),
|
|
williamr@2
|
351 |
dummy_property_map()));
|
|
williamr@2
|
352 |
}
|
|
williamr@2
|
353 |
|
|
williamr@2
|
354 |
/***********************************************************
|
|
williamr@2
|
355 |
* Topologies *
|
|
williamr@2
|
356 |
***********************************************************/
|
|
williamr@2
|
357 |
template<std::size_t Dims>
|
|
williamr@2
|
358 |
class convex_topology
|
|
williamr@2
|
359 |
{
|
|
williamr@2
|
360 |
struct point
|
|
williamr@2
|
361 |
{
|
|
williamr@2
|
362 |
point() { }
|
|
williamr@2
|
363 |
double& operator[](std::size_t i) {return values[i];}
|
|
williamr@2
|
364 |
const double& operator[](std::size_t i) const {return values[i];}
|
|
williamr@2
|
365 |
|
|
williamr@2
|
366 |
private:
|
|
williamr@2
|
367 |
double values[Dims];
|
|
williamr@2
|
368 |
};
|
|
williamr@2
|
369 |
|
|
williamr@2
|
370 |
public:
|
|
williamr@2
|
371 |
typedef point point_type;
|
|
williamr@2
|
372 |
|
|
williamr@2
|
373 |
double distance(point a, point b) const
|
|
williamr@2
|
374 |
{
|
|
williamr@2
|
375 |
double dist = 0;
|
|
williamr@2
|
376 |
for (std::size_t i = 0; i < Dims; ++i) {
|
|
williamr@2
|
377 |
double diff = b[i] - a[i];
|
|
williamr@2
|
378 |
dist += diff * diff;
|
|
williamr@2
|
379 |
}
|
|
williamr@2
|
380 |
// Exact properties of the distance are not important, as long as
|
|
williamr@2
|
381 |
// < on what this returns matches real distances
|
|
williamr@2
|
382 |
return dist;
|
|
williamr@2
|
383 |
}
|
|
williamr@2
|
384 |
|
|
williamr@2
|
385 |
point move_position_toward(point a, double fraction, point b) const
|
|
williamr@2
|
386 |
{
|
|
williamr@2
|
387 |
point result;
|
|
williamr@2
|
388 |
for (std::size_t i = 0; i < Dims; ++i)
|
|
williamr@2
|
389 |
result[i] = a[i] + (b[i] - a[i]) * fraction;
|
|
williamr@2
|
390 |
return result;
|
|
williamr@2
|
391 |
}
|
|
williamr@2
|
392 |
};
|
|
williamr@2
|
393 |
|
|
williamr@2
|
394 |
template<std::size_t Dims,
|
|
williamr@2
|
395 |
typename RandomNumberGenerator = minstd_rand>
|
|
williamr@2
|
396 |
class hypercube_topology : public convex_topology<Dims>
|
|
williamr@2
|
397 |
{
|
|
williamr@2
|
398 |
typedef uniform_01<RandomNumberGenerator, double> rand_t;
|
|
williamr@2
|
399 |
|
|
williamr@2
|
400 |
public:
|
|
williamr@2
|
401 |
typedef typename convex_topology<Dims>::point_type point_type;
|
|
williamr@2
|
402 |
|
|
williamr@2
|
403 |
explicit hypercube_topology(double scaling = 1.0)
|
|
williamr@2
|
404 |
: gen_ptr(new RandomNumberGenerator), rand(new rand_t(*gen_ptr)),
|
|
williamr@2
|
405 |
scaling(scaling)
|
|
williamr@2
|
406 |
{ }
|
|
williamr@2
|
407 |
|
|
williamr@2
|
408 |
hypercube_topology(RandomNumberGenerator& gen, double scaling = 1.0)
|
|
williamr@2
|
409 |
: gen_ptr(), rand(new rand_t(gen)), scaling(scaling) { }
|
|
williamr@2
|
410 |
|
|
williamr@2
|
411 |
point_type random_point() const
|
|
williamr@2
|
412 |
{
|
|
williamr@2
|
413 |
point_type p;
|
|
williamr@2
|
414 |
for (std::size_t i = 0; i < Dims; ++i)
|
|
williamr@2
|
415 |
p[i] = (*rand)() * scaling;
|
|
williamr@2
|
416 |
return p;
|
|
williamr@2
|
417 |
}
|
|
williamr@2
|
418 |
|
|
williamr@2
|
419 |
private:
|
|
williamr@2
|
420 |
shared_ptr<RandomNumberGenerator> gen_ptr;
|
|
williamr@2
|
421 |
shared_ptr<rand_t> rand;
|
|
williamr@2
|
422 |
double scaling;
|
|
williamr@2
|
423 |
};
|
|
williamr@2
|
424 |
|
|
williamr@2
|
425 |
template<typename RandomNumberGenerator = minstd_rand>
|
|
williamr@2
|
426 |
class square_topology : public hypercube_topology<2, RandomNumberGenerator>
|
|
williamr@2
|
427 |
{
|
|
williamr@2
|
428 |
typedef hypercube_topology<2, RandomNumberGenerator> inherited;
|
|
williamr@2
|
429 |
|
|
williamr@2
|
430 |
public:
|
|
williamr@2
|
431 |
explicit square_topology(double scaling = 1.0) : inherited(scaling) { }
|
|
williamr@2
|
432 |
|
|
williamr@2
|
433 |
square_topology(RandomNumberGenerator& gen, double scaling = 1.0)
|
|
williamr@2
|
434 |
: inherited(gen, scaling) { }
|
|
williamr@2
|
435 |
};
|
|
williamr@2
|
436 |
|
|
williamr@2
|
437 |
template<typename RandomNumberGenerator = minstd_rand>
|
|
williamr@2
|
438 |
class cube_topology : public hypercube_topology<3, RandomNumberGenerator>
|
|
williamr@2
|
439 |
{
|
|
williamr@2
|
440 |
typedef hypercube_topology<3, RandomNumberGenerator> inherited;
|
|
williamr@2
|
441 |
|
|
williamr@2
|
442 |
public:
|
|
williamr@2
|
443 |
explicit cube_topology(double scaling = 1.0) : inherited(scaling) { }
|
|
williamr@2
|
444 |
|
|
williamr@2
|
445 |
cube_topology(RandomNumberGenerator& gen, double scaling = 1.0)
|
|
williamr@2
|
446 |
: inherited(gen, scaling) { }
|
|
williamr@2
|
447 |
};
|
|
williamr@2
|
448 |
|
|
williamr@2
|
449 |
template<std::size_t Dims,
|
|
williamr@2
|
450 |
typename RandomNumberGenerator = minstd_rand>
|
|
williamr@2
|
451 |
class ball_topology : public convex_topology<Dims>
|
|
williamr@2
|
452 |
{
|
|
williamr@2
|
453 |
typedef uniform_01<RandomNumberGenerator, double> rand_t;
|
|
williamr@2
|
454 |
|
|
williamr@2
|
455 |
public:
|
|
williamr@2
|
456 |
typedef typename convex_topology<Dims>::point_type point_type;
|
|
williamr@2
|
457 |
|
|
williamr@2
|
458 |
explicit ball_topology(double radius = 1.0)
|
|
williamr@2
|
459 |
: gen_ptr(new RandomNumberGenerator), rand(new rand_t(*gen_ptr)),
|
|
williamr@2
|
460 |
radius(radius)
|
|
williamr@2
|
461 |
{ }
|
|
williamr@2
|
462 |
|
|
williamr@2
|
463 |
ball_topology(RandomNumberGenerator& gen, double radius = 1.0)
|
|
williamr@2
|
464 |
: gen_ptr(), rand(new rand_t(gen)), radius(radius) { }
|
|
williamr@2
|
465 |
|
|
williamr@2
|
466 |
point_type random_point() const
|
|
williamr@2
|
467 |
{
|
|
williamr@2
|
468 |
point_type p;
|
|
williamr@2
|
469 |
double dist_sum;
|
|
williamr@2
|
470 |
do {
|
|
williamr@2
|
471 |
dist_sum = 0.0;
|
|
williamr@2
|
472 |
for (std::size_t i = 0; i < Dims; ++i) {
|
|
williamr@2
|
473 |
double x = (*rand)() * 2*radius - radius;
|
|
williamr@2
|
474 |
p[i] = x;
|
|
williamr@2
|
475 |
dist_sum += x * x;
|
|
williamr@2
|
476 |
}
|
|
williamr@2
|
477 |
} while (dist_sum > radius*radius);
|
|
williamr@2
|
478 |
return p;
|
|
williamr@2
|
479 |
}
|
|
williamr@2
|
480 |
|
|
williamr@2
|
481 |
private:
|
|
williamr@2
|
482 |
shared_ptr<RandomNumberGenerator> gen_ptr;
|
|
williamr@2
|
483 |
shared_ptr<rand_t> rand;
|
|
williamr@2
|
484 |
double radius;
|
|
williamr@2
|
485 |
};
|
|
williamr@2
|
486 |
|
|
williamr@2
|
487 |
template<typename RandomNumberGenerator = minstd_rand>
|
|
williamr@2
|
488 |
class circle_topology : public ball_topology<2, RandomNumberGenerator>
|
|
williamr@2
|
489 |
{
|
|
williamr@2
|
490 |
typedef ball_topology<2, RandomNumberGenerator> inherited;
|
|
williamr@2
|
491 |
|
|
williamr@2
|
492 |
public:
|
|
williamr@2
|
493 |
explicit circle_topology(double radius = 1.0) : inherited(radius) { }
|
|
williamr@2
|
494 |
|
|
williamr@2
|
495 |
circle_topology(RandomNumberGenerator& gen, double radius = 1.0)
|
|
williamr@2
|
496 |
: inherited(gen, radius) { }
|
|
williamr@2
|
497 |
};
|
|
williamr@2
|
498 |
|
|
williamr@2
|
499 |
template<typename RandomNumberGenerator = minstd_rand>
|
|
williamr@2
|
500 |
class sphere_topology : public ball_topology<3, RandomNumberGenerator>
|
|
williamr@2
|
501 |
{
|
|
williamr@2
|
502 |
typedef ball_topology<3, RandomNumberGenerator> inherited;
|
|
williamr@2
|
503 |
|
|
williamr@2
|
504 |
public:
|
|
williamr@2
|
505 |
explicit sphere_topology(double radius = 1.0) : inherited(radius) { }
|
|
williamr@2
|
506 |
|
|
williamr@2
|
507 |
sphere_topology(RandomNumberGenerator& gen, double radius = 1.0)
|
|
williamr@2
|
508 |
: inherited(gen, radius) { }
|
|
williamr@2
|
509 |
};
|
|
williamr@2
|
510 |
|
|
williamr@2
|
511 |
template<typename RandomNumberGenerator = minstd_rand>
|
|
williamr@2
|
512 |
class heart_topology
|
|
williamr@2
|
513 |
{
|
|
williamr@2
|
514 |
// Heart is defined as the union of three shapes:
|
|
williamr@2
|
515 |
// Square w/ corners (+-1000, -1000), (0, 0), (0, -2000)
|
|
williamr@2
|
516 |
// Circle centered at (-500, -500) radius 500*sqrt(2)
|
|
williamr@2
|
517 |
// Circle centered at (500, -500) radius 500*sqrt(2)
|
|
williamr@2
|
518 |
// Bounding box (-1000, -2000) - (1000, 500*(sqrt(2) - 1))
|
|
williamr@2
|
519 |
|
|
williamr@2
|
520 |
struct point
|
|
williamr@2
|
521 |
{
|
|
williamr@2
|
522 |
point() { values[0] = 0.0; values[1] = 0.0; }
|
|
williamr@2
|
523 |
point(double x, double y) { values[0] = x; values[1] = y; }
|
|
williamr@2
|
524 |
|
|
williamr@2
|
525 |
double& operator[](std::size_t i) { return values[i]; }
|
|
williamr@2
|
526 |
double operator[](std::size_t i) const { return values[i]; }
|
|
williamr@2
|
527 |
|
|
williamr@2
|
528 |
private:
|
|
williamr@2
|
529 |
double values[2];
|
|
williamr@2
|
530 |
};
|
|
williamr@2
|
531 |
|
|
williamr@2
|
532 |
bool in_heart(point p) const
|
|
williamr@2
|
533 |
{
|
|
williamr@2
|
534 |
#ifndef BOOST_NO_STDC_NAMESPACE
|
|
williamr@2
|
535 |
using std::abs;
|
|
williamr@2
|
536 |
using std::pow;
|
|
williamr@2
|
537 |
#endif
|
|
williamr@2
|
538 |
|
|
williamr@2
|
539 |
if (p[1] < abs(p[0]) - 2000) return false; // Bottom
|
|
williamr@2
|
540 |
if (p[1] <= -1000) return true; // Diagonal of square
|
|
williamr@2
|
541 |
if (pow(p[0] - -500, 2) + pow(p[1] - -500, 2) <= 500000)
|
|
williamr@2
|
542 |
return true; // Left circle
|
|
williamr@2
|
543 |
if (pow(p[0] - 500, 2) + pow(p[1] - -500, 2) <= 500000)
|
|
williamr@2
|
544 |
return true; // Right circle
|
|
williamr@2
|
545 |
return false;
|
|
williamr@2
|
546 |
}
|
|
williamr@2
|
547 |
|
|
williamr@2
|
548 |
bool segment_within_heart(point p1, point p2) const
|
|
williamr@2
|
549 |
{
|
|
williamr@2
|
550 |
// Assumes that p1 and p2 are within the heart
|
|
williamr@2
|
551 |
if ((p1[0] < 0) == (p2[0] < 0)) return true; // Same side of symmetry line
|
|
williamr@2
|
552 |
if (p1[0] == p2[0]) return true; // Vertical
|
|
williamr@2
|
553 |
double slope = (p2[1] - p1[1]) / (p2[0] - p1[0]);
|
|
williamr@2
|
554 |
double intercept = p1[1] - p1[0] * slope;
|
|
williamr@2
|
555 |
if (intercept > 0) return false; // Crosses between circles
|
|
williamr@2
|
556 |
return true;
|
|
williamr@2
|
557 |
}
|
|
williamr@2
|
558 |
|
|
williamr@2
|
559 |
typedef uniform_01<RandomNumberGenerator, double> rand_t;
|
|
williamr@2
|
560 |
|
|
williamr@2
|
561 |
public:
|
|
williamr@2
|
562 |
typedef point point_type;
|
|
williamr@2
|
563 |
|
|
williamr@2
|
564 |
heart_topology()
|
|
williamr@2
|
565 |
: gen_ptr(new RandomNumberGenerator), rand(new rand_t(*gen_ptr)) { }
|
|
williamr@2
|
566 |
|
|
williamr@2
|
567 |
heart_topology(RandomNumberGenerator& gen)
|
|
williamr@2
|
568 |
: gen_ptr(), rand(new rand_t(gen)) { }
|
|
williamr@2
|
569 |
|
|
williamr@2
|
570 |
point random_point() const
|
|
williamr@2
|
571 |
{
|
|
williamr@2
|
572 |
#ifndef BOOST_NO_STDC_NAMESPACE
|
|
williamr@2
|
573 |
using std::sqrt;
|
|
williamr@2
|
574 |
#endif
|
|
williamr@2
|
575 |
|
|
williamr@2
|
576 |
point result;
|
|
williamr@2
|
577 |
double sqrt2 = sqrt(2.);
|
|
williamr@2
|
578 |
do {
|
|
williamr@2
|
579 |
result[0] = (*rand)() * (1000 + 1000 * sqrt2) - (500 + 500 * sqrt2);
|
|
williamr@2
|
580 |
result[1] = (*rand)() * (2000 + 500 * (sqrt2 - 1)) - 2000;
|
|
williamr@2
|
581 |
} while (!in_heart(result));
|
|
williamr@2
|
582 |
return result;
|
|
williamr@2
|
583 |
}
|
|
williamr@2
|
584 |
|
|
williamr@2
|
585 |
double distance(point a, point b) const
|
|
williamr@2
|
586 |
{
|
|
williamr@2
|
587 |
#ifndef BOOST_NO_STDC_NAMESPACE
|
|
williamr@2
|
588 |
using std::sqrt;
|
|
williamr@2
|
589 |
#endif
|
|
williamr@2
|
590 |
if (segment_within_heart(a, b)) {
|
|
williamr@2
|
591 |
// Straight line
|
|
williamr@2
|
592 |
return sqrt((b[0] - a[0]) * (b[0] - a[0]) + (b[1] - a[1]) * (b[1] - a[1]));
|
|
williamr@2
|
593 |
} else {
|
|
williamr@2
|
594 |
// Straight line bending around (0, 0)
|
|
williamr@2
|
595 |
return sqrt(a[0] * a[0] + a[1] * a[1]) + sqrt(b[0] * b[0] + b[1] * b[1]);
|
|
williamr@2
|
596 |
}
|
|
williamr@2
|
597 |
}
|
|
williamr@2
|
598 |
|
|
williamr@2
|
599 |
point move_position_toward(point a, double fraction, point b) const
|
|
williamr@2
|
600 |
{
|
|
williamr@2
|
601 |
#ifndef BOOST_NO_STDC_NAMESPACE
|
|
williamr@2
|
602 |
using std::sqrt;
|
|
williamr@2
|
603 |
#endif
|
|
williamr@2
|
604 |
|
|
williamr@2
|
605 |
if (segment_within_heart(a, b)) {
|
|
williamr@2
|
606 |
// Straight line
|
|
williamr@2
|
607 |
return point(a[0] + (b[0] - a[0]) * fraction,
|
|
williamr@2
|
608 |
a[1] + (b[1] - a[1]) * fraction);
|
|
williamr@2
|
609 |
} else {
|
|
williamr@2
|
610 |
double distance_to_point_a = sqrt(a[0] * a[0] + a[1] * a[1]);
|
|
williamr@2
|
611 |
double distance_to_point_b = sqrt(b[0] * b[0] + b[1] * b[1]);
|
|
williamr@2
|
612 |
double location_of_point = distance_to_point_a /
|
|
williamr@2
|
613 |
(distance_to_point_a + distance_to_point_b);
|
|
williamr@2
|
614 |
if (fraction < location_of_point)
|
|
williamr@2
|
615 |
return point(a[0] * (1 - fraction / location_of_point),
|
|
williamr@2
|
616 |
a[1] * (1 - fraction / location_of_point));
|
|
williamr@2
|
617 |
else
|
|
williamr@2
|
618 |
return point(
|
|
williamr@2
|
619 |
b[0] * ((fraction - location_of_point) / (1 - location_of_point)),
|
|
williamr@2
|
620 |
b[1] * ((fraction - location_of_point) / (1 - location_of_point)));
|
|
williamr@2
|
621 |
}
|
|
williamr@2
|
622 |
}
|
|
williamr@2
|
623 |
|
|
williamr@2
|
624 |
private:
|
|
williamr@2
|
625 |
shared_ptr<RandomNumberGenerator> gen_ptr;
|
|
williamr@2
|
626 |
shared_ptr<rand_t> rand;
|
|
williamr@2
|
627 |
};
|
|
williamr@2
|
628 |
|
|
williamr@2
|
629 |
} // namespace boost
|
|
williamr@2
|
630 |
|
|
williamr@2
|
631 |
#endif // BOOST_GRAPH_GURSOY_ATUN_LAYOUT_HPP
|