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441 lines
16 KiB
C++
441 lines
16 KiB
C++
// Copyright 2004, 2005 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: Douglas Gregor
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// Andrew Lumsdaine
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#ifndef BOOST_GRAPH_FRUCHTERMAN_REINGOLD_FORCE_DIRECTED_LAYOUT_HPP
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#define BOOST_GRAPH_FRUCHTERMAN_REINGOLD_FORCE_DIRECTED_LAYOUT_HPP
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#include <boost/config/no_tr1/cmath.hpp>
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#include <boost/graph/graph_traits.hpp>
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#include <boost/graph/named_function_params.hpp>
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#include <boost/graph/iteration_macros.hpp>
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#include <boost/graph/topology.hpp> // For topology concepts
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#include <vector>
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#include <list>
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#include <algorithm> // for std::min and std::max
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#include <numeric> // for std::accumulate
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#include <cmath> // for std::sqrt and std::fabs
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#include <functional>
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namespace boost {
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struct square_distance_attractive_force {
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template<typename Graph, typename T>
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T
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operator()(typename graph_traits<Graph>::edge_descriptor,
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T k,
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T d,
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const Graph&) const
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{
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return d * d / k;
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}
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};
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struct square_distance_repulsive_force {
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template<typename Graph, typename T>
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T
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operator()(typename graph_traits<Graph>::vertex_descriptor,
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typename graph_traits<Graph>::vertex_descriptor,
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T k,
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T d,
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const Graph&) const
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{
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return k * k / d;
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}
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};
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template<typename T>
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struct linear_cooling {
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typedef T result_type;
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linear_cooling(std::size_t iterations)
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: temp(T(iterations) / T(10)), step(0.1) { }
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linear_cooling(std::size_t iterations, T temp)
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: temp(temp), step(temp / T(iterations)) { }
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T operator()()
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{
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T old_temp = temp;
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temp -= step;
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if (temp < T(0)) temp = T(0);
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return old_temp;
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}
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private:
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T temp;
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T step;
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};
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struct all_force_pairs
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{
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template<typename Graph, typename ApplyForce >
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void operator()(const Graph& g, ApplyForce apply_force)
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{
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typedef typename graph_traits<Graph>::vertex_iterator vertex_iterator;
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vertex_iterator v, end;
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for (boost::tie(v, end) = vertices(g); v != end; ++v) {
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vertex_iterator u = v;
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for (++u; u != end; ++u) {
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apply_force(*u, *v);
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apply_force(*v, *u);
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}
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}
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}
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};
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template<typename Topology, typename PositionMap>
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struct grid_force_pairs
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{
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typedef typename property_traits<PositionMap>::value_type Point;
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BOOST_STATIC_ASSERT (Point::dimensions == 2);
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typedef typename Topology::point_difference_type point_difference_type;
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template<typename Graph>
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explicit
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grid_force_pairs(const Topology& topology,
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PositionMap position, const Graph& g)
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: topology(topology), position(position)
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{
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two_k = 2. * this->topology.volume(this->topology.extent()) / std::sqrt((double)num_vertices(g));
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}
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template<typename Graph, typename ApplyForce >
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void operator()(const Graph& g, ApplyForce apply_force)
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{
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typedef typename graph_traits<Graph>::vertex_iterator vertex_iterator;
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typedef typename graph_traits<Graph>::vertex_descriptor vertex_descriptor;
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typedef std::list<vertex_descriptor> bucket_t;
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typedef std::vector<bucket_t> buckets_t;
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std::size_t columns = std::size_t(topology.extent()[0] / two_k + 1.);
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std::size_t rows = std::size_t(topology.extent()[1] / two_k + 1.);
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buckets_t buckets(rows * columns);
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vertex_iterator v, v_end;
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for (boost::tie(v, v_end) = vertices(g); v != v_end; ++v) {
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std::size_t column =
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std::size_t((get(position, *v)[0] + topology.extent()[0] / 2) / two_k);
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std::size_t row =
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std::size_t((get(position, *v)[1] + topology.extent()[1] / 2) / two_k);
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if (column >= columns) column = columns - 1;
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if (row >= rows) row = rows - 1;
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buckets[row * columns + column].push_back(*v);
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}
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for (std::size_t row = 0; row < rows; ++row)
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for (std::size_t column = 0; column < columns; ++column) {
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bucket_t& bucket = buckets[row * columns + column];
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typedef typename bucket_t::iterator bucket_iterator;
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for (bucket_iterator u = bucket.begin(); u != bucket.end(); ++u) {
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// Repulse vertices in this bucket
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bucket_iterator v = u;
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for (++v; v != bucket.end(); ++v) {
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apply_force(*u, *v);
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apply_force(*v, *u);
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}
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std::size_t adj_start_row = row == 0? 0 : row - 1;
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std::size_t adj_end_row = row == rows - 1? row : row + 1;
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std::size_t adj_start_column = column == 0? 0 : column - 1;
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std::size_t adj_end_column = column == columns - 1? column : column + 1;
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for (std::size_t other_row = adj_start_row; other_row <= adj_end_row;
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++other_row)
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for (std::size_t other_column = adj_start_column;
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other_column <= adj_end_column; ++other_column)
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if (other_row != row || other_column != column) {
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// Repulse vertices in this bucket
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bucket_t& other_bucket
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= buckets[other_row * columns + other_column];
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for (v = other_bucket.begin(); v != other_bucket.end(); ++v) {
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double dist =
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topology.distance(get(position, *u), get(position, *v));
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if (dist < two_k) apply_force(*u, *v);
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}
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}
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}
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}
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}
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private:
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const Topology& topology;
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PositionMap position;
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double two_k;
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};
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template<typename PositionMap, typename Topology, typename Graph>
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inline grid_force_pairs<Topology, PositionMap>
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make_grid_force_pairs
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(const Topology& topology,
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const PositionMap& position, const Graph& g)
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{ return grid_force_pairs<Topology, PositionMap>(topology, position, g); }
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template<typename Graph, typename PositionMap, typename Topology>
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void
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scale_graph(const Graph& g, PositionMap position, const Topology& topology,
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typename Topology::point_type upper_left, typename Topology::point_type lower_right)
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{
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if (num_vertices(g) == 0) return;
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typedef typename Topology::point_type Point;
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typedef typename Topology::point_difference_type point_difference_type;
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// Find min/max ranges
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Point min_point = get(position, *vertices(g).first), max_point = min_point;
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BGL_FORALL_VERTICES_T(v, g, Graph) {
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min_point = topology.pointwise_min(min_point, get(position, v));
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max_point = topology.pointwise_max(max_point, get(position, v));
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}
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Point old_origin = topology.move_position_toward(min_point, 0.5, max_point);
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Point new_origin = topology.move_position_toward(upper_left, 0.5, lower_right);
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point_difference_type old_size = topology.difference(max_point, min_point);
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point_difference_type new_size = topology.difference(lower_right, upper_left);
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// Scale to bounding box provided
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BGL_FORALL_VERTICES_T(v, g, Graph) {
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point_difference_type relative_loc = topology.difference(get(position, v), old_origin);
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relative_loc = (relative_loc / old_size) * new_size;
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put(position, v, topology.adjust(new_origin, relative_loc));
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}
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}
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namespace detail {
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template<typename Topology, typename PropMap, typename Vertex>
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void
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maybe_jitter_point(const Topology& topology,
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const PropMap& pm, Vertex v,
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const typename Topology::point_type& p2)
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{
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double too_close = topology.norm(topology.extent()) / 10000.;
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if (topology.distance(get(pm, v), p2) < too_close) {
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put(pm, v,
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topology.move_position_toward(get(pm, v), 1./200,
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topology.random_point()));
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}
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}
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template<typename Topology, typename PositionMap, typename DisplacementMap,
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typename RepulsiveForce, typename Graph>
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struct fr_apply_force
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{
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typedef typename graph_traits<Graph>::vertex_descriptor vertex_descriptor;
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typedef typename Topology::point_type Point;
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typedef typename Topology::point_difference_type PointDiff;
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fr_apply_force(const Topology& topology,
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const PositionMap& position,
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const DisplacementMap& displacement,
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RepulsiveForce repulsive_force, double k, const Graph& g)
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: topology(topology), position(position), displacement(displacement),
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repulsive_force(repulsive_force), k(k), g(g)
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{ }
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void operator()(vertex_descriptor u, vertex_descriptor v)
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{
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if (u != v) {
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// When the vertices land on top of each other, move the
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// first vertex away from the boundaries.
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maybe_jitter_point(topology, position, u, get(position, v));
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double dist = topology.distance(get(position, u), get(position, v));
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typename Topology::point_difference_type dispv = get(displacement, v);
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if (dist == 0.) {
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for (std::size_t i = 0; i < Point::dimensions; ++i) {
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dispv[i] += 0.01;
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}
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} else {
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double fr = repulsive_force(u, v, k, dist, g);
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dispv += (fr / dist) *
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topology.difference(get(position, v), get(position, u));
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}
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put(displacement, v, dispv);
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}
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}
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private:
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const Topology& topology;
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PositionMap position;
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DisplacementMap displacement;
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RepulsiveForce repulsive_force;
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double k;
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const Graph& g;
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};
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} // end namespace detail
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template<typename Topology, typename Graph, typename PositionMap,
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typename AttractiveForce, typename RepulsiveForce,
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typename ForcePairs, typename Cooling, typename DisplacementMap>
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void
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fruchterman_reingold_force_directed_layout
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(const Graph& g,
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PositionMap position,
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const Topology& topology,
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AttractiveForce attractive_force,
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RepulsiveForce repulsive_force,
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ForcePairs force_pairs,
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Cooling cool,
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DisplacementMap displacement)
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{
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typedef typename graph_traits<Graph>::vertex_iterator vertex_iterator;
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typedef typename graph_traits<Graph>::vertex_descriptor vertex_descriptor;
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typedef typename graph_traits<Graph>::edge_iterator edge_iterator;
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double volume = topology.volume(topology.extent());
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// assume positions are initialized randomly
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double k = pow(volume / num_vertices(g), 1. / (double)(Topology::point_difference_type::dimensions));
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detail::fr_apply_force<Topology, PositionMap, DisplacementMap,
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RepulsiveForce, Graph>
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apply_force(topology, position, displacement, repulsive_force, k, g);
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do {
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// Calculate repulsive forces
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vertex_iterator v, v_end;
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for (boost::tie(v, v_end) = vertices(g); v != v_end; ++v)
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put(displacement, *v, typename Topology::point_difference_type());
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force_pairs(g, apply_force);
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// Calculate attractive forces
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edge_iterator e, e_end;
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for (boost::tie(e, e_end) = edges(g); e != e_end; ++e) {
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vertex_descriptor v = source(*e, g);
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vertex_descriptor u = target(*e, g);
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// When the vertices land on top of each other, move the
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// first vertex away from the boundaries.
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::boost::detail::maybe_jitter_point(topology, position, u, get(position, v));
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typename Topology::point_difference_type delta =
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topology.difference(get(position, v), get(position, u));
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double dist = topology.distance(get(position, u), get(position, v));
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double fa = attractive_force(*e, k, dist, g);
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put(displacement, v, get(displacement, v) - (fa / dist) * delta);
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put(displacement, u, get(displacement, u) + (fa / dist) * delta);
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}
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if (double temp = cool()) {
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// Update positions
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BGL_FORALL_VERTICES_T (v, g, Graph) {
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BOOST_USING_STD_MIN();
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BOOST_USING_STD_MAX();
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double disp_size = topology.norm(get(displacement, v));
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put(position, v, topology.adjust(get(position, v), get(displacement, v) * (min BOOST_PREVENT_MACRO_SUBSTITUTION (disp_size, temp) / disp_size)));
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put(position, v, topology.bound(get(position, v)));
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}
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} else {
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break;
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}
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} while (true);
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}
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namespace detail {
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template<typename DisplacementMap>
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struct fr_force_directed_layout
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{
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template<typename Topology, typename Graph, typename PositionMap,
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typename AttractiveForce, typename RepulsiveForce,
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typename ForcePairs, typename Cooling,
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typename Param, typename Tag, typename Rest>
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static void
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run(const Graph& g,
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PositionMap position,
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const Topology& topology,
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AttractiveForce attractive_force,
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RepulsiveForce repulsive_force,
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ForcePairs force_pairs,
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Cooling cool,
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DisplacementMap displacement,
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const bgl_named_params<Param, Tag, Rest>&)
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{
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fruchterman_reingold_force_directed_layout
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(g, position, topology, attractive_force, repulsive_force,
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force_pairs, cool, displacement);
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}
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};
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template<>
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struct fr_force_directed_layout<param_not_found>
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{
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template<typename Topology, typename Graph, typename PositionMap,
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typename AttractiveForce, typename RepulsiveForce,
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typename ForcePairs, typename Cooling,
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typename Param, typename Tag, typename Rest>
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static void
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run(const Graph& g,
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PositionMap position,
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const Topology& topology,
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AttractiveForce attractive_force,
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RepulsiveForce repulsive_force,
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ForcePairs force_pairs,
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Cooling cool,
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param_not_found,
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const bgl_named_params<Param, Tag, Rest>& params)
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{
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typedef typename Topology::point_difference_type PointDiff;
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std::vector<PointDiff> displacements(num_vertices(g));
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fruchterman_reingold_force_directed_layout
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(g, position, topology, attractive_force, repulsive_force,
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force_pairs, cool,
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make_iterator_property_map
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(displacements.begin(),
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choose_const_pmap(get_param(params, vertex_index), g,
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vertex_index),
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PointDiff()));
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}
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};
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} // end namespace detail
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template<typename Topology, typename Graph, typename PositionMap, typename Param,
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typename Tag, typename Rest>
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void
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fruchterman_reingold_force_directed_layout
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(const Graph& g,
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PositionMap position,
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const Topology& topology,
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const bgl_named_params<Param, Tag, Rest>& params)
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{
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typedef typename get_param_type<vertex_displacement_t, bgl_named_params<Param,Tag,Rest> >::type D;
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detail::fr_force_directed_layout<D>::run
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(g, position, topology,
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choose_param(get_param(params, attractive_force_t()),
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square_distance_attractive_force()),
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choose_param(get_param(params, repulsive_force_t()),
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square_distance_repulsive_force()),
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choose_param(get_param(params, force_pairs_t()),
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make_grid_force_pairs(topology, position, g)),
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choose_param(get_param(params, cooling_t()),
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linear_cooling<double>(100)),
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get_param(params, vertex_displacement_t()),
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params);
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}
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template<typename Topology, typename Graph, typename PositionMap>
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void
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fruchterman_reingold_force_directed_layout
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(const Graph& g,
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PositionMap position,
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const Topology& topology)
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{
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fruchterman_reingold_force_directed_layout
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(g, position, topology,
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attractive_force(square_distance_attractive_force()));
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}
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} // end namespace boost
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#ifdef BOOST_GRAPH_USE_MPI
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# include <boost/graph/distributed/fruchterman_reingold.hpp>
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#endif
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#endif // BOOST_GRAPH_FRUCHTERMAN_REINGOLD_FORCE_DIRECTED_LAYOUT_HPP
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