 Boost C++ Libraries

...one of the most highly regarded and expertly designed C++ library projects in the world. Topologies for Graph Drawing

Synopsis

template<std::size_t Dims> class convex_topology;
template<std::size_t Dims, typename RandomNumberGenerator = minstd_rand> class hypercube_topology;
template<typename RandomNumberGenerator = minstd_rand> class square_topology;
template<typename RandomNumberGenerator = minstd_rand> class cube_topology;
template<std::size_t Dims, typename RandomNumberGenerator = minstd_rand> class ball_topology;
template<typename RandomNumberGenerator = minstd_rand> class circle_topology;
template<typename RandomNumberGenerator = minstd_rand> class sphere_topology;
template<typename RandomNumberGenerator = minstd_rand> class heart_topology;

Summary

Various topologies are provided that produce different, interesting results for graph layout algorithms. The square topology can be used for normal display of graphs or distributing vertices for parallel computation on a process array, for instance. Other topologies, such as the sphere topology (or N-dimensional ball topology) make sense for different problems, whereas the heart topology is just plain fun. One can also define a topology to suit other particular needs.

Topologies

A topology is a description of a space on which layout can be performed. Some common two, three, and multidimensional topologies are provided, or you may create your own so long as it meets the requirements of the Topology concept.

Topology Concept

Let Topology be a model of the Topology concept and let space be an object of type Topology. p1 and p2 are objects of associated type point_type (see below). The following expressions must be valid:
Expression Type Description
Topology::point_type type The type of points in the space.
space.random_point() point_type Returns a random point (usually uniformly distributed) within the space.
space.distance(p1, p2) double Get a quantity representing the distance between p1 and p2 using a path going completely inside the space. This only needs to have the same < relation as actual distances, and does not need to satisfy the other properties of a norm in a Banach space.
space.move_position_toward(p1, fraction, p2) point_type Returns a point that is a fraction of the way from p1 to p2, moving along a "line" in the space according to the distance measure. fraction is a double between 0 and 1, inclusive.

Class template convex_topology

Class template convex_topology implements the basic distance and point movement functions for any convex topology in Dims dimensions. It is not itself a topology, but is intended as a base class that any convex topology can derive from. The derived topology need only provide a suitable random_point function that returns a random point within the space.

template<std::size_t Dims>
class convex_topology
{
struct point
{
point() { }
double& operator[](std::size_t i) {return values[i];}
const double& operator[](std::size_t i) const {return values[i];}

private:
double values[Dims];
};

public:
typedef point point_type;

double distance(point a, point b) const;
point move_position_toward(point a, double fraction, point b) const;
};

Class template hypercube_topology

Class template hypercube_topology implements a Dims-dimensional hypercube. It is a convex topology whose points are drawn from a random number generator of type RandomNumberGenerator. The hypercube_topology can be constructed with a given random number generator; if omitted, a new, default-constructed random number generator will be used. The resulting layout will be contained within the hypercube, whose sides measure 2*scaling long (points will fall in the range [-scaling, scaling] in each dimension).

template<std::size_t Dims, typename RandomNumberGenerator = minstd_rand>
class hypercube_topology : public convex_topology<Dims>
{
public:
explicit hypercube_topology(double scaling = 1.0);
hypercube_topology(RandomNumberGenerator& gen, double scaling = 1.0);
point_type random_point() const;
};

Class template square_topology

Class template square_topology is a two-dimensional hypercube topology.

template<typename RandomNumberGenerator = minstd_rand>
class square_topology : public hypercube_topology<2, RandomNumberGenerator>
{
public:
explicit square_topology(double scaling = 1.0);
square_topology(RandomNumberGenerator& gen, double scaling = 1.0);
};

Class template cube_topology

Class template cube_topology is a three-dimensional hypercube topology.

template<typename RandomNumberGenerator = minstd_rand>
class cube_topology : public hypercube_topology<3, RandomNumberGenerator>
{
public:
explicit cube_topology(double scaling = 1.0);
cube_topology(RandomNumberGenerator& gen, double scaling = 1.0);
};

Class template ball_topology

Class template ball_topology implements a Dims-dimensional ball. It is a convex topology whose points are drawn from a random number generator of type RandomNumberGenerator but reside inside the ball. The ball_topology can be constructed with a given random number generator; if omitted, a new, default-constructed random number generator will be used. The resulting layout will be contained within the ball with the given radius.

template<std::size_t Dims, typename RandomNumberGenerator = minstd_rand>
class ball_topology : public convex_topology<Dims>
{
public:
ball_topology(RandomNumberGenerator& gen, double radius = 1.0);
point_type random_point() const;
};

Class template circle_topology

Class template circle_topology is a two-dimensional ball topology.

template<typename RandomNumberGenerator = minstd_rand>
class circle_topology : public ball_topology<2, RandomNumberGenerator>
{
public:
circle_topology(RandomNumberGenerator& gen, double radius = 1.0);
};

Class template sphere_topology

Class template sphere_topology is a three-dimensional ball topology.

template<typename RandomNumberGenerator = minstd_rand>
class sphere_topology : public ball_topology<3, RandomNumberGenerator>
{
public:
sphere_topology(RandomNumberGenerator& gen, double radius = 1.0);
};

Class template heart_topology

Class template heart_topology is topology in the shape of a heart. It serves as an example of a non-convex, nontrivial topology for layout.

template<typename RandomNumberGenerator = minstd_rand>
class heart_topology
{
public:
typedef unspecified point_type;

heart_topology();
heart_topology(RandomNumberGenerator& gen);
point_type random_point() const;
double distance(point_type a, point_type b) const;
point_type move_position_toward(point_type a, double fraction, point_type b) const;
};

 Copyright © 2004, 2010 Trustees of Indiana University Jeremiah Willcock, Indiana University () Doug Gregor, Indiana University () Andrew Lumsdaine, Indiana University ()