Empty is now a template, replaced RecursiveIterator with boost::counting_iterator
#include <algorithm>
#include <utility>
#include <boost/utility.hpp>
#include <iostream>
#include <utilities/log.h>
#ifdef LOGGING
static rlog::RLogChannel* rlRips = DEF_CHANNEL("rips/info", rlog::Log_Debug);
#endif // LOGGING
#ifdef COUNTERS
static Counter* cClique = GetCounter("rips/clique");
#endif // COUNTERS
template<class Distances_, class Simplex_>
struct Rips<Distances_, Simplex_>::ComparePair
{
ComparePair(const Distances& distances):
distances_(distances) {}
bool operator()(const std::pair<IndexType, IndexType>& a,
const std::pair<IndexType, IndexType>& b) { return distances_(a.first, a.second) <
distances_(b.first, b.second); }
const Distances& distances_;
};
template<class DistanceType_, class Simplex_>
void
Rips<DistanceType_, Simplex_>::
generate(Dimension k, DistanceType max)
{
// Order all the edges
typedef std::vector< std::pair<IndexType, IndexType> > EdgeVector;
EdgeVector edges;
for (IndexType a = distances_.begin(); a != distances_.end(); ++a)
{
Simplex ssx; ssx.add(a);
simplices_.push_back(ssx);
for (IndexType b = boost::next(a); b != distances_.end(); ++b)
{
if (distances_(a,b) <= max)
edges.push_back(std::make_pair(a,b));
}
}
std::sort(edges.begin(), edges.end(), ComparePair(distances_));
// Generate simplices
std::vector<std::vector<size_t> > vertex_star(distances_.size());
for(typename EdgeVector::const_iterator cur = edges.begin(); cur != edges.end(); ++cur)
{
rLog(rlRips, "Current edge: %d %d", cur->first, cur->second);
// Create the edge
Simplex edge; edge.add(cur->first); edge.add(cur->second);
simplices_.push_back(edge);
if (k <= 1) continue;
vertex_star[cur->first].push_back(simplices_.size() - 1);
vertex_star[cur->second].push_back(simplices_.size() - 1);
// Go through a star
size_t sz = vertex_star[cur->first].size() - 1;
for (size_t i = 0; i < sz; ++i)
{
const Simplex& ssx = simplices_[vertex_star[cur->first][i]];
rLog(rlRips, " %s", tostring(ssx).c_str());
bool accept = true;
for (typename Simplex::VertexContainer::const_iterator v = ssx.vertices().begin(); v != ssx.vertices().end(); ++v)
{
if (*v == cur->first) continue;
if ( distances_(*v, cur->second) > distances_(cur->first, cur->second) ||
((distances_(*v, cur->second) == distances_(cur->first, cur->second)) &&
(*v > cur->first)))
{
accept = false;
break;
}
}
if (accept)
{
Simplex tsx(ssx); tsx.add(cur->second);
simplices_.push_back(tsx);
rLog(rlRips, " Accepting: %s", tostring(tsx).c_str());
// Update stars
if (tsx.dimension() < k - 1)
for (typename Simplex::VertexContainer::const_iterator v = tsx.vertices().begin(); v != tsx.vertices().end(); ++v)
vertex_star[*v].push_back(simplices_.size() - 1);
}
}
}
}
template<class Distances_, class Simplex_>
void
Rips<Distances_, Simplex_>::
print() const
{
for (typename SimplexVector::const_iterator cur = simplices_.begin(); cur != simplices_.end(); ++cur)
std::cout << *cur << std::endl;
}
template<class Distances_, class Simplex_>
typename Rips<Distances_, Simplex_>::DistanceType
Rips<Distances_, Simplex_>::
max_distance() const
{
DistanceType mx = 0;
for (IndexType a = distances_.begin(); a != distances_.end(); ++a)
for (IndexType b = boost::next(a); b != distances_.end(); ++b)
mx = std::max(mx, distances_(a,b));
return mx;
}
template<class Distances_, class Simplex_>
typename Rips<Distances_, Simplex_>::DistanceType
Rips<Distances_, Simplex_>::Evaluator::
value(const Simplex& s) const
{
DistanceType mx = 0;
for (typename Simplex::VertexContainer::const_iterator a = s.vertices().begin(); a != s.vertices().end(); ++a)
for (typename Simplex::VertexContainer::const_iterator b = boost::next(a); b != s.vertices().end(); ++b)
mx = std::max(mx, distances_(*a,*b));
return mx;
}
template<class Distances_>
ExplicitDistances<Distances_>::
ExplicitDistances(const Distances& distances):
size_(distances.size()), distances_((distances.size() * (distances.size() + 1))/2)
{
IndexType i = 0;
for (typename Distances::IndexType a = distances.begin(); a != distances.end(); ++a)
for (typename Distances::IndexType b = a; b != distances.end(); ++b)
{
distances_[i++] = distances(a,b);
}
}
template<class Distances_>
typename ExplicitDistances<Distances_>::DistanceType
ExplicitDistances<Distances_>::
operator()(IndexType a, IndexType b) const
{
if (a > b) std::swap(a,b);
return distances_[a*size_ - ((a*(a-1))/2) + (b-a)];
}