Created pl-vineyard.cpp to compute vineyards given a complex and a sequence of values at each vertex
/* Implementations */
#include <fstream>
#include <sstream>
#include "utilities/log.h"
#ifdef LOGGING
static rlog::RLogChannel* rlVineyard = DEF_CHANNEL("topology/vineyard", rlog::Log_Debug);
#endif // LOGGING
template<class I, class It, class E>
void
Vineyard<I,It,E>::
start_vines(Iterator bg, Iterator end)
{
AssertMsg(evaluator != 0, "Cannot start vines with a null evaluator");
for (Iterator cur = bg; cur != end; ++cur)
{
if (!cur->sign()) continue;
Dimension dim = evaluator->dimension(cur);
if (dim >= vines.size())
{
AssertMsg(dim == vines.size(), "New dimension has to be contiguous");
vines.push_back(VineList());
vines_vector.push_back(boost::prior(vines.end()));
}
start_vine(cur);
record_knee(cur);
}
}
template<class I, class It, class E>
void
Vineyard<I,It,E>::
switched(Index i, Index j)
{
rLog(rlVineyard, "Switching vines");
Vine* i_vine = i->vine();
Vine* j_vine = j->vine();
i->set_vine(j_vine);
j->set_vine(i_vine);
// rLog(rlVineyard, " %x %x %x %x", i->pair, i->pair->pair, j->pair, j->pair->pair);
// rLog(rlVineyard, " %x %x %x %x", i_vine, i->pair->vine(), j_vine, j->pair->vine());
// Since the pairing has already been updated, the following assertions should be true
AssertMsg(i->vine() == i->pair->vine(), "i's vine must match the vine of its pair");
AssertMsg(j->vine() == j->pair->vine(), "j's vine must match the vine of its pair");
if (!i->sign()) i = i->pair;
if (!j->sign()) j = j->pair;
// std::cout << "i sign: " << i->sign() << std::endl;
// std::cout << "j sign: " << j->sign() << std::endl;
record_knee(i);
record_knee(j);
}
template<class I, class It, class E>
template<class Iter>
void
Vineyard<I,It,E>::
start_vine(Iter i)
{
rLog(rlVineyard, "Starting new vine");
AssertMsg(i->sign(), "Can only start vines for positive simplices");
Dimension dim = evaluator->dimension(i);
vines_vector[dim]->push_back(Vine());
i->set_vine(&vines_vector[dim]->back());
i->pair->set_vine(i->vine());
}
/// Records the current diagram in the vineyard
template<class I, class It, class E>
void
Vineyard<I,It,E>::
record_diagram(Iterator bg, Iterator end)
{
rLog(rlVineyard, "Entered: record_diagram()");
AssertMsg(evaluator != 0, "Cannot record diagram with a null evaluator");
for (Iterator i = bg; i != end; ++i)
{
AssertMsg(i->vine() != 0, "Cannot process a null vine in record_diagram");
if (!i->sign()) continue;
record_knee(i);
}
}
template<class I, class It, class E>
void
Vineyard<I,It,E>::
save_edges(const std::string& filename, bool skip_infinite) const
{
for (unsigned int i = 0; i < vines_vector.size(); ++i)
{
std::ostringstream os; os << i;
std::string fn = filename + os.str() + ".edg";
std::ofstream out(fn.c_str());
for (typename VineList::const_iterator vi = vines_vector[i]->begin(); vi != vines_vector[i]->end(); ++vi)
for (typename Vine::const_iterator ki = vi->begin(), kiprev = ki++; ki != vi->end(); kiprev = ki++)
{
if (skip_infinite && (kiprev->is_infinite() || ki->is_infinite()))
{
std::cerr << "Warning: skipping an infinite knee in save_edges() in dimension " << i << std::endl;
continue;
}
out << kiprev->birth << ' ' << kiprev->death << ' ' << kiprev->time << std::endl;
out << ki->birth << ' ' << ki->death << ' ' << ki->time << std::endl;
}
out.close();
}
}
template<class I, class It, class E>
void
Vineyard<I,It,E>::
save_vines(const std::string& filename, bool skip_infinite) const
{
for (unsigned int i = 0; i < vines_vector.size(); ++i)
{
std::ostringstream os; os << i;
std::string fn = filename + os.str() + ".vin";
std::ofstream out(fn.c_str());
for (typename VineList::const_iterator vi = vines_vector[i]->begin(); vi != vines_vector[i]->end(); ++vi)
{
for (typename Vine::const_iterator ki = vi->begin(); ki != vi->end(); ki++)
{
if (skip_infinite && ki->is_infinite())
{
std::cerr << "Warning: skipping an infinite knee in save_edges() in dimension " << i << std::endl;
continue;
}
out << ki->birth << ' ' << ki->death << ' ' << ki->time << " ";
}
out << std::endl;
}
out.close();
}
}
/// Records a knee for the given simplex
template<class I, class It, class E>
template<class Iter>
void
Vineyard<I,It,E>::
record_knee(Iter i)
{
rLog(rlVineyard, "Entered record_knee()");
AssertMsg(evaluator != 0, "Cannot record knee with a null evaluator");
AssertMsg(i->vine() != 0, "Cannot add a knee to a null vine");
AssertMsg(i->sign(), "record_knee() must be called on a positive simplex");
if (i->unpaired())
i->vine()->add((*evaluator)(i), Infinity, evaluator->time());
else
{
rLog(rlVineyard, "Creating knee");
Knee k((*evaluator)(i), (*evaluator)((i->pair)), evaluator->time());
rLog(rlVineyard, "Knee created: %s", tostring(k).c_str());
rLog(rlVineyard, "Vine: %s", tostring(*(i->vine())).c_str());
if (!k.is_diagonal() || i->vine()->empty()) // non-diagonal k, or empty vine
{
rLog(rlVineyard, "Extending a vine");
i->vine()->add(k);
}
else if (i->vine()->back().is_diagonal()) // last knee is diagonal
{
AssertMsg(i->vine()->size() == 1, "Only first knee may be diagonal for a live vine");
rLog(rlVineyard, "Overwriting first diagonal knee");
i->vine()->back() = k;
} else // finish this vine
{
rLog(rlVineyard, "Finishing a vine");
i->vine()->add(k);
start_vine(i);
i->vine()->add(k);
}
}
rLog(rlVineyard, "Leaving record_knee()");
}