Initial commit of KineticSort-based ARVineyard
Compiles, but needs to be runtime debugged.
#include "utilities/counter.h"
/* Implementations */
#ifdef LOGGING
static rlog::RLogChannel* rlLowerStar = DEF_CHANNEL("lowerstar", rlog::Log_Debug);
#endif // LOGGING
#ifdef COUNTERS
static Counter* cLowerStarTransposition = GetCounter("lowerstar");
static Counter* cLowerStarChangedAttachment = GetCounter("lowerstar/ChangedAttachment");
#endif // COUNTERS
template<class VI, class Smplx, class FltrSmplx, class Vnrd>
template<class VertexCmp>
LowerStarFiltration<VI,Smplx,FltrSmplx,Vnrd>::
LowerStarFiltration(VertexIndex begin, VertexIndex end, const VertexCmp& cmp, Vineyard* vineyard):
Parent(vineyard)
{
// Record VertexIndexes in a temporary list
typedef std::list<VertexIndex> VertexIndexList;
VertexIndexList tmp_list;
while (begin != end)
tmp_list.push_back(begin++);
// Sort the temporary list
tmp_list.sort(cmp);
// Record vertex order
for(typename VertexIndexList::const_iterator cur = tmp_list.begin(); cur != tmp_list.end(); ++cur)
(*cur)->set_order(vertex_order.push_back(VertexDescriptor(*cur, Parent::append(Simplex(0, *cur)))));
}
template<class VI, class Smplx, class FltrSmplx, class Vnrd>
typename LowerStarFiltration<VI,Smplx,FltrSmplx,Vnrd>::Index
LowerStarFiltration<VI,Smplx,FltrSmplx,Vnrd>::
append(const Simplex& s)
{
AssertMsg(s.dimension() != 0, "All vertices must have been inserted in the constructor");
// Find the highest vertex
typename Simplex::VertexContainer::const_iterator cur = s.vertices().begin(), max = cur++;
for (; cur != s.vertices().end(); ++cur)
if (!vertex_cmp((*cur)->get_order(), (*max)->get_order()))
max = cur;
Index ms = (*max)->get_order()->simplex_index; Index prior;
do { prior = ms++; } while (ms->dimension() <= s.dimension() && ms != Parent::end() && ms->get_attachment() == *max);
Index i = Parent::insert(prior, s);
i->set_attachment(*max);
return i;
}
template<class VI, class Smplx, class FltrSmplx, class Vnrd>
bool
LowerStarFiltration<VI,Smplx,FltrSmplx,Vnrd>::SimplexAttachmentComparison::
operator()(const Simplex& first, const Simplex& second) const
{
int cmp = vertex_cmp.compare(first.get_attachment()->get_order(), second.get_attachment()->get_order());
if (cmp == 0)
return first.dimension() < second.dimension();
else
return cmp == -1;
}
template<class VI, class Smplx, class FltrSmplx, class Vnrd>
bool
LowerStarFiltration<VI,Smplx,FltrSmplx,Vnrd>::
transpose_vertices(const VertexOrderIndex& order)
{
Count(cLowerStarTransposition);
rLog(rlLowerStar, "Transposing vertices (%s, %s)",
tostring(order->vertex_index).c_str(),
tostring(boost::next(order)->vertex_index).c_str());
Index i = order->simplex_index;
Index i_prev = boost::prior(i);
Index i_next = boost::next(order)->simplex_index;
Index i_next_prev = boost::prior(i_next); // transpositions are done in terms of the first index in the pair
Index j = boost::next(i_next);
const VertexIndex& v_i = order->vertex_index;
const VertexIndex& v_i_next = boost::next(order)->vertex_index;
bool nbghrs = neighbors(v_i, v_i_next);
bool result = false;
// First, move the vertex --- this can be sped up if we devise special "vertex transpose" operation
while (i_next_prev != i_prev)
{
result |= transpose(i_next_prev);
i_next_prev = boost::prior(i_next);
}
rLog(rlLowerStar, "Done moving the vertex");
// Second, move the simplices attached to it
rLog(rlLowerStar, "Moving attached simplices");
while (j != Parent::end() && j->get_attachment() == v_i_next)
{
rLog(rlLowerStar, " Considering %s", tostring(*j).c_str());
if (nbghrs && j->contains(v_i)) // short circuit
{
Count(cLowerStarChangedAttachment);
rLog(rlLowerStar, " Attachment changed for %s", tostring(*j).c_str());
j->set_attachment(v_i);
++j;
continue;
}
Index j_prev = j; ++j;
while ((--j_prev)->get_attachment() != v_i_next) // i.e., until we have reached v_i_next
// (and the simplices that follow it) again
{
rLog(rlLowerStar, " Moving: %s, %s",
tostring(*j_prev).c_str(), tostring(*boost::next(j_prev)).c_str());
AssertMsg(j_prev->get_attachment() == v_i, "Simplex preceding the one being moved must be attached to v_i");
result |= transpose(j_prev);
--j_prev;
}
}
rLog(rlLowerStar, "Done moving attached simplices");
vertex_order.swap(order, boost::next(order));
return result;
}
template<class VI, class Smplx, class FltrSmplx, class Vnrd>
bool
LowerStarFiltration<VI,Smplx,FltrSmplx,Vnrd>::
transpose(Index i)
{
Index j = boost::next(i);
rLog(rlLowerStar, " Transposing (%s, %s) and (%s, %s)",
tostring(*i).c_str(), tostring(*(i->pair())).c_str(),
tostring(*j).c_str(), tostring(*(j->pair())).c_str());
assert_pairing(i);
assert_pairing(j);
bool res = Parent::transpose(i, false);
rLog(rlLowerStar, " %s: %s, %s: %s",
tostring(*j).c_str(), tostring(*(j->pair())).c_str(),
tostring(*i).c_str(), tostring(*(i->pair())).c_str());
assert_pairing(j);
assert_pairing(i);
return res;
}
template<class VI, class Smplx, class FltrSmplx, class Vnrd>
void
LowerStarFiltration<VI,Smplx,FltrSmplx,Vnrd>::
assert_pairing(Index i)
{
#ifndef NDEBUG
AssertMsg(i != Parent::end(), "Cannot assert pairing of end()");
if (!i->sign())
{
if (i->pair() != i->cycle().top(Parent::get_cycles_cmp()))
{
rLog(rlLowerStar, "i (negative): %s", tostring(*i).c_str());
rLog(rlLowerStar, "pair(i): %s", tostring(*(i->pair())).c_str());
rLog(rlLowerStar, "i->cycle().top(): %s",
tostring(*(i->cycle().top(Parent::get_cycles_cmp()))).c_str());
AssertMsg(0, "Pairing not matching the matrix at %s", tostring(*i).c_str());
}
} else
{
if (i->pair() != i)
{
if (i->pair()->cycle().top(Parent::get_cycles_cmp()) != i)
{
rLog(rlLowerStar, "i (positive): %s", tostring(*i).c_str());
rLog(rlLowerStar, "pair(i): %s", tostring(*(i->pair())).c_str());
rLog(rlLowerStar, "pair(i)->cycle(): %s", tostring(i->pair()->cycle()).c_str());
rLog(rlLowerStar, "pair->cycle().top(): %s", tostring(*(i->pair()->cycle().top(Parent::get_cycles_cmp()))).c_str());
AssertMsg(0, "Pairing not matching the matrix at %s", tostring(*(i->pair())).c_str());
}
}
}
#endif
}
template<class VI, class Smplx, class FltrSmplx, class Vnrd>
template<class Archive>
void
LowerStarFiltration<VI,Smplx,FltrSmplx,Vnrd>::
load(Archive& ar, version_type )
{
/*
ar >> BOOST_SERIALIZATION_BASE_OBJECT_NVP(Parent);
// Count the number of vertices
VertexIndex num_vertices = 0;
for (Index cur = begin(); cur != end(); ++cur)
if (dimension(cur) == 0)
num_vertices++;
// Second pass to record vertex_order
vertex_order.resize(num_vertices);
inverse_vertex_order.resize(num_vertices);
num_vertices = 0;
for (Index cur = begin(); cur != end(); ++cur)
{
if (dimension(cur) == 0)
{
vertex_order[num_vertices].index = cur;
vertex_order[num_vertices].vertex_index = *(cur->get_vertices().begin());
inverse_vertex_order[vertex_order[num_vertices].vertex_index] = num_vertices;
++num_vertices;
}
}
*/
}