StaticPersistence::pair_simplices() has an option to not display progress (LSVineyard uses it during consistency checking)
#include <utilities/log.h>
#ifdef LOGGING
static rlog::RLogChannel* rlTranspositions = DEF_CHANNEL("topology/persistence/transpositions", rlog::Log_Debug);
#endif // LOGGING
#ifdef COUNTERS
static Counter* cTransposition = GetCounter("persistence/transposition");
static Counter* cTranspositionDiffDim = GetCounter("persistence/transposition/diffdim");
static Counter* cTranspositionCase12 = GetCounter("persistence/transposition/case/1/2");
static Counter* cTranspositionCase12s = GetCounter("persistence/transposition/case/1/2/special");
static Counter* cTranspositionCase112 = GetCounter("persistence/transposition/case/1/1/2");
static Counter* cTranspositionCase111 = GetCounter("persistence/transposition/case/1/1/1");
static Counter* cTranspositionCase22 = GetCounter("persistence/transposition/case/2/2");
static Counter* cTranspositionCase212 = GetCounter("persistence/transposition/case/2/1/2");
static Counter* cTranspositionCase211 = GetCounter("persistence/transposition/case/2/1/1");
static Counter* cTranspositionCase32 = GetCounter("persistence/transposition/case/3/2");
static Counter* cTranspositionCase31 = GetCounter("persistence/transposition/case/3/1");
static Counter* cTranspositionCase4 = GetCounter("persistence/transposition/case/4");
#endif // COUNTERS
/* Trails */
template<class D, class CT, class OT, class E, class Cmp, class CCmp>
template<class Filtration>
DynamicPersistenceTrails<D,CT,OT,E,Cmp,CCmp>::
DynamicPersistenceTrails(const Filtration& f):
Parent(f), ccmp_(consistent_order())
{}
template<class D, class CT, class OT, class E, class Cmp, class CCmp>
void
DynamicPersistenceTrails<D,CT,OT,E,Cmp,CCmp>::
pair_simplices()
{
Parent::pair_simplices(begin(), end(), true, PairingTrailsVisitor(order(), ccmp_, size()));
}
template<class D, class CT, class OT, class E, class Cmp, class CCmp>
template<class DimensionFunctor, class Visitor>
bool
DynamicPersistenceTrails<D,CT,OT,E,Cmp,CCmp>::
transpose(iterator i, const DimensionFunctor& dimension, Visitor visitor)
{
#if LOGGING
typename Traits::OutputMap outmap(order());
#endif
Count(cTransposition);
typedef typename Element::Trail::iterator TrailIterator;
visitor.transpose(i);
iterator i_prev = i++;
if (dimension(i_prev) != dimension(i))
{
swap(i_prev, i);
rLog(rlTranspositions, "Different dimension");
Count(cTranspositionDiffDim);
return false;
}
bool si = i_prev->sign(), sii = i->sign();
if (si && sii)
{
rLog(rlTranspositions, "Trail prev: %s", i_prev->trail.tostring(outmap).c_str());
// Case 1
if (trail_remove_if_contains(i_prev, index(i)))
rLog(rlTranspositions, "Case 1, U[i,i+1] = 1");
iterator k = iterator_to(i_prev->pair);
iterator l = iterator_to(i->pair);
// rLog(rlTranspositions, "(i_prev, k), (i, l): (%s, %s), (%s, %s)",
// outmap(i_prev).c_str(), outmap(k).c_str(),
// outmap(i).c_str(), outmap(l).c_str());
// Explicit treatment of unpaired simplex
if (l == i)
{
swap(i_prev, i);
rLog(rlTranspositions, "Case 1.2 --- unpaired");
rLog(rlTranspositions, "%s", outmap(i_prev).c_str());
Count(cTranspositionCase12);
return false;
} else if (k == i_prev)
{
if (!(l->cycle.contains(index(i_prev))))
{
// Case 1.2
swap(i_prev, i);
rLog(rlTranspositions, "Case 1.2 --- unpaired");
rLog(rlTranspositions, outmap(i_prev).c_str());
Count(cTranspositionCase12);
return false;
} else
{
// Case 1.2 --- special version (plain swap, but pairing switches)
swap(i_prev, i);
pairing_switch(i_prev, i);
visitor.switched(i, Case12);
rLog(rlTranspositions, "Case 1.2 --- unpaired (pairing switch)");
rLog(rlTranspositions, outmap(i_prev).c_str());
Count(cTranspositionCase12s);
return true;
}
}
rLog(rlTranspositions, "l cycle: %s", l->cycle.tostring(outmap).c_str());
if (!(l->cycle.contains(index(i_prev))))
{
// Case 1.2
rLog(rlTranspositions, "k is in l: %d", (bool) l->trail.contains(index(k))); // if true, a special update would be needed to maintain lazy decomposition
swap(i_prev, i);
rLog(rlTranspositions, "Case 1.2");
Count(cTranspositionCase12);
return false;
} else
{
// Case 1.1
if (std::not2(order_comparison())(index(k),index(l)))
{
// Case 1.1.1
swap(i_prev, i);
cycle_add(l, k->cycle); // Add column k to l
trail_add(k, l->trail); // Add row l to k
rLog(rlTranspositions, "Case 1.1.1");
Count(cTranspositionCase111);
return false;
} else
{
// Case 1.1.2
swap(i_prev, i);
cycle_add(k, l->cycle); // Add column l to k
trail_add(l, k->trail); // Add row k to l
pairing_switch(i_prev, i);
visitor.switched(i, Case112);
rLog(rlTranspositions, "Case 1.1.2");
Count(cTranspositionCase112);
return true;
}
}
} else if (!si && !sii)
{
// Case 2
if (!(i_prev->trail.contains(index(i))))
{
// Case 2.2
swap(i_prev, i);
rLog(rlTranspositions, "Case 2.2");
Count(cTranspositionCase22);
return false;
} else
{
// Case 2.1
iterator low_i = iterator_to(i_prev->pair);
iterator low_ii = iterator_to(i->pair);
trail_add(i_prev, i->trail); // Add row i to i_prev
cycle_add(i, i_prev->cycle); // Add column i_prev to i
swap(i_prev, i);
if (std::not2(order_comparison())(index(low_ii), index(low_i)))
{
// Case 2.1.2
cycle_add(i_prev, i->cycle); // Add column i to i_prev (after transposition)
trail_add(i, i_prev->trail); // Add row i to i_prev
pairing_switch(i_prev, i);
visitor.switched(i, Case212);
rLog(rlTranspositions, "Case 2.1.2");
Count(cTranspositionCase212);
return true;
}
// Case 2.1.1
rLog(rlTranspositions, "Case 2.1.1");
Count(cTranspositionCase211);
return false;
}
} else if (!si && sii)
{
// Case 3
if (!(i_prev->trail.contains(index(i))))
{
// Case 3.2
swap(i_prev, i);
rLog(rlTranspositions, "Case 3.2");
Count(cTranspositionCase32);
return false;
} else
{
// Case 3.1
trail_add(i_prev, i->trail); // Add row i to i_prev
cycle_add(i, i_prev->cycle); // Add column i_prev to i
swap(i_prev, i);
cycle_add(i_prev, i->cycle); // Add column i_prev to i (after transposition)
trail_add(i, i_prev->trail); // Add row i to i_prev
pairing_switch(i_prev, i);
visitor.switched(i, Case31);
rLog(rlTranspositions, "Case 3.1");
Count(cTranspositionCase31);
return true;
}
} else if (si && !sii)
{
// Case 4
if (trail_remove_if_contains(i_prev, index(i)))
rLog(rlTranspositions, "Case 4, U[i,i+1] = 1");
swap(i_prev, i);
rLog(rlTranspositions, "Case 4");
Count(cTranspositionCase4);
return false;
}
return false; // to avoid compiler complaints; we should never reach this point
}
template<class D, class CT, class OT, class E, class Cmp, class CCmp>
template<class Iter>
void
DynamicPersistenceTrails<D,CT,OT,E,Cmp,CCmp>::
rearrange(Iter i)
{
order().rearrange(i);
consistent_order().rearrange(i);
// Resort the cycles
Cycle z;
for(iterator i = begin(); i != end(); ++i)
{
Parent::swap_cycle(i, z);
z.sort(ccmp_);
Parent::swap_cycle(i, z);
}
}
template<class D, class CT, class OT, class E, class Cmp, class CCmp>
void
DynamicPersistenceTrails<D,CT,OT,E,Cmp,CCmp>::
swap(iterator i, iterator j)
{
order().relocate(i,j);
}
template<class D, class CT, class OT, class E, class Cmp, class CCmp>
void
DynamicPersistenceTrails<D,CT,OT,E,Cmp,CCmp>::
pairing_switch(iterator i, iterator j)
{
OrderIndex i_pair = i->pair;
OrderIndex j_pair = j->pair;
// rLog(rlTranspositions, " (%x %x %x) (%x %x %x)", &*i, i->pair, i->pair->pair, &*j, j->pair, j->pair->pair);
if (i_pair == index(i))
set_pair(j, j);
else
{
set_pair(j, i_pair);
set_pair(i_pair, j);
}
if (j_pair == index(j))
set_pair(i, i);
else
{
set_pair(i, j_pair);
set_pair(j_pair, i);
}
// rLog(rlTranspositions, " (%x %x %x) (%x %x %x)", &*i, i->pair, i->pair->pair, &*j, j->pair, j->pair->pair);
}
// Helper classes
template<class D, class CT, class OT, class E, class Cmp, class CCmp>
struct DynamicPersistenceTrails<D,CT,OT,E,Cmp,CCmp>::TrailRemover:
public std::unary_function<Element&, void>
{
TrailRemover(OrderIndex i):
i_(i) {}
void operator()(Element& e) { result = e.trail.remove_if_contains(i_); }
OrderIndex i_;
bool result;
};
/* Chains */
template<class D, class CT, class OT, class E, class Cmp, class CCmp>
template<class Filtration>
DynamicPersistenceChains<D,CT,OT,E,Cmp,CCmp>::
DynamicPersistenceChains(const Filtration& f):
Parent(f), ccmp_(order().get<consistency>())
{}
template<class D, class CT, class OT, class E, class Cmp, class CCmp>
void
DynamicPersistenceChains<D,CT,OT,E,Cmp,CCmp>::
pair_simplices()
{
Parent::pair_simplices(begin(), end(), true, PairingChainsVisitor(order(), ccmp_, size()));
}