Cleaner output in rips-pairwise.cpp + added make-zigzag-subsamples.py + added lsfiltration.py
#include <topology/simplex.h>
#include <topology/cohomology-persistence.h>
#include <utilities/log.h>
#include <utilities/indirect.h>
#include <vector>
#include <map>
#include <iostream>
#include <boost/tuple/tuple.hpp>
#if 1
#include <fstream>
#include <boost/archive/text_oarchive.hpp>
#include <boost/archive/text_iarchive.hpp>
#include <boost/serialization/vector.hpp>
#endif
typedef CohomologyPersistence<unsigned> Persistence;
typedef Persistence::SimplexIndex Index;
typedef Persistence::Death Death;
typedef unsigned Vertex;
typedef Simplex<Vertex, double> Smplx;
typedef std::map<Smplx, Index,
Smplx::VertexComparison> Complex;
typedef std::vector<Smplx> SimplexVector;
void fillTriangleSimplices(SimplexVector& c)
{
typedef std::vector<Vertex> VertexVector;
VertexVector vertices(4);
vertices[0] = 0; vertices[1] = 1; vertices[2] = 2;
vertices[3] = 0;
VertexVector::const_iterator bg = vertices.begin();
VertexVector::const_iterator end = vertices.end();
c.push_back(Smplx(bg, bg + 1, 0)); // 0 = A
c.push_back(Smplx(bg + 1, bg + 2, 1)); // 1 = B
c.push_back(Smplx(bg + 2, bg + 3, 2)); // 2 = C
c.push_back(Smplx(bg, bg + 2, 2.5)); // AB
c.push_back(Smplx(bg + 1, bg + 3, 2.9)); // BC
c.push_back(Smplx(bg + 2, end, 3.5)); // CA
c.push_back(Smplx(bg, bg + 3, 5)); // ABC
}
int main(int argc, char** argv)
{
#ifdef LOGGING
rlog::RLogInit(argc, argv);
stderrLog.subscribeTo(RLOG_CHANNEL("info"));
stderrLog.subscribeTo(RLOG_CHANNEL("error"));
stderrLog.subscribeTo(RLOG_CHANNEL("topology"));
#endif
SimplexVector v;
fillTriangleSimplices(v);
std::sort(v.begin(), v.end(), Smplx::DataComparison());
std::cout << "Simplices filled" << std::endl;
for (SimplexVector::const_iterator cur = v.begin(); cur != v.end(); ++cur)
std::cout << " " << *cur << std::endl;
// Compute persistence
Complex c;
ZpField zp(11);
Persistence p(zp);
unsigned i = 0;
for (SimplexVector::const_iterator cur = v.begin(); cur != v.end(); ++cur)
{
std::cout << "-------" << std::endl;
std::vector<Index> boundary;
for (Smplx::BoundaryIterator bcur = cur->boundary_begin();
bcur != cur->boundary_end(); ++bcur)
boundary.push_back(c[*bcur]);
Index idx; Death d;
boost::tie(idx, d) = p.add(boundary.begin(), boundary.end(), i++);
c[*cur] = idx;
if (d)
std::cout << (cur->dimension() - 1) << " " << *d << " " << (i-1) << std::endl;
// the dimension above is adjusted for what it would look like in homology
// (i.e. when a 1 class kills 0, it's really that in cohomology forward 0 kills 1,
// in cohomology backward 1 kills 0, and in homology 1 kills 0)
p.show_cocycles();
}
}