1 #ifndef _FsmwClusterizer1D_H_ 2 #define _FsmwClusterizer1D_H_ 22 double n_sigma_in = 3.,
27 std::pair<std::vector<Cluster1D<T> >, std::vector<const T*> >
operator()(
50 std::pair<typename std::vector<Cluster1D<T> >::const_iterator,
typename std::vector<Cluster1D<T> >::const_iterator>
53 typename std::vector<Cluster1D>::const_iterator begin =
values.begin();
54 typename std::vector<Cluster1D>::const_iterator
end =
values.end() - 1;
57 #ifdef FsmwClusterizer1DDebug 58 cout <<
"Begin at " << begin->position().value() << endl;
62 #ifdef FsmwClusterizer1DDebug 70 #ifdef FsmwClusterizer1DDebug 72 cout <<
"Old end at " <<
end->position().value() << endl;
76 typename std::vector<Cluster1D>::const_iterator new_begin = begin;
77 typename std::vector<Cluster1D>::const_iterator new_end =
end;
79 #ifdef FsmwClusterizer1DDebug 81 cout <<
"New end at " <<
end->position().value() << endl;
90 double totalweight =
end->weight();
91 for (
typename std::vector<Cluster1D>::const_iterator
w = begin;
w !=
end; ++
w) {
92 totalweight +=
w->weight();
95 double div = fabs(
end->position().value() - begin->position().value()) / totalweight;
96 #ifdef FsmwClusterizer1DDebug 98 cout <<
"Div at " << begin->position().value() <<
":" << (
end)->
position().value() <<
" = " << div << endl;
101 for (
typename std::vector<Cluster1D>::const_iterator
i = (begin + 1);
i != (begin +
size -
stepsize + 1); ++
i) {
107 double tmpweight = 0.;
108 for (
typename std::vector<Cluster1D>::const_iterator wt =
i; wt != (
i +
stepsize + 1); ++wt) {
109 tmpweight += wt->weight();
112 double tmpdiv = fabs(
i->position().value() - (
i +
stepsize)->
position().value()) / tmpweight;
113 #ifdef FsmwClusterizer1DDebug 115 cout <<
"Div at " <<
i->position().value() <<
":" << (
i +
stepsize)->
position().value() <<
" = " << tmpdiv
125 #ifdef FsmwClusterizer1DDebug 127 cout <<
"---- new interval: " << new_begin->position().value() <<
":" << new_end->position().value() << endl;
136 std::pair<typename std::vector<Cluster1D>::const_iterator,
typename std::vector<Cluster1D>::const_iterator>
ret(
144 : theEstimator(
o.theEstimator->
clone()), theFraction(
o.theFraction), theNSigmaIn(
o.theNSigmaIn) {}
148 : theEstimator(est.
clone()), theFraction(
fraction), theNSigmaIn(nsig) {}
166 std::vector<const T*> unusedtracks;
172 std::pair<std::vector<Cluster1D>, std::vector<const T*> >
ret(ov, unusedtracks);
176 std::vector<Cluster1D>
v = ov;
178 std::vector<Cluster1D> sols;
180 std::pair<typename std::vector<Cluster1D>::const_iterator,
typename std::vector<Cluster1D>::const_iterator> estors =
181 fsmw(
v, theFraction);
183 double weight = estors.first->weight() + estors.second->weight();
184 double est = (estors.first->weight() * estors.first->position().value() +
185 estors.second->weight() * estors.second->position().value()) /
188 double sigma =
sqrt(
square(estors.first->position().value() - est) +
square(estors.second->position().value() - est));
197 std::vector<const T*>
trks;
200 for (
typename std::vector<Cluster1D>::iterator
i =
v.begin();
i !=
v.end(); ++
i) {
206 if (fabs(
i->position().value() - est) < theNSigmaIn * sigma) {
212 add(
i->tracks(), unusedtracks);
215 err /= (inliers - 1);
221 std::pair<std::vector<Cluster1D>, std::vector<const T*> >
ret(sols, unusedtracks);
WeightEstimator< T > * theEstimator
ret
prodAgent to be discontinued
FsmwClusterizer1D * clone() const override
std::pair< std::vector< Cluster1D< T > >, std::vector< const T * > > operator()(const std::vector< Cluster1D< T > > &) const override
FsmwClusterizer1D(double fraction=.05, double n_sigma_in=3., const WeightEstimator< T > &est=TrivialWeightEstimator< T >())
void add(const std::vector< const T *> &source, std::vector< const T *> &dest)
std::pair< typename std::vector< Cluster1D< T > >::const_iterator, typename std::vector< Cluster1D< T > >::const_iterator > fsmw(const std::vector< Cluster1D< T > > &values, double fraction)
TEveGeoShape * clone(const TEveElement *element, TEveElement *parent)
static int position[264][3]
double square(const double a)
~FsmwClusterizer1D() override