90 const UInt_t nvar = GetNVar();
93 std::cerr <<
"Distance: two events have different dimensions" << std::endl;
98 for (
UInt_t ivar = 0; ivar < nvar; ++ivar) {
139 Int_t dp = os.precision();
141 for (
UInt_t ivar = 0; ivar != GetNVar(); ++ivar) {
149 os << std::setfill(
' ') << std::setw(5) << std::setprecision(3) << GetVar(ivar);
156 os <<
" no variables";
158 os << std::setprecision(dp);
186 delete fTree; fTree = 0;
215 Log() << kFATAL <<
"<Add> Cannot add event: tree is already built" <<
Endl;
220 fDimn =
event.GetNVar();
222 else if (fDimn !=
event.GetNVar()) {
223 Log() << kFATAL <<
"ModulekNN::Add() - number of dimension does not match previous events" <<
Endl;
227 fEvent.push_back(
event);
229 for (
UInt_t ivar = 0; ivar < fDimn; ++ivar) {
230 fVar[ivar].push_back(
event.GetVar(ivar));
233 std::map<Short_t, UInt_t>::iterator cit = fCount.find(
event.GetType());
234 if (cit == fCount.end()) {
235 fCount[
event.GetType()] = 1;
248 Log() << kFATAL <<
"ModulekNN::Fill - tree has already been created" <<
Endl;
255 if (option.find(
"trim") != std::string::npos) {
256 for (std::map<Short_t, UInt_t>::const_iterator it = fCount.begin(); it != fCount.end(); ++it) {
257 if (min == 0 || min > it->second) {
262 Log() << kINFO <<
"<Fill> Will trim all event types to " << min <<
" events" <<
Endl;
269 for (EventVec::const_iterator
event = fEvent.begin();
event != fEvent.end(); ++
event) {
270 std::map<Short_t, UInt_t>::iterator cit = fCount.find(
event->GetType());
271 if (cit == fCount.end()) {
272 fCount[
event->GetType()] = 1;
274 else if (cit->second < min) {
282 fVar[
d].push_back(
event->GetVar(
d));
285 evec.push_back(*
event);
288 Log() << kINFO <<
"<Fill> Erased " << fEvent.size() - evec.size() <<
" events" <<
Endl;
297 for (VarMap::iterator it = fVar.begin(); it != fVar.end(); ++it) {
298 std::sort((it->second).begin(), (it->second).end());
301 if (option.find(
"metric") != std::string::npos && ifrac > 0) {
302 ComputeMetric(ifrac);
306 for (VarMap::iterator it = fVar.begin(); it != fVar.end(); ++it) {
307 std::sort((it->second).begin(), (it->second).end());
315 fTree = Optimize(odepth);
318 Log() << kFATAL <<
"ModulekNN::Fill() - failed to create tree" <<
Endl;
322 for (EventVec::const_iterator
event = fEvent.begin();
event != fEvent.end(); ++
event) {
323 fTree->Add(*
event, 0);
325 std::map<Short_t, UInt_t>::iterator cit = fCount.find(
event->GetType());
326 if (cit == fCount.end()) {
327 fCount[
event->GetType()] = 1;
334 for (std::map<Short_t, UInt_t>::const_iterator it = fCount.begin(); it != fCount.end(); ++it) {
335 Log() << kINFO <<
"<Fill> Class " << it->first <<
" has " << std::setw(8)
336 << it->second <<
" events" <<
Endl;
351 Log() << kFATAL <<
"ModulekNN::Find() - tree has not been filled" <<
Endl;
354 if (fDimn !=
event.GetNVar()) {
355 Log() << kFATAL <<
"ModulekNN::Find() - number of dimension does not match training events" <<
Endl;
359 Log() << kFATAL <<
"ModulekNN::Find() - requested 0 nearest neighbors" <<
Endl;
365 if (!fVarScale.empty()) {
366 event = Scale(
event);
373 if(option.find(
"weight") != std::string::npos)
378 kNN::Find<kNN::Event>(fkNNList, fTree,
event,
Double_t(nfind), 0.0);
384 kNN::Find<kNN::Event>(fkNNList, fTree,
event, nfind);
395 if (fCount.empty() || !fTree) {
398 typedef std::map<Short_t, UInt_t>::const_iterator const_iterator;
399 TTHREAD_TLS_DECL_ARG(const_iterator,cit,fCount.end());
401 if (cit == fCount.end()) {
402 cit = fCount.begin();
407 if (option ==
"flat") {
410 VarMap::const_iterator vit = fVar.find(
d);
411 if (vit == fVar.end()) {
415 const std::vector<Double_t> &vvec = vit->second;
422 const VarType min = vvec.front();
423 const VarType max = vvec.back();
424 const VarType
width = max - min;
426 if (width < 0.0 || width > 0.0) {
427 dvec.push_back(min +
width*GetRndmThreadLocal().Rndm());
451 if (fVar.empty() || fDimn != fVar.size()) {
452 Log() << kWARNING <<
"<Optimize> Cannot build a tree" <<
Endl;
458 Log() << kWARNING <<
"<Optimize> Cannot build a tree without events" <<
Endl;
462 VarMap::const_iterator it = fVar.begin();
463 for (; it != fVar.end(); ++it) {
464 if ((it->second).size() !=
size) {
465 Log() << kWARNING <<
"<Optimize> # of variables doesn't match between dimensions" <<
Endl;
471 Log() << kWARNING <<
"<Optimize> Optimization depth exceeds number of events" <<
Endl;
475 Log() << kHEADER <<
"Optimizing tree for " << fDimn <<
" variables with " <<
size <<
" values" <<
Endl;
477 std::vector<Node<Event> *> pvec, cvec;
480 if (it == fVar.end() || (it->second).size() < 2) {
481 Log() << kWARNING <<
"<Optimize> Missing 0 variable" <<
Endl;
485 const Event pevent(VarVec(fDimn, (it->second)[
size/2]), -1.0, -1);
489 pvec.push_back(
tree);
491 for (
UInt_t depth = 1; depth < odepth; ++depth) {
492 const UInt_t mod = depth % fDimn;
494 VarMap::const_iterator vit = fVar.find(mod);
495 if (vit == fVar.end()) {
496 Log() << kFATAL <<
"Missing " << mod <<
" variable" <<
Endl;
499 const std::vector<Double_t> &dvec = vit->second;
501 if (dvec.size() < 2) {
502 Log() << kFATAL <<
"Missing " << mod <<
" variable" <<
Endl;
507 for (std::vector<
Node<Event> *>::iterator pit = pvec.begin(); pit != pvec.end(); ++pit) {
510 const VarType lmedian = dvec[
size*ichild/(2*pvec.size() + 1)];
513 const VarType rmedian = dvec[
size*ichild/(2*pvec.size() + 1)];
516 const Event levent(VarVec(fDimn, lmedian), -1.0, -1);
517 const Event revent(VarVec(fDimn, rmedian), -1.0, -1);
525 cvec.push_back(lchild);
526 cvec.push_back(rchild);
548 Log() << kFATAL <<
"ModulekNN::ComputeMetric - fraction can not exceed 100%" <<
Endl;
551 if (!fVarScale.empty()) {
552 Log() << kFATAL <<
"ModulekNN::ComputeMetric - metric is already computed" <<
Endl;
555 if (fEvent.size() < 100) {
556 Log() << kFATAL <<
"ModulekNN::ComputeMetric - number of events is too small" <<
Endl;
560 const UInt_t lfrac = (100 - ifrac)/2;
561 const UInt_t rfrac = 100 - (100 - ifrac)/2;
563 Log() << kINFO <<
"Computing scale factor for 1d distributions: "
564 <<
"(ifrac, bottom, top) = (" << ifrac <<
"%, " << lfrac <<
"%, " << rfrac <<
"%)" <<
Endl;
568 for (VarMap::const_iterator vit = fVar.begin(); vit != fVar.end(); ++vit) {
569 const std::vector<Double_t> &dvec = vit->second;
571 std::vector<Double_t>::const_iterator beg_it = dvec.end();
572 std::vector<Double_t>::const_iterator end_it = dvec.end();
575 for (std::vector<Double_t>::const_iterator dit = dvec.begin(); dit != dvec.end(); ++dit, ++dist) {
577 if ((100*dist)/dvec.size() == lfrac && beg_it == dvec.end()) {
581 if ((100*dist)/dvec.size() == rfrac && end_it == dvec.end()) {
586 if (beg_it == dvec.end() || end_it == dvec.end()) {
587 beg_it = dvec.begin();
590 assert(beg_it != end_it &&
"Empty vector");
598 if (!(lpos < rpos)) {
599 Log() << kFATAL <<
"ModulekNN::ComputeMetric() - min value is greater than max value" <<
Endl;
610 fVarScale[vit->first] = rpos - lpos;
615 for (
UInt_t ievent = 0; ievent < fEvent.size(); ++ievent) {
616 fEvent[ievent] = Scale(fEvent[ievent]);
618 for (
UInt_t ivar = 0; ivar < fDimn; ++ivar) {
619 fVar[ivar].push_back(fEvent[ievent].GetVar(ivar));
630 if (fVarScale.empty()) {
634 if (
event.GetNVar() != fVarScale.size()) {
635 Log() << kFATAL <<
"ModulekNN::Scale() - mismatched metric and event size" <<
Endl;
639 VarVec vvec(
event.GetNVar(), 0.0);
641 for (
UInt_t ivar = 0; ivar <
event.GetNVar(); ++ivar) {
642 std::map<int, Double_t>::const_iterator fit = fVarScale.find(ivar);
643 if (fit == fVarScale.end()) {
644 Log() << kFATAL <<
"ModulekNN::Scale() - failed to find scale for " << ivar <<
Endl;
648 if (fit->second > 0.0) {
649 vvec[ivar] =
event.GetVar(ivar)/fit->second;
652 Log() << kFATAL <<
"Variable " << ivar <<
" has zero width" <<
Endl;
672 os <<
"----------------------------------------------------------------------"<< std::endl;
673 os <<
"Printing knn result" << std::endl;
674 os << fkNNEvent << std::endl;
678 std::map<Short_t, Double_t> min, max;
680 os <<
"Printing " << fkNNList.size() <<
" nearest neighbors" << std::endl;
681 for (List::const_iterator it = fkNNList.begin(); it != fkNNList.end(); ++it) {
682 os << ++count <<
": " << it->second <<
": " << it->first->GetEvent() << std::endl;
684 const Event &
event = it->first->GetEvent();
685 for (
UShort_t ivar = 0; ivar <
event.GetNVar(); ++ivar) {
686 if (min.find(ivar) == min.end()) {
687 min[ivar] =
event.
GetVar(ivar);
689 else if (min[ivar] >
event.GetVar(ivar)) {
690 min[ivar] =
event.GetVar(ivar);
693 if (max.find(ivar) == max.end()) {
694 max[ivar] =
event.GetVar(ivar);
696 else if (max[ivar] <
event.GetVar(ivar)) {
697 max[ivar] =
event.GetVar(ivar);
702 if (min.size() == max.size()) {
703 for (std::map<Short_t, Double_t>::const_iterator mit = min.begin(); mit != min.end(); ++mit) {
705 Log() << kINFO <<
"(var, min, max) = (" << i <<
"," << min[i] <<
", " << max[i] <<
")" <<
Endl;
709 os <<
"----------------------------------------------------------------------" << std::endl;
size_t size(const MatrixT &matrix)
retrieve the size of a square matrix
include TDocParser_001 C image html pict1_TDocParser_001 png width
ostringstream derivative to redirect and format output
VarType GetDist(VarType var, UInt_t ivar) const
void SetTargets(const VarVec &tvec)
const VarVec & GetTargets() const
Event()
default constructor
VarType GetVar(UInt_t i) const
const VarVec & GetVars() const
Bool_t Fill(const UShort_t odepth, UInt_t ifrac, const std::string &option="")
fill the tree
Node< Event > * Optimize(UInt_t optimize_depth)
Optimize() balances binary tree for first odepth levels for each depth we split sorted depth % dimens...
ModulekNN()
default constructor
Bool_t Find(Event event, UInt_t nfind=100, const std::string &option="count") const
find in tree if tree has been filled then search for nfind closest events if metic (fVarScale map) is...
const Event Scale(const Event &event) const
scale each event variable so that rms of variables is approximately 1.0 this allows comparisons of va...
void ComputeMetric(UInt_t ifrac)
compute scale factor for each variable (dimension) so that distance is computed uniformly along each ...
void Add(const Event &event)
add an event to tree
This file contains binary tree and global function template that searches tree for k-nearest neigbors...
void SetNodeL(Node *node)
void SetNodeR(Node *node)
UInt_t Find(std::list< std::pair< const Node< T > *, Float_t > > &nlist, const Node< T > *node, const T &event, UInt_t nfind)
std::ostream & operator<<(std::ostream &os, const Event &event)
MsgLogger & Endl(MsgLogger &ml)
LongDouble_t Power(LongDouble_t x, LongDouble_t y)
static uint64_t sum(uint64_t i)