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LA_Results.cc
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3 
4 #include <cmath>
5 #include <boost/foreach.hpp>
6 #include <boost/regex.hpp>
7 #include <boost/lexical_cast.hpp>
8 #include <boost/algorithm/string/erase.hpp>
9 #include <TF1.h>
10 #include <TGraphErrors.h>
11 #include <TProfile.h>
12 
14 result(Method m, const std::string name, const Book& book) {
15  Result p;
16  const std::string base = boost::erase_all_copy(name,method(m));
17 
18  const TH1* const h = book[name];
19  const TH1* const reco = book[base+"_reconstruction"];
20  const TH1* const field = book[base+"_field"];
21 
22  if(reco) p.reco = std::make_pair<float,float>( reco->GetMean(), reco->GetMeanError());
23  if(field) p.field = field->GetMean();
24  if(h) { switch(m) {
25  case WIDTH: {
26  const TF1*const f = h->GetFunction("LA_profile_fit"); if(!f) break;
27  p.measured = std::make_pair<float,float>(f->GetParameter(0),f->GetParError(0));
28  p.chi2 = f->GetChisquare();
29  p.ndof = f->GetNDF();
30  p.entries = (unsigned)(h->GetEntries());
31  break;
32  }
33  case PROB1: case AVGV2: case AVGV3: case RMSV2: case RMSV3: /*case MULTI:*/ {
34  const TF1*const f = h->GetFunction("SymmetryFit"); if(!f) break;
35  p.measured = std::make_pair<float,float>( p.reco.first + f->GetParameter(0), f->GetParameter(1) );
36  p.chi2 = f->GetParameter(2);
37  p.ndof = (unsigned) (f->GetParameter(3));
38  p.entries =
39  (m&PROB1) ? (unsigned) book[base+"_w1"]->GetEntries() :
40  (m&(AVGV2|RMSV2)) ? (unsigned) book[base+method(AVGV2,false)]->GetEntries() :
41  (m&(AVGV3|RMSV3)) ? (unsigned) book[base+method(AVGV3,false)]->GetEntries() : 0 ;
42  break;
43  }
44  default: break;
45  }
46  }
47  return p;
48 }
49 
50 std::map<uint32_t,LA_Filler_Fitter::Result> LA_Filler_Fitter::
51 module_results( const Book& book, const Method m) {
52  std::map<uint32_t,Result> results;
53  for(Book::const_iterator it = book.begin(".*_module\\d*"+method(m)); it!=book.end(); ++it ) {
54  const uint32_t detid = boost::lexical_cast<uint32_t>( boost::regex_replace( it->first,
55  boost::regex(".*_module(\\d*)_.*"),
56  std::string("\\1")));
57  results[detid] = result(m,it->first,book);
58  }
59  return results;
60 }
61 
62 std::map<std::string,LA_Filler_Fitter::Result> LA_Filler_Fitter::
63 layer_results( const Book& book, const Method m) {
64  std::map<std::string,Result> results;
65  for(Book::const_iterator it = book.begin(".*layer\\d.*"+method(m)); it!=book.end(); ++it ) {
66  const std::string name = boost::erase_all_copy(it->first,method(m));
67  results[name] = result(m,it->first,book);
68  }
69  return results;
70 }
71 
72 std::map<std::string, std::vector<LA_Filler_Fitter::Result> > LA_Filler_Fitter::
73 ensemble_results( const Book& book, const Method m) {
74  std::map<std::string, std::vector<Result> > results;
75  for(Book::const_iterator it = book.begin(".*_sample.*"+method(m)); it!=book.end(); ++it ) {
76  const std::string name = boost::regex_replace(it->first,boost::regex("sample\\d*_"),"");
77  results[name].push_back(result(m,it->first,book));
78  }
79  return results;
80 }
81 
83 summarize_ensembles(Book& book) const {
84  typedef std::map<std::string, std::vector<Result> > results_t;
85  results_t results;
86  for(int m = FIRST_METHOD; m <= LAST_METHOD; m<<=1)
87  if(methods_ & m) { results_t g = ensemble_results(book,(Method)(m)); results.insert(g.begin(),g.end());}
88 
89  BOOST_FOREACH(const results_t::value_type group, results) {
90  const std::string name = group.first;
91  BOOST_FOREACH(const Result p, group.second) {
92  const float pad = (ensembleUp_-ensembleLow_)/10;
93  book.fill( p.reco.first, name+"_ensembleReco", 12*ensembleBins_, ensembleLow_-pad, ensembleUp_+pad );
94  book.fill( p.measured.first, name+"_measure", 12*ensembleBins_, ensembleLow_-pad, ensembleUp_+pad );
95  book.fill( p.measured.second, name+"_merr", 500, 0, 0.01);
96  book.fill( (p.measured.first-p.reco.first)/p.measured.second, name+"_pull", 500, -10,10);
97  }
98  //Need our own copy for thread safety
99  TF1 gaus("mygaus","gaus");
100  book[name+"_measure"]->Fit(&gaus,"LLQ");
101  book[name+"_merr"]->Fit(&gaus,"LLQ");
102  book[name+"_pull"]->Fit(&gaus,"LLQ");
103  }
104 }
105 
106 std::map<std::string, std::vector<LA_Filler_Fitter::EnsembleSummary> > LA_Filler_Fitter::
107 ensemble_summary(const Book& book) {
108  std::map<std::string, std::vector<EnsembleSummary> > summary;
109  for(Book::const_iterator it = book.begin(".*_ensembleReco"); it!=book.end(); ++it) {
110  const std::string base = boost::erase_all_copy(it->first,"_ensembleReco");
111 
112  const TH1*const reco = it->second;
113  const TH1*const measure = book[base+"_measure"];
114  const TH1*const merr = book[base+"_merr"];
115  const TH1*const pull = book[base+"_pull"];
116 
118  s.samples = reco->GetEntries();
119  s.truth = reco->GetMean();
120  s.meanMeasured = std::make_pair<float,float>( measure->GetFunction("gaus")->GetParameter(1), measure->GetFunction("gaus")->GetParError(1) );
121  s.sigmaMeasured = std::make_pair<float,float>( measure->GetFunction("gaus")->GetParameter(2), measure->GetFunction("gaus")->GetParError(2) );
122  s.meanUncertainty = std::make_pair<float,float>( merr->GetFunction("gaus")->GetParameter(1), merr->GetFunction("gaus")->GetParError(1) );
123  s.pull = std::make_pair<float,float>( pull->GetFunction("gaus")->GetParameter(2), pull->GetFunction("gaus")->GetParError(2) );
124 
125  const std::string name = boost::regex_replace(base,boost::regex("ensembleBin\\d*_"),"");
126  summary[name].push_back(s);
127  }
128  return summary;
129 }
130 
131 std::pair<std::pair<float,float>, std::pair<float,float> > LA_Filler_Fitter::
132 offset_slope(const std::vector<LA_Filler_Fitter::EnsembleSummary>& ensembles) {
133  try {
134  std::vector<float> x,y,xerr,yerr;
135  BOOST_FOREACH(EnsembleSummary ensemble, ensembles) {
136  x.push_back(ensemble.truth);
137  xerr.push_back(0);
138  y.push_back(ensemble.meanMeasured.first);
139  yerr.push_back(ensemble.meanMeasured.second);
140  }
141  TGraphErrors graph(x.size(),&(x[0]),&(y[0]),&(xerr[0]),&(yerr[0]));
142  //Need our own copy for thread safety
143  TF1 pol1("mypol1","pol1");
144  graph.Fit(&pol1);
145  const TF1*const fit = graph.GetFunction("pol1");
146 
147  return std::make_pair( std::make_pair(fit->GetParameter(0), fit->GetParError(0)),
148  std::make_pair(fit->GetParameter(1), fit->GetParError(1)) );
149  } catch(edm::Exception const& e) {
150  std::cerr << "Fitting Line Failed " << std::endl << e << std::endl;
151  return std::make_pair( std::make_pair(0,0), std::make_pair(0,0));
152  }
153 }
154 
155 float LA_Filler_Fitter::
156 pull(const std::vector<LA_Filler_Fitter::EnsembleSummary>& ensembles) {
157  float p(0),w(0);
158  BOOST_FOREACH(EnsembleSummary ensemble, ensembles) {
159  const float unc2 = pow(ensemble.pull.second,2);
160  p+= ensemble.pull.first / unc2;
161  w+= 1/unc2;
162  }
163  return p/w;
164 }
165 
166 
167 std::ostream& operator<<(std::ostream& strm, const LA_Filler_Fitter::Result& r) {
168  return strm << r.reco.first <<"\t"<< r.reco.second <<"\t"
169  << r.measured.first <<"\t"<< r.measured.second <<"\t"
170  << r.calMeasured.first <<"\t"<< r.calMeasured.second <<"\t"
171  << r.field <<"\t"
172  << r.chi2 <<"\t"
173  << r.ndof <<"\t"
174  << r.entries;
175 }
176 
177 std::ostream& operator<<(std::ostream& strm, const LA_Filler_Fitter::EnsembleSummary& e) {
178  return strm << e.truth <<"\t"
179  << e.meanMeasured.first <<"\t"<< e.meanMeasured.second <<"\t"
180  << e.sigmaMeasured.first <<"\t"<< e.sigmaMeasured.second <<"\t"
181  << e.meanUncertainty.first <<"\t"<< e.meanUncertainty.second << "\t"
182  << e.pull.first <<"\t"<< e.pull.second << "\t"
183  << e.samples;
184 }
185 
186 
187 
std::pair< float, float > pull
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Definition: LA_Results.cc:63
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Definition: LA_Results.cc:132
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Definition: LA_Results.cc:73
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