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JGandalfFitToGauss.cc File Reference

Program to test JFIT::JGandalf algorithm. More...

#include <string>
#include <iostream>
#include <iomanip>
#include <vector>
#include <cmath>
#include "TROOT.h"
#include "TFile.h"
#include "TF1.h"
#include "TH1D.h"
#include "TMath.h"
#include "JFit/JGandalf.hh"
#include "JTools/JElement.hh"
#include "JTools/JQuantile.hh"
#include "JROOT/JRootToolkit.hh"
#include "JMath/JGauss.hh"
#include "JMath/JConstants.hh"
#include "Jeep/JTimer.hh"
#include "Jeep/JPrint.hh"
#include "Jeep/JParser.hh"
#include "Jeep/JMessage.hh"

Go to the source code of this file.

Functions

int main (int argc, char **argv)
 

Detailed Description

Program to test JFIT::JGandalf algorithm.

Author
mdejong

Definition in file JGandalfFitToGauss.cc.

Function Documentation

int main ( int  argc,
char **  argv 
)

Definition at line 72 of file JGandalfFitToGauss.cc.

73 {
74  using namespace std;
75  using namespace JPP;
76 
77  string outputFile;
78  int numberOfEvents;
79  JGauss gauss;
80  JGauss precision;
81  int debug;
82 
83  try {
84 
85  JParser<> zap("Program to test JGandalf algorithm.");
86 
87  zap['o'] = make_field(outputFile) = "";
88  zap['n'] = make_field(numberOfEvents) = 100;
89  zap['@'] = make_field(gauss) = JGauss(0.0, 1.0, 1000.0, 100.0);
90  zap['e'] = make_field(precision) = JGauss(0.05, 0.05, 25.0, 25.0);
91  zap['d'] = make_field(debug) = 3;
92 
93  zap(argc, argv);
94  }
95  catch(const exception& error) {
96  FATAL(error.what() << endl);
97  }
98 
99  using namespace JFIT;
100 
101  ASSERT(numberOfEvents > 0);
102 
103  JGandalf<JGauss>::debug = debug;
104 
105  TF1 fs("fs", "exp(-0.5 * (x-[0])*(x-[0]) / ([1]*[1]))");
106  TF1 fb("fb", "1.0");
107 
108  fs.FixParameter(0, gauss.mean);
109  fs.FixParameter(1, gauss.sigma);
110 
111  const Int_t nx = 21;
112  const Double_t xmin = -5.0;
113  const Double_t xmax = +5.0;
114 
115  JQuantile Q[] = { JQuantile("mean "),
116  JQuantile("sigma "),
117  JQuantile("signal "),
118  JQuantile("background") };
119 
120  TH1D H[] = { TH1D("ha", "", 101, -0.1, +0.1),
121  TH1D("hb", "", 101, -0.1, +0.1),
122  TH1D("hc", "", 101, -100.0, +100.0),
123  TH1D("hd", "", 101, -100.0, +100.0) };
124 
125  JTimer timer;
126 
127  for (int i = 0; i != numberOfEvents; ++i) {
128 
129  STATUS("event: " << setw(10) << i << '\r'); DEBUG(endl);
130 
131  TH1D h0("h0", NULL, nx, xmin, xmax);
132 
133  h0.Sumw2();
134 
135  h0.FillRandom("fs", (Int_t) gauss.signal);
136  h0.FillRandom("fb", (Int_t) gauss.background);
137 
138  vector<JElement_t> data;
139 
140  for (Int_t i = 1; i <= h0.GetNbinsX(); ++i) {
141  data.push_back(JElement_t(h0.GetBinCenter (i),
142  h0.GetBinContent(i)));
143  }
144 
145  JGandalf<JGauss> fit;
146 
147  JGandalf<JGauss>::EPSILON = 1.0e-4;
148 
149  fit.parameters.resize(4);
150 
151  fit.parameters[0] = &JGauss::mean;
152  fit.parameters[1] = &JGauss::sigma;
153  fit.parameters[2] = &JGauss::signal;
154  fit.parameters[3] = &JGauss::background;
155 
156  fit.value = JGauss(h0.GetMean(),
157  h0.GetRMS(),
158  h0.GetEntries() * (xmax - xmin) / nx - h0.GetMinimum(),
159  h0.GetMinimum());
160 
161  DEBUG("Start value " << fit.value << endl);
162 
163  timer.start();
164 
165  const double chi2 = fit(g1, data.begin(), data.end());
166 
167  timer.stop();
168 
169  DEBUG("Final value " << fit.value << endl);
170  DEBUG("Chi2 " << chi2 << endl);
171 
172  const double Y[] = { fit.value.mean - gauss.mean,
173  fit.value.sigma - gauss.sigma,
174  fit.value.signal * nx / (xmax - xmin) - gauss.signal,
175  fit.value.background * nx - gauss.background };
176 
177  for (int i = 0; i != sizeof(Q)/sizeof(Q[0]); ++i) {
178  Q[i].put (Y[i]);
179  H[i].Fill(Y[i]);
180  }
181  }
182 
183  for (int i = 0; i != sizeof(Q)/sizeof(Q[0]); ++i) {
184  NOTICE((i == 0 ? longprint : shortprint) << Q[i]);
185  }
186 
187  if (debug >= notice_t) {
188  timer.print(cout, true, micro_t);
189  }
190 
191  if (outputFile != "") {
192 
193  TFile out(outputFile.c_str(), "recreate");
194 
195  for (int i = 0; i != sizeof(H)/sizeof(H[0]); ++i) {
196  out << H[i];
197  }
198 
199  out.Write();
200  out.Close();
201  }
202 
203  for (int i = 0; i != sizeof(Q)/sizeof(Q[0]); ++i) {
204  ASSERT(fabs(Q[i].getMean()) < Q[i].getSTDev());
205  }
206 
207  ASSERT(Q[0].getSTDev() < precision.mean);
208  ASSERT(Q[1].getSTDev() < precision.sigma);
209  ASSERT(Q[2].getSTDev() < precision.signal);
210  ASSERT(Q[3].getSTDev() < precision.background);
211 
212  return 0;
213 }
GAUSS_LEGENDRE::xmax
const double xmax
Definition: JQuadrature.cc:24
JPARSER::JParser
Utility class to parse command line options.
Definition: JParser.hh:1514
Q
Q(UTCMax_s-UTCMin_s)-livetime_s
JEEP::micro_t
micro
Definition: JScale.hh:29
STATUS
#define STATUS(A)
Definition: JMessage.hh:63
JEEP::notice_t
notice
Definition: JMessage.hh:32
JPHYSICS::H
static const double H
Planck constant [eV s].
Definition: JPhysics/JConstants.hh:29
Y
then fatal Wrong number of arguments fi set_variable STRING $argv[1] set_variable DETECTORXY_TXT $WORKDIR $DETECTORXY_TXT tail read X Y CHI2 RMS printf optimum n $X $Y $CHI2 $RMS awk v Y
Definition: detector-XY:fit1d.sh:33
outputFile
string outputFile
Definition: JDAQTimesliceSelector.cc:37
getMean
double getMean(vector< double > &v)
get mean of vector content
Definition: JBeaconSimulator.cc:56
JMATH::JGauss
Gauss function object.
Definition: JGauss.hh:173
GAUSS_HERMITE::sigma
const double sigma[]
Definition: JQuadrature.cc:74
JACOUSTICS::JGandalf
Place holder for custom implementation.
Definition: JKatoomba_t.hh:726
ASSERT
#define ASSERT(A,...)
Assert macro.
Definition: JMessage.hh:90
make_field
#define make_field(A,...)
macro to convert parameter to JParserTemplateElement object
Definition: JParser.hh:1989
JEEP::JTimer
Auxiliary class for CPU timing and usage.
Definition: JTimer.hh:32
NOTICE
#define NOTICE(A)
Definition: JMessage.hh:64
shortprint
std::ostream & shortprint(std::ostream &out)
Set short printing.
Definition: JManip.hh:144
longprint
std::ostream & longprint(std::ostream &out)
Set long printing.
Definition: JManip.hh:172
FATAL
#define FATAL(A)
Definition: JMessage.hh:67
GAUSS_LEGENDRE::xmin
const double xmin
Definition: JQuadrature.cc:23
JACOUSTICS::JQuantile
Auxiliary data structure for average.
Definition: JKatoomba_t.hh:76
gauss
then set_variable NUMBER_OF_TESTS else set_variable NUMBER_OF_TESTS fi function gauss()
Definition: examples/scripts/gradient.sh:28
chi2
then if[[!-f $DETECTOR]] then JDetector sh $DETECTOR fi cat $WORKDIR trigger_parameters txt<< EOFtrigger3DMuon.enabled=1;trigger3DMuon.numberOfHits=5;trigger3DMuon.gridAngle_deg=1;ctMin=0.0;TMaxLocal_ns=15.0;EOF set_variable TRIGGEREFFICIENCY_TRIGGERED_EVENTS_ONLY INPUT_FILES=() for((i=1;$i<=$NUMBER_OF_RUNS;++i));do JSirene.sh $DETECTOR $JPP_DATA/genhen.km3net_wpd_V2_0.evt.gz $WORKDIR/sirene_ ${i}.root JTriggerEfficiency.sh $DETECTOR $DETECTOR $WORKDIR/sirene_ ${i}.root $WORKDIR/trigger_efficiency_ ${i}.root $WORKDIR/trigger_parameters.txt $JPP_DATA/PMT_parameters.txt INPUT_FILES+=($WORKDIR/trigger_efficiency_ ${i}.root) done for ANGLE_DEG in $ANGLES_DEG[*];do set_variable SIGMA_NS 3.0 set_variable OUTLIERS 3 set_variable OUTPUT_FILE $WORKDIR/matrix\[${ANGLE_DEG}\deg\].root $JPP_DIR/examples/JReconstruction-f"$INPUT_FILES[*]"-o $OUTPUT_FILE-S ${SIGMA_NS}-A ${ANGLE_DEG}-O ${OUTLIERS}-d ${DEBUG}--!fiif[[$OPTION=="plot"]];then if((0));then for H1 in h0 h1;do JPlot1D-f"$WORKDIR/matrix["${^ANGLES_DEG}" deg].root:${H1}"-y"1 2e3"-Y-L TR-T""-\^"number of events [a.u.]"-> o chi2
Definition: JMatrixNZ.sh:106
debug
int debug
debug level
Definition: archive-put-wiki-detectors.sh:92
DEBUG
#define DEBUG(A)
Message macros.
Definition: JMessage.hh:62
g1
Double_t g1(const Double_t x)
Function.
Definition: JQuantiles.cc:25
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