122 JParser<> zap(
"Program to test JGandalf algorithm.");
132 catch(
const exception& error) {
133 FATAL(error.what() << endl);
136 using namespace JFIT;
138 ASSERT(numberOfEvents > 0);
142 TF1 fs(
"fs",
"exp(-0.5 * (x-[0])*(x-[0]) / ([1]*[1]))");
145 fs.FixParameter(0,
gauss[0]);
146 fs.FixParameter(1,
gauss[1]);
149 const Double_t
xmin = -5.0;
150 const Double_t
xmax = +5.0;
157 TH1D
H[] = { TH1D(
"ha",
"", 101, -0.1, +0.1),
158 TH1D(
"hb",
"", 101, -0.1, +0.1),
159 TH1D(
"hc",
"", 101, -100.0, +100.0),
160 TH1D(
"hd",
"", 101, -100.0, +100.0) };
164 for (
int i = 0; i != numberOfEvents; ++i) {
166 STATUS(
"event: " << setw(10) << i <<
'\r');
DEBUG(endl);
168 TH1D h0(
"h0", NULL, nx,
xmin,
xmax);
172 h0.FillRandom(
"fs", (Int_t)
gauss[2]);
173 h0.FillRandom(
"fb", (Int_t) gauss[3]);
177 for (Int_t i = 1; i <= h0.GetNbinsX(); ++i) {
178 data.push_back(JElement_t(h0.GetBinCenter (i),
179 h0.GetBinContent(i)));
184 fit.parameters.resize(4);
186 for (
size_t i = 0; i != 4; ++i) {
187 fit.parameters[i] = i;
190 fit.value =
JGauss(h0.GetMean(),
192 h0.GetEntries() * (
xmax -
xmin) / nx - h0.GetMinimum(),
195 DEBUG(
"Start value " << fit.value << endl);
199 const double chi2 = fit(
g1, data.begin(), data.end());
203 DEBUG(
"Final value " << fit.value << endl);
204 DEBUG(
"Chi2 " << chi2 << endl);
206 const double Y[] = { fit.value[0] - gauss[0],
207 fit.value[1] - gauss[1],
208 fit.value[2] * nx / (
xmax -
xmin) - gauss[2],
209 fit.value[3] * nx - gauss[3] };
211 for (
int i = 0; i !=
sizeof(
Q)/
sizeof(
Q[0]); ++i) {
217 for (
int i = 0; i !=
sizeof(
Q)/
sizeof(
Q[0]); ++i) {
222 timer.print(cout,
true,
micro_t);
229 for (
int i = 0; i !=
sizeof(
H)/
sizeof(
H[0]); ++i) {
237 for (
int i = 0; i !=
sizeof(
Q)/
sizeof(
Q[0]); ++i) {
241 ASSERT(
Q[0].getSTDev() < precision[0]);
242 ASSERT(
Q[1].getSTDev() < precision[1]);
243 ASSERT(
Q[2].getSTDev() < precision[2]);
244 ASSERT(
Q[3].getSTDev() < precision[3]);
Utility class to parse command line options.
Q(UTCMax_s-UTCMin_s)-livetime_s
static const double H
Planck constant [eV s].
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
double getMean(vector< double > &v)
get mean of vector content
#define ASSERT(A,...)
Assert macro.
#define make_field(A,...)
macro to convert parameter to JParserTemplateElement object
Auxiliary class for CPU timing and usage.
std::ostream & shortprint(std::ostream &out)
Set short printing.
std::ostream & longprint(std::ostream &out)
Set long printing.
then set_variable NUMBER_OF_TESTS else set_variable NUMBER_OF_TESTS fi function gauss()
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
#define DEBUG(A)
Message macros.
Double_t g1(const Double_t x)
Function.
1.8.5