fixed BM1D.cc

This commit is contained in:
Balázs Gyöngyösi 2017-11-06 23:06:18 +01:00
parent 4d0b94e145
commit a4ef471926
1 changed files with 75 additions and 37 deletions

100
BM1D.cc
View File

@ -4,6 +4,7 @@
#include "TApplication.h" #include "TApplication.h"
#include "Analyse.hh" #include "Analyse.hh"
#include "BM1DSave.hh" #include "BM1DSave.hh"
#include "Draw2D.hh"
using namespace std; using namespace std;
@ -11,31 +12,72 @@ int main(int argc, char* argv[])
{ {
Int_t nSteps, nRuns; Int_t nSteps, nRuns;
Double_t p0,p1,x1,x2; Double_t p0,p1,x1,x2;
Double_t mu1, mu2, sigma1, sigma2; Double_t mu1, mu2, sigma1, sigma2, percent;
Double_t j_mu1, j_sigma1;////////////////////// Double_t j_mu1, j_sigma1;//////////////////////
Double_t rat;////////////////////// Double_t rat;//////////////////////
int nGenerated, nop;
const char* fileName="input.root"; const char* fileName="input.root";
char random_type='j'; char random_type='u';
Int_t vis, typeOfRun; Int_t vis, typeOfRun;
nSteps=nRuns=vis=typeOfRun=0; nSteps=nRuns=vis=typeOfRun=0;
//default runs with less parameters mu1=mu2=sigma1=sigma2=p0=p1=x1=x2=0.0;
random_type = 'j'; if(argc==15)
nSteps = 1000; {
nRuns = 5; nSteps=atoi(argv[1]);
p0 = 0; nRuns=atoi(argv[2]);
p1 = 0; p0=atof(argv[3]);
x1 = 200000; p1=atof(argv[4]);
x2 = 200000; x1=atof(argv[5]);
mu1 = 1; x2=atof(argv[6]);
mu2 = -6; mu1=atof(argv[7]);
sigma1 = 0.8; mu2=atof(argv[8]);
sigma2 = 0.2; sigma1=atof(argv[9]);
vis = 1; sigma2=atof(argv[10]);
typeOfRun = 1; fileName=argv[11];
random_type=argv[12][0];
vis=atoi(argv[13]); if((vis!=0)&&(vis!=1)){vis=0;}
typeOfRun=atoi(argv[14]); if((typeOfRun!=0)&&(typeOfRun!=1)&&(typeOfRun!=2)){typeOfRun=0;}
//todo fix parameters
percent = 0.99;
nGenerated = 7000;
nop = 30;
j_mu1=-25; j_mu1=-25;
j_sigma1=0.3; j_sigma1=0.3;
rat=0.9; rat=0.9;
}
else
{
//default runs with less parameters
random_type = 'g';
nSteps = 2000;
nRuns = 1;
p0 = 0.5;
p1 = 0;
x1 = 0;
x2 = 0;
mu1 = 1;
mu2 = 0;
sigma1 = 10;
sigma2 = 0;
j_mu1=-25;
j_sigma1=0.3;
rat=0.9;
percent = 0.99;
nGenerated = 8000;
nop = 30;
vis = 1;
typeOfRun = 1;
}
TApplication App("tapp", &argc, argv); TApplication App("tapp", &argc, argv);
BM1DProcess *myBM1DProcess = new BM1DProcess(); BM1DProcess *myBM1DProcess = new BM1DProcess();
@ -51,14 +93,13 @@ int main(int argc, char* argv[])
break; break;
case 'j': case 'j':
myBM1DProcess->Run(nRuns, nSteps, p0, x1, x2, mu1, sigma1, mu2, sigma2, j_mu1, j_sigma1, rat); myBM1DProcess->Run(nRuns, nSteps, p0, x1, x2, mu1, sigma1, mu2, sigma2, j_mu1, j_sigma1, rat);
//cout << "\nOK\n";
break; break;
default: default:
cout<<"ERROR! Wrong parameter for type of random generator! \n No run!"<<endl; cout<<"ERROR! Wrong parameter for type of random generator! \n No run!"<<endl;
break; break;
} }
/*
TH1D *hJump = new TH1D("h", "test", 100, -30., 30.); TH1D *hJump = new TH1D("h", "test", 100, -30., 30.);
hJump->Sumw2(); hJump->Sumw2();
std::vector<Double_t> x = myBM1DProcess->GetX(); std::vector<Double_t> x = myBM1DProcess->GetX();
@ -67,25 +108,22 @@ int main(int argc, char* argv[])
hJump->Fill(x[i]-x[i-1]); hJump->Fill(x[i]-x[i-1]);
} }
hJump->Draw(); hJump->Draw();
*/
// std::cout << "Pontok szama: "<< x.size() << "\n";
Plotter* myPlotter = new Plotter(vis==1); Plotter* myPlotter = new Plotter(vis==1);
myPlotter->Plot(nRuns, nSteps, myBM1DProcess->GetT(), myBM1DProcess->GetX()); myPlotter->Plot(nRuns, nSteps, myBM1DProcess->GetT(), myBM1DProcess->GetX());
Draw2D *myDraw2D = new Draw2D(nop, percent, nGenerated, myBM1DProcess->GetT(), myBM1DProcess->GetX()); //nop percent nruns
switch(random_type){
case 'g' :
Analyse *myAnalyse = new Analyse();
// Analyse *myAnalyse = new Analyse(); myAnalyse->AnalyseGaus(myBM1DProcess->GetT(),myBM1DProcess->GetX());
myDraw2D -> Histo2D();
// switch(random_type){ }
// case 'g' : BM1DSave *save = new BM1DSave();
// myAnalyse->AnalyseGaus(myBM1DProcess->GetT(),myBM1DProcess->GetX()); save->SaveToTree(myPlotter->GetTmultiGraph(), p0, p1, nSteps, nRuns, x1, x2, mu1, mu2, sigma1, sigma2, myBM1DProcess->GetT(), myBM1DProcess->GetX(),fileName);
// }
// BM1DSave *save = new BM1DSave();
// save->SaveToTree(myPlotter->GetTmultiGraph(), p0, p1, nSteps, nRuns, x1, x2, mu1, mu2, sigma1, sigma2, myBM1DProcess->GetT(), myBM1DProcess->GetX(),fileName);
App.Run(); App.Run();
return 0; return 0;
} }