//
// systVoltage.C
// <Enter discription here>
//
// Created by Christian Elsasser on 31.05.13.
// University of Zurich, elsasser@cern.ch
// Copyright only for commercial use
//
// General include
#include <iostream>
#include <fstream>
#include <vector>
#include <map>
#include <stdlib.h>
#include <limits>
#include <string>
#include <time.h>
// ROOT include
#include "incBasicROOT.h"
#include "incFuncROOT.h"
#include "incDrawROOT.h"
#include "incGraphROOT.h"
#include "incIOROOT.h"
#include "TExMap.h"
#include "basicROOTTools.h"
#include "lhcbstyle.C"
#include "deplTool.h"
int systVoltage(int argc, char* argv[]);
int main(int argc, char* argv[]){
TStyle* style = lhcbStyle();
int argc_copy = argc;
TApplication* theApp = new TApplication("Analysis", &argc, argv);
argc = theApp->Argc();
argv = theApp->Argv();
bool runBatch = false;
for (int i = 1; i<argc; i++) {
if (strcmp(argv[i],"-b")==0) {
runBatch = true;
gROOT->SetBatch();
}
}
int exit = systVoltage(argc,argv);
Printf("End");
if (!runBatch) {
theApp->Run(!runBatch);
}
return exit;
}
// Executable method
int systVoltage(int argc, char* argv[]){
TVectorD v_res(5);
gStyle->SetPadLeftMargin(0.20);
gStyle->SetTitleOffset(1.5,"Y");
gStyle->SetTitleOffset(1.0,"X");
const char* diskVar = std::getenv ("DISK");
const char* homeVar = std::getenv ("HOME");
TString det("TT");
TString lay("TTaU");
// Reading command line arguments
for (int i=1; i<argc; i++) {
if (strcmp(argv[i],"-d")==0 && i+1<argc) { // Detector
det = argv[++i];
}else if (strcmp(argv[i],"-l")==0 && i+1<argc) { // Layer
lay = argv[++i];
}
}
TString dn_fill(Form("%s/cmtuser/Vetra_v13r2/ST/STAging/data/db",homeVar));
TString fn_fill(Form("%s/lumi.root",dn_fill.Data()));
TString dn_deplV(Form("%s/cmtuser/Vetra_v13r2/ST/STAging/data/db",homeVar));
TString fn_deplV(Form("%s/vdepl.root",dn_deplV.Data()));
TFile* f_fill = TFile::Open(fn_fill.Data());
TFile* f_deplV = TFile::Open(fn_deplV.Data());
TVectorD* vp_fill = (TVectorD*)f_fill->Get("v_fill");
TVectorD* vp_sector = (TVectorD*)f_deplV->Get(Form("v_sector_%s",lay.Data()));
if (!vp_sector || !vp_fill) {
Error("systVoltage","Fill and/or sector vector are not available");
return EXIT_FAILURE;
}
TVectorD v_sector = *vp_sector;
TVectorD v_fill = *vp_fill;
TString dn_ratio(Form("%s/cmtuser/Vetra_v13r2/ST/STAging/data/db"
,homeVar));
TString fn_syst(Form("%s/systVolt.root",
dn_ratio.Data()));
TFile* f_map = TFile::Open(fn_syst.Data());
TExMap* m_lin = (TExMap*)f_map->Get(Form("m_lin_%s",lay.Data())); // Deviations from linear approach
TExMap* m_sig = (TExMap*)f_map->Get(Form("m_sig_%s",lay.Data())); // Deviations from sigmoid approach
TH1F* h_lin = new TH1F("h_lin","systematic histogram",
50,-50.0,50.0);
h_lin->SetXTitle("#Delta#it{V} [V]");
h_lin->SetYTitle(Form("Entries / (%4.2f V)",h_lin->GetBinWidth(1)));
TH1F* h_sig = (TH1F*)h_lin->Clone("h_sig");
for (int i=0; i<v_fill.GetNoElements(); i++) {
for (int j=0; j<v_sector.GetNoElements(); j++) {
int sector = (int)v_sector(j);
int fill = (int)v_fill(i);
if (STTool::IsExcluded(sector)) {
Warning("systVoltage","Sector excluded");
continue;
}
double v_sig = *(reinterpret_cast<double*>(&(*m_sig)(fill*10000+sector)));
if (TMath::Abs(v_sig)>1e-6) {
h_sig->Fill(v_sig);
}
double v_lin = *(reinterpret_cast<double*>(&(*m_lin)(fill*10000+sector)));
if (TMath::Abs(v_lin)>1e-6) {
h_lin->Fill(v_lin);
}
}
}
Info("systVoltage","Systematic linear: %8.4f V",h_lin->GetRMS());
Info("systVoltage","Systematic sigmoid: %8.4f V",h_sig->GetRMS());
TCanvas* c_lin = new TCanvas("c_lin","Canvas linear",800,600);
c_lin->cd();
h_lin->Draw("PE");
TCanvas* c_sig = new TCanvas("c_sig","Canvas sigmoid",800,600);
c_sig->cd();
h_sig->Draw("PE");
Printf("=========================================\n");
return EXIT_SUCCESS;
}
elena