/** * Header_Scan * Author Nagni * version 1.0 * * Version 1.1 - 28 December 2004 * If outList does not exist the function exit to prompt * If nevents = 0 the function exit to promt * * Version 1.2 - 3 January 2005 * Two canvases are created to see the graphs better * * Version 1.25 - 13 January 2005 * Changed Int_t to Float because of variable range size * (UInt_t has been excluded beacuse of uncompatibility with TGraph) * * version 1.3 - 22 February 2005 - Nagni * For compatibility with batch mode excution: * 1) Added "include " and "using namespace std" * 2) Removed gROOT->Reset() * * Version 1.4 * Date 08 March 2005 * Added "format" parameter for saving the produced image in various formats * (for a complete list of types refer to TPad::SaveAs method) * * Version 1.5 * Date 09 February 2006 - Marcelli * Update to work with new Yoda output * * Version 1.6 * Date 27 February 2006 - Marcelli * For compilation: * Added function "int main(int argc, char* argv[])" * * * Description: This script creates two canvases with five pads. The first pad shows packetID variable (for all packets) vs. OBT. * The second pad shows the number of physic packets vs. OBT. The third pad shows the lenght of Physic packets (byte) vs. OBT. * The fourth pad shows the packetcounter of physic packets vs. OBT. The fifth pad shows PacketCounter vs. File Offset. * * Parameters: * TSTring base - the path to the root directory for the specific Pamela unpack session * There is no default value, without this input the program will not run * TString outDir - the path where to save the output image (Default = ./) * TString format - the format which will be used fo rsave the produced images (Default = "jpg") * * * Version 1.7 * Date 16 June 2006 - Malvezzi * * Description of changes: * Implementation of the case: numebr of events <= 0. * Remove graph "grPcktId1"; see PacketScan for the same information. * Fixed bugs: for a large namber of events is not possible to have vectors, so I have subsituted graphs with histograms * or divided the graphs in more than one canvas. * * Version 1.8 * Date 8 August 2006 - Malvezzi * * Description: changed the scale in the second and third graph of the first canvas; added a pad of text in the second canvas * */ #include #include #include "TLatex.h" #include "TF1.h" #include "TPaveText.h" #include "TMultiGraph.h" #include #include #include #include #include "TString.h" #include "TStyle.h" #include "TFile.h" #include "TList.h" #include "TTree.h" #include "TObjString.h" #include "TCanvas.h" #include "TGraph.h" #include "TH1F.h" #include "TGaxis.h" #include "EventHeader.h" #include "PscuHeader.h" #include "RunHeaderEvent.h" #include "TPaveText.h" using namespace std; void HeaderScan(TString base, TString outDir, TString format){ //------------------- Variables initilization -------------------------// Long64_t nevents=0, runnevents; ULong_t lastime, firstime, primotempo, ultimotempo, primoffset=500000000, ultimoffset; double obmin=0.; double obmax=0.; stringstream oss, oss1, oss2, oss3, noentries, stringa; //-------------- Load root file, tree and branch -------------------// TFile *file = new TFile(base.Data()); if (!file){ printf("No such file in the directory has been found"); return; } TTree *PhysicsTr = (TTree*)file->Get("Physics"); TBranch *headBr = PhysicsTr->GetBranch("Header"); pamela::EventHeader *eh = new pamela::EventHeader; pamela::PscuHeader *ph = new pamela::PscuHeader; PhysicsTr->SetBranchAddress("Header", &eh); nevents = PhysicsTr->GetEntries(); const Int_t size = nevents; TTree *RunHeadTr = (TTree*)file->Get("RunHeader"); ///run header tree pamela::EventHeader *eH= new pamela::EventHeader; pamela::RunHeaderEvent *reh=new pamela::RunHeaderEvent; RunHeadTr->SetBranchAddress("Header",&eH); RunHeadTr->SetBranchAddress("RunHeader",&reh); runnevents = RunHeadTr->GetEntries(); TString filename = ((TObjString*)base.Tokenize('/')->Last())->GetString(); filename = ((TObjString*)filename.Tokenize('.')->First())->GetString(); //----------- If nevents < = 0 ---------------------------------/ if (nevents<=0) { printf("nevents = %i \n", nevents); printf(" \n"); TCanvas *canv = new TCanvas("No entries", "No entries ", 400, 200); canv->SetFillColor(10); canv->cd(); TLatex *l = new TLatex(); l->SetTextAlign(12); l->SetTextSize(0.15); l->SetTextColor(2); noentries.str(""); noentries<< "HeaderScan_QL:"; l->DrawLatex(0.05, 0.7, noentries.str().c_str()); noentries.str(""); noentries<< "No Physics entries for this files"; l->DrawLatex(0.05, 0.5, noentries.str().c_str()); if (outDir == "./") { oss.str(""); oss << filename.Data() << "_HeaderScan_QL." << format.Data(); } else { oss.str(""); oss << outDir.Data() << filename.Data() << "_HeaderScan_QL." << format.Data(); } canv->Update(); canv->SaveAs(oss.str().c_str()); return; } //-------------- to know the max and min OBT ----------------------------// headBr->GetEntry(0); ph = eh->GetPscuHeader(); firstime = ph->GetOrbitalTime(); headBr->GetEntry(nevents); ph = eh->GetPscuHeader(); lastime = ph->GetOrbitalTime(); int i =0; while(i < nevents){ headBr->GetEntry(i); ph = eh->GetPscuHeader(); if((ph->GetOrbitalTime()) <= firstime) firstime=ph->GetOrbitalTime(); if((ph->GetOrbitalTime()) >= lastime) lastime=ph->GetOrbitalTime(); i++; } //------------------------ First histogram -----------------------------------// obmin=firstime; obmax=lastime; Int_t nbin = (lastime-firstime)/60000; TH1F *h1 = new TH1F ("histo1", "" , nbin, obmin, obmax); //------------------- fill vectors and histogram -----------------------------// Double_t *PscuCounter = new Double_t[size]; Double_t *PacketLenght = new Double_t[size]; Double_t *OBTime = new Double_t[size]; Double_t *Eventsperminute= new Double_t[nbin]; Double_t *Minute= new Double_t[nbin]; Int_t max=0; for (Int_t k = 0; k < nevents; k++){ headBr->GetEntry(k); ph = eh->GetPscuHeader(); h1->Fill(ph->GetOrbitalTime()); PscuCounter[k]= ph->GetCounter(); PacketLenght[k]=ph->GetPacketLenght(); OBTime[k]=ph->GetOrbitalTime(); } int l=0; while(lGetBinContent(l); Minute[l]=firstime+l*60000; if(h1->GetBinContent(l) >= max)max =(Int_t)h1->GetBinContent(l); l++; } //----------- Graph and MultiGraph -----------------------------------------------// TMultiGraph *rate = new TMultiGraph(); TMultiGraph *packetLength = new TMultiGraph(); TMultiGraph *packeCounter = new TMultiGraph(); oss1.str(""); oss1 << "Physics Packet per minute. Start time = " << obmin << ", End time = "<< obmax <<" ms"; TGraph *rate1= new TGraph(nbin, (const Double_t*)Minute, (const Double_t*)Eventsperminute); rate1->SetMarkerColor(kBlack); rate1->SetMarkerSize(.1); rate1->SetMarkerStyle(21); rate->Add(rate1); TGraph *packetLength1= new TGraph(nevents, (const Double_t*)OBTime, (const Double_t*)PacketLenght); oss2.str(""); oss2 <<"Lenght of Physic packets"; packetLength1->SetMarkerColor(2); packetLength1->SetMarkerSize(.3); packetLength1->SetMarkerStyle(21); packetLength->Add(packetLength1); TGraph *packeCounter1= new TGraph(nevents, (const Double_t*)OBTime, (const Double_t*)PscuCounter); oss3.str(""); oss3 <<"Physics Counter vs. OBT"; packeCounter1->SetMarkerColor(4); packeCounter1->SetMarkerSize(.2); packeCounter1->SetMarkerStyle(21); packeCounter->Add(packeCounter1); //------------ Create and Draw Canvas ---------------------// TCanvas *finalCanv = new TCanvas("Header", base, 1200, 1600); finalCanv->Divide(1,6); finalCanv->SetFillColor(10); TPad *all2= new TPad ("","", 0, 0, 1, 1); all2->SetFillColor(10); TPad *all3= new TPad ("","", 0, 0, 1, 1); all3->SetFillColor(10); TPad *all4= new TPad ("","", 0, 0, 1, 1); all4->SetFillColor(10); TPad *all= new TPad ("","", 0, 0, 1, 1); all->SetFillColor(10); TPad *all1= new TPad ("","", 0, 0, 1, 1); all1->SetFillColor(10); TLine li; li.SetLineStyle(4); li.SetLineWidth(2); //----------- First PAD -------------------------------// finalCanv->cd(1); all2->Draw(); all2->cd(); rate->Draw("ALP"); rate->GetXaxis()->SetTitle("OBT (ms)"); rate->GetXaxis()->SetTitleSize(0.05); rate->GetXaxis()->CenterTitle(); rate->GetXaxis()->SetLabelSize(0.05); rate->GetYaxis()->SetTitle("Number of events "); rate->GetYaxis()->CenterTitle(); rate->GetYaxis()->SetLabelSize(0.05); rate->GetYaxis()->SetTitleSize(0.06); rate->GetYaxis()->SetTitleOffset(0.6); for (Int_t l = 0; l < runnevents; l++){ RunHeadTr->GetEntry(l); ph = eH->GetPscuHeader(); int ws= reh->RM_ACQ_SETTING_MODE; int id = ph->GetPacketId1(); Int_t obt = ph->GetOrbitalTime(); if (ws==1){ li.SetLineColor(3); li.DrawLine(obt,0,obt,max); } else if (ws==2){ li.SetLineColor(4); li.DrawLine(obt,0,obt,max); } } RunHeadTr->GetEntry(0); ph = eH->GetPscuHeader(); ULong_t TimeSync = reh->LAST_TIME_SYNC_INFO; ULong_t ObtSync = reh->OBT_TIME_SYNC; //cout<<"TimeSync "<LAST_TIME_SYNC_INFO<<"\n"; //cout<<"ObtSync "<OBT_TIME_SYNC<<"\n"; finalCanv->cd(1); stringstream ws1, ws2; ws1.str(""); ws2.str(""); ws1<<"ACQ_SETTING_MODE = 1"; ws2<<"ACQ_SETTING_MODE = 2"; TPaveText *pt=0; pt = new TPaveText (.60,.92,.76,.98); pt->AddText(ws1.str().c_str()); pt->SetTextColor(3); pt->SetFillColor(10); pt->SetBorderSize(0); pt->Draw(); TPaveText *pt1=0; pt1 = new TPaveText (.76,.92,.92,.98); pt1->AddText(ws2.str().c_str()); pt1->SetTextColor(4); pt1->SetFillColor(10); pt1->SetBorderSize(0); pt1->Draw(); pt1 = new TPaveText (.05,.91,.6,1); pt1->AddText(oss1.str().c_str()); pt1->SetTextColor(1); pt1->SetFillColor(10); pt1->SetBorderSize(0); pt1->Draw(); //----------- Second PAD -------------------------------// finalCanv->cd(2); all3->Draw(); all3->cd(); packetLength->Draw("AP"); packetLength->GetXaxis()->SetTitle("OBT (ms)"); packetLength->GetXaxis()->SetTitleSize(0.05); packetLength->GetXaxis()->CenterTitle(); packetLength->GetXaxis()->SetLabelSize(0.05); packetLength->GetYaxis()->SetTitle("Lenght (byte)"); packetLength->GetYaxis()->CenterTitle(); packetLength->GetYaxis()->SetLabelSize(0.05); packetLength->GetYaxis()->SetTitleSize(0.06); packetLength->GetYaxis()->SetTitleOffset(0.6); finalCanv->cd(2); pt = new TPaveText (.6,.91,.90,1); pt->AddText(oss2.str().c_str()); pt->SetTextColor(2); pt->SetFillColor(10); pt->SetBorderSize(0); pt->Draw(); //----------- Third PAD -------------------------------// finalCanv->cd(3); all4->Draw(); all4->cd(); packeCounter->Draw("AP"); packeCounter->GetXaxis()->SetTitle("OBT (ms)"); packeCounter->GetXaxis()->SetTitleSize(0.05); packeCounter->GetXaxis()->CenterTitle(); packeCounter->GetXaxis()->SetLabelSize(0.05); packeCounter->GetYaxis()->SetTitle("Counter"); packeCounter->GetYaxis()->SetTitleSize(0.05); packeCounter->GetYaxis()->CenterTitle(); packeCounter->GetYaxis()->SetLabelSize(0.05); packeCounter->GetYaxis()->SetTitleSize(0.06); packeCounter->GetYaxis()->SetTitleOffset(0.6); finalCanv->cd(3); TPaveText *pt2=0; pt2 = new TPaveText (.6,.91,.90,1); pt2->AddText(oss3.str().c_str()); pt2->SetTextColor(4); pt2->SetFillColor(10); pt2->SetBorderSize(0); pt2->Draw(); /**********************************************************************************************/ TMultiGraph *mg1 = new TMultiGraph(); TMultiGraph *mg2 = new TMultiGraph(); //---------------------- fill vectors and histogram --------------------------------------------------// TList *list = new TList; Int_t numkey; TObject *key = new TObject; const char *name; char *SoftInfo="SoftInfo"; TTree* tr = new TTree; Long64_t nevntskey=0; list = file->GetListOfKeys(); numkey = file->GetNkeys(); ULong_t salto; for (Int_t m=0; mAt(m); name=(char *)(key->GetName()); if(strcmp(name,SoftInfo)==0)continue; tr = (TTree*)file->Get(name); if (tr->IsZombie()) continue; tr->SetBranchAddress("Header", &eh); TBranch *Br = tr->GetBranch("Header"); nevntskey = tr->GetEntries(); if(nevntskey !=0){ Int_t size1=nevntskey; Double_t *PscuCounter1 = new Double_t[size1]; Double_t *FileOffset1 = new Double_t[size1]; Double_t *tempo1 = new Double_t[size1]; int n=0; while(nGetEntry(n); ph = eh->GetPscuHeader(); PscuCounter1[n]= ph->GetCounter(); FileOffset1[n]=ph->GetFileOffset(); tempo1[n]=ph->GetOrbitalTime(); if((m==0) && (n==0)){ primotempo=ph->GetOrbitalTime(); salto=ph->GetOrbitalTime(); } if(salto > ph->GetOrbitalTime())salto=ph->GetOrbitalTime(); if(ph->GetFileOffset()<= primoffset){ primoffset=ph->GetFileOffset(); primotempo=ph->GetOrbitalTime(); } if(ph->GetFileOffset()>=ultimoffset){ ultimotempo=ph->GetOrbitalTime(); ultimoffset=ph->GetFileOffset(); } n++; } TGraph *graph3= new TGraph(nevntskey, (const Double_t*)FileOffset1, (const Double_t*)PscuCounter1); graph3->SetMarkerColor(3); graph3->SetMarkerSize(.2); graph3->SetMarkerStyle(21); mg1->Add(graph3); TGraph *graph4= new TGraph(nevntskey, (const Double_t*)FileOffset1, (const Double_t*)tempo1); graph4->SetMarkerColor(kBlue); graph4->SetMarkerSize(.2); graph4->SetMarkerStyle(21); mg2->Add(graph4); } } TLatex *lat = new TLatex(); lat->SetTextAlign(12); lat->SetTextSize(0.15); lat->SetTextColor(kBlue); //------------ Fourth PAD ---------------------// finalCanv->cd(4); all1->Draw(); all1->cd(); oss1.str(""); oss1 <<"PscuCounter vs FileOffset."; mg1->Draw("AP"); mg1->GetXaxis()->SetTitle("File Offset"); mg1->GetXaxis()->CenterTitle(); mg1->GetXaxis()->SetTitleOffset(0.8); mg1->GetXaxis()->SetTitleSize(0.05); mg1->GetXaxis()->SetLabelSize(0.05); mg1->GetYaxis()->SetTitle("Counter"); mg1->GetYaxis()->CenterTitle(); mg1->GetYaxis()->SetTitleSize(0.06); mg1->GetYaxis()->SetLabelSize(0.06); mg1->GetYaxis()->SetTitleOffset(0.6); finalCanv->cd(4); TPaveText *pt3=0; pt3 = new TPaveText (.60,.91,.90,1); pt3->AddText(oss1.str().c_str()); pt3->SetTextColor(3); pt3->SetFillColor(10); pt3->SetBorderSize(0); pt3->Draw(); //------------ Fifth PAD ---------------------// finalCanv->cd(5); all->Draw(); all->cd(); oss3.str(""); oss3 << "OBT vs FileOffset"; mg2->Draw("AP"); mg2->GetXaxis()->SetTitle("File Offset"); mg2->GetXaxis()->CenterTitle(); mg2->GetXaxis()->SetTitleSize(0.05); mg2->GetXaxis()->SetLabelSize(0.05); mg2->GetYaxis()->SetTitle("OBT"); mg2->GetYaxis()->CenterTitle(); mg2->GetYaxis()->SetTitleSize(0.06); mg2->GetYaxis()->SetLabelSize(0.05); mg2->GetYaxis()->SetTitleOffset(0.6); finalCanv->cd(5); TPaveText *pt4=0; pt4 = new TPaveText (.70,.91,.90,1); pt4->AddText(oss3.str().c_str()); pt4->SetTextColor(kBlue); pt4->SetFillColor(10); pt4->SetBorderSize(0); pt4->Draw(); finalCanv->cd(6); ULong_t primotempoABS=TimeSync+((primotempo/1000)-ObtSync); ULong_t obmaxABS=TimeSync+((lastime/1000)-ObtSync); ULong_t saltoABS=TimeSync+((salto/1000)-ObtSync); ULong_t ultimotempoABS=TimeSync+((ultimotempo/1000)-ObtSync); TPaveText *pt5=0; pt5 = new TPaveText (0,0,1,1); stringa.str(""); stringa << " Filename: "<AddText(0.25,0.95,stringa.str().c_str()); t1->SetTextSize(0.1); stringa.str(""); stringa << " OBT (ms) ABS TIME (s)"; TText *t2=pt5->AddText(0.32,0.75,stringa.str().c_str()); t2->SetTextSize(0.07); stringa.str(""); stringa << "New data start at: "<AddText(0.25,0.60,stringa.str().c_str()); t3->SetTextSize(0.08); stringa.str(""); stringa << "New data end at: "<AddText(0.25,0.50,stringa.str().c_str()); t4->SetTextSize(0.08); if(primotempo!=salto || lastime!=ultimotempo){ stringa.str(""); stringa << "Old data start at: "<AddText(0.65,0.60,stringa.str().c_str()); t5->SetTextSize(0.08); stringa.str(""); stringa << "Old data end at: "<AddText(0.65,0.50,stringa.str().c_str()); t6->SetTextSize(0.08); stringa.str(""); stringa << " OBT (ms) ABS TIME (s)"; TText *t2=pt5->AddText(0.72,0.75,stringa.str().c_str()); t2->SetTextSize(0.07); } pt5->SetTextColor(kBlack); pt5->SetFillColor(10); pt5->SetBorderSize(0); pt5->Draw(); finalCanv->Update(); oss1.str(""); oss1 << outDir.Data() << filename.Data(); oss1 << "_HeaderScan"<<"." << format.Data(); finalCanv->SaveAs(oss1.str().c_str()); file->Close(); } int main(int argc, char* argv[]){ TString path; TString outDir = "./"; TString format = "jpg"; if (argc < 2){ printf("You have to insert at least the file to analyze \n"); printf("Try '--help' for more information. \n"); exit(1); } if (!strcmp(argv[1], "--help")){ printf( "Usage: HeaderScan FILE [OPTION] \n"); printf( "\t --help Print this help and exit \n"); printf( "\t -outDir[path] Path where to put the output [default ./] \n"); printf( "\t -format[jpg|ps|gif] Format for output files [default 'jpg'] \n"); exit(1); } path=argv[1]; for (int i = 2; i < argc; i++){ if (!strcmp(argv[i], "-outDir")){ if (++i >= argc){ printf( "-outDir needs arguments. \n"); printf( "Try '--help' for more information. \n"); exit(1); } else{ outDir = argv[i]; continue; } } if (!strcmp(argv[i], "-format")){ if (++i >= argc){ printf( "-format needs arguments. \n"); printf( "Try '--help' for more information. \n"); exit(1); } else{ format = argv[i]; continue; } } } HeaderScan(argv[1], outDir, format); }