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jlab / hallc / exp / polhe3 / hallc_replay
684 commits behind the upstream repository.
-
Brad Sawatzky authored
- This closes a few-minute long race window where a file will be on tape (and moved out of raw/ to raw.copiedtotape/), but is not yet in cache/. This can be hit by online-replay folks who fire off replay a immediately after ending a run.
Brad Sawatzky authored- This closes a few-minute long race window where a file will be on tape (and moved out of raw/ to raw.copiedtotape/), but is not yet in cache/. This can be hit by online-replay folks who fire off replay a immediately after ending a run.
replay_hms_raster_simple.C 3.53 KiB
void replay_hms_raster_simple(Int_t RunNumber=0, Int_t MaxEvent=0) {
// Get RunNumber and MaxEvent if not provided.
if(RunNumber == 0) {
cout << "Enter a Run Number (-1 to exit): ";
cin >> RunNumber;
if( RunNumber<=0 ) return;
}
if(MaxEvent == 0) {
cout << "\nNumber of Events to analyze: ";
cin >> MaxEvent;
if(MaxEvent == 0) {
cerr << "...Invalid entry\n";
exit;
}
}
// Create file name patterns.
const char* RunFileNamePattern = "hms_all_%05d.dat";
vector<TString> pathList;
pathList.push_back(".");
pathList.push_back("./raw");
pathList.push_back("./raw/../raw.copiedtotape");
pathList.push_back("./cache");
const char* ROOTFileNamePattern = "ROOTfiles/hms_raster_simple_%d_%d.root";
// Add variables to global list.
gHcParms->Define("gen_run_number", "Run Number", RunNumber);
gHcParms->AddString("g_ctp_database_filename", "DBASE/HMS/STD/standard.database");
//Load global parameters
// Load varibles from files to global list.
gHcParms->Load(gHcParms->GetString("g_ctp_database_filename"), RunNumber);
// g_ctp_parm_filename and g_decode_map_filename should now be defined.
gHcParms->Load(gHcParms->GetString("g_ctp_kinematics_filename"), RunNumber);
gHcParms->Load(gHcParms->GetString("g_ctp_parm_filename"));
gHcParms->Load(gHcParms->GetString("g_ctp_calib_filename"));
// Load params for HMS trigger configuration
gHcParms->Load("PARAM/TRIG/thms_raster.param");
// Load the Hall C style detector map
gHcDetectorMap = new THcDetectorMap();
gHcDetectorMap->Load("MAPS/HMS/DETEC/RASTER/hraster_simple.map");
// Add trigger apparatus
THaApparatus* TRG = new THcTrigApp("T", "TRG");
gHaApps->Add(TRG);
// Add trigger detector to trigger apparatus
THcTrigDet* hms = new THcTrigDet("hms", "HMS Trigger Information");
TRG->AddDetector(hms);
// Set up the analyzer - we use the standard one,
// but this could be an experiment-specific one as well.
// The Analyzer controls the reading of the data, executes
// tests/cuts, loops over Acpparatus's and PhysicsModules,
// and executes the output routines.
THcAnalyzer* analyzer = new THcAnalyzer;
// A simple event class to be output to the resulting tree.
// Creating your own descendant of THaEvent is one way of
// defining and controlling the output.
THaEvent* event = new THaEvent;
// Define the run(s) that we want to analyze.
// We just set up one, but this could be many.
THaRun* run = new THaRun( pathList, Form(RunFileNamePattern, RunNumber) );
// Eventually need to learn to skip over, or properly analyze
// the pedestal events
run->SetEventRange(1, MaxEvent); // Physics Event number, does not // include scaler or control events.
run->SetNscan(1);
run->SetDataRequired(0x7);
run->Print();
// Define the analysis parameters
TString ROOTFileName = Form(ROOTFileNamePattern, RunNumber, MaxEvent);
analyzer->SetCountMode(2); // 0 = counter is # of physics triggers
// 1 = counter is # of all decode reads
// 2 = counter is event number
analyzer->SetEvent(event);
// Define crate map
analyzer->SetCrateMapFileName("MAPS/db_cratemap.dat");
// Define output ROOT file
analyzer->SetOutFile(ROOTFileName.Data());
// Define DEF-file
analyzer->SetOdefFile("DEF-files/HMS/RASTER/hms_raster_simple.def");
// Define cuts file
analyzer->SetCutFile("DEF-files/HMS/RASTER/hms_raster_simple_cuts.def"); // optional
// Start the actual analysis.
analyzer->Process(run);
}