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Stephen A. Wood authored
Use qrt signal to identify quartets, find pattern if it doesn't. Fail over to HMS helicity signals if SHMS not found Add pcheck and cycle global vars (for fine tuning frequency) Start a helicity scaler class. Just compares seeds for now.
Stephen A. Wood authoredUse qrt signal to identify quartets, find pattern if it doesn't. Fail over to HMS helicity signals if SHMS not found Add pcheck and cycle global vars (for fine tuning frequency) Start a helicity scaler class. Just compares seeds for now.
THcHelicityScaler.cxx 8.39 KiB
/** \class THcHelicityScaler
\ingroup Base
\brief Event handler for Hall C helicity scalers
Scalers not yet implemented. For now just picks the helicity control
bits out of the scaler words
~~~
gHaEvtHandlers->Add (new THcHelicityScaler("H","HC helicity scalers"));
~~~
To enable debugging you may try this in the setup script
~~~
THcHelcityScaler *hhelscaler = new THcHelicityScaler("H","HC helicity scalers");
hscaler->SetDebugFile("HHelScaler.txt");
gHaEvtHandlers->Add (hhelscaler);
~~~
\author
*/
#include "THaEvtTypeHandler.h"
#include "THcHelicityScaler.h"
#include "THaCodaData.h"
#include "THaEvData.h"
#include "THcParmList.h"
#include "THcGlobals.h"
#include "THaGlobals.h"
#include "THcHelicity.h"
#include "TNamed.h"
#include "TMath.h"
#include "TString.h"
#include "TROOT.h"
#include <cstring>
#include <cstdio>
#include <cstdlib>
#include <iostream>
#include <sstream>
#include <map>
#include <iterator>
#include "THaVarList.h"
#include "VarDef.h"
#include "Helper.h"
using namespace std;
using namespace Decoder;
static const UInt_t ICOUNT = 1;
static const UInt_t IRATE = 2;
static const UInt_t ICURRENT = 3;
static const UInt_t ICHARGE = 4;
static const UInt_t ITIME = 5;
static const UInt_t ICUT = 6;
static const UInt_t MAXCHAN = 32;
static const UInt_t defaultDT = 4;
THcHelicityScaler::THcHelicityScaler(const char *name, const char* description)
: THaEvtTypeHandler(name,description),
fBCM_Gain(0), fBCM_Offset(0), fBCM_delta_charge(0),
fBankID(9801),
evcount(0), evcountR(0.0), ifound(0),
fUseFirstEvent(kTRUE),
fOnlySyncEvents(kFALSE), fOnlyBanks(kFALSE), fDelayedType(-1),
fClockChan(-1), fLastClock(0), fClockOverflows(0)
{
fRocSet.clear();
}
THcHelicityScaler::~THcHelicityScaler()
{
delete [] fBCM_Gain; delete [] fBCM_Offset;
delete [] fBCM_delta_charge;
for( vector<UInt_t*>::iterator it = fDelayedEvents.begin();
it != fDelayedEvents.end(); ++it )
delete [] *it;
fDelayedEvents.clear();
}
Int_t THcHelicityScaler::End( THaRunBase* )
{
// Process any delayed events in order received
cout << "THcHelicityScaler::End Analyzing " << fDelayedEvents.size() << " delayed scaler events" << endl;
for(std::vector<UInt_t*>::iterator it = fDelayedEvents.begin();
it != fDelayedEvents.end(); ++it) {
UInt_t* rdata = *it;
AnalyzeBuffer(rdata,kFALSE);
}
for( vector<UInt_t*>::iterator it = fDelayedEvents.begin();
it != fDelayedEvents.end(); ++it )
delete [] *it;
fDelayedEvents.clear();
return 0;
}
Int_t THcHelicityScaler::ReadDatabase(const TDatime& date )
{
char prefix[2];
prefix[0]='g';
prefix[1]='\0';
return kOK;
}
void THcHelicityScaler::SetDelayedType(int evtype) {
/**
* \brief Delay analysis of this event type to end.
*
* Final scaler events generated in readout list end routines may not
* come in order in the data stream. If the event type of a end routine
* scaler event is set, then the event contents will be saved and analyzed
* at the end of the analysis so that time ordering of scaler events is preserved.
*/
fDelayedType = evtype;
}
Int_t THcHelicityScaler::Analyze(THaEvData *evdata)
{
if ( !IsMyEvent(evdata->GetEvType()) ) return -1;
if (fDebugFile) {
*fDebugFile << endl << "---------------------------------- "<<endl<<endl;
*fDebugFile << "\nEnter THcHelicityScaler for fName = "<<fName<<endl;
EvDump(evdata);
}
UInt_t *rdata = (UInt_t*) evdata->GetRawDataBuffer();
if(evdata->GetEvType() == fDelayedType) { // Save this event for processing later
Int_t evlen = evdata->GetEvLength();
UInt_t *datacopy = new UInt_t[evlen];
fDelayedEvents.push_back(datacopy);
memcpy(datacopy,rdata,evlen*sizeof(UInt_t));
return 1;
} else { // A normal event
if (fDebugFile) *fDebugFile<<"\n\nTHcHelicityScaler :: Debugging event type "<<dec<<evdata->GetEvType()<< " event num = " << evdata->GetEvNum() << endl<<endl; evNumber=evdata->GetEvNum();
Int_t ret;
if((ret=AnalyzeBuffer(rdata,fOnlySyncEvents))) {
//
}
return ret;
}
}
Int_t THcHelicityScaler::AnalyzeBuffer(UInt_t* rdata, Bool_t onlysync)
{
fNevents = 0;
// Parse the data, load local data arrays.
UInt_t *p = (UInt_t*) rdata;
UInt_t *plast = p+*p; // Index to last word in the bank
Int_t roc = -1;
Int_t evlen = *p+1;
ifound=0;
while(p<plast) {
Int_t banklen = *p;
p++; // point to header
if (fDebugFile) {
*fDebugFile << "Bank: " << hex << *p << dec << " len: " << *(p-1) << endl;
}
if((*p & 0xff00) == 0x1000) { // Bank Containing banks
if(evlen-*(p-1) > 1) { // Don't use overall event header
roc = (*p>>16) & 0xf;
if(fDebugFile) *fDebugFile << "ROC: " << roc << " " << evlen << " " << *(p-1) << hex << " " << *p << dec << endl;
// cout << "ROC: " << roc << " " << evlen << " " << *(p-1) << hex << " " << *p << dec << endl;
if(fRocSet.find(roc)==fRocSet.end()) { // Not a ROC with helicity scaler
p+=*(p-1)-1; // Skip to next ROC
}
}
p++; // Now pointing to a bank in the bank
} else if (((*p & 0xff00) == 0x100) && (*p != 0xC0000100)) {
// Bank containing integers. Look for scalers
// This is either ROC bank containing integers or
// a bank within a ROC containing data from modules of a single type
// Look for banks with the helicity scaler bank ID (9801)
// Assume that very first word is a scaler header
// At any point in the bank where the word is not a matching
// header, we stop.
UInt_t tag = (*p>>16) & 0xffff; // Bank ID (ROC #)
// UInt_t num = (*p) & 0xff;
UInt_t *pnext = p+banklen; // Next bank
p++; // First data word
// If the bank is not a helicity scaler bank
// or it is not one of the ROC containing helcity scaler data
// skip to the next bank
//cout << "BankID=" << tag << endl;
if (tag != fBankID) {
p = pnext; // Fall through to end of the above else if
// cout << " Skipping to next bank" << endl;
} else {
// This is a helicity scaler bank
if (roc == 5) {
Int_t nevents = (banklen-2)/32;
//cout << "# of helicity events in bank:" << " " << nevents << endl;
if (nevents > 100) {
cout << "Error! Beam off for too long" << endl;
}
fNevents = nevents;
fNcycles += nevents;
// Save helcitiy and quad info for THcHelicity
for (Int_t iev = 0; iev < nevents; iev++) { // find number of helicity events in each bank
Int_t nentries = 32*iev+2;
fHelicityHistory[iev] = (p[nentries-1]>>30) & 0x3;
// cout << "H: " << evNumber << endl;
}
}
}
while(p < pnext) {
Int_t nskip = 0;
if(fDebugFile) {
*fDebugFile << "Scaler Header: " << hex << *p << dec;
}
if(nskip == 0) {
if(fDebugFile) {
*fDebugFile << endl;
}
break; // Didn't find a matching header
}
p = p + nskip;
}
p = pnext;
} else {
p = p+*(p-1); // Skip to next bank
}
}
if (fDebugFile) {
*fDebugFile << "Finished with decoding. "<<endl;
*fDebugFile << " Found flag = "<<ifound<<endl;
}
// HMS has headers which are different from SOS, but both are
// event type 0 and come here. If you found no headers, return.
if (!ifound) return 0;
return 1;
}
//Int_t THcHelicityScaler::AnalyzeHelicityScaler(UInt_t *p)
//{
//}
THaAnalysisObject::EStatus THcHelicityScaler::Init(const TDatime& date)
{
ReadDatabase(date);
fStatus = kOK;
for( vector<UInt_t*>::iterator it = fDelayedEvents.begin();
it != fDelayedEvents.end(); ++it )
delete [] *it;
fDelayedEvents.clear();
cout << "Howdy ! We are initializing THcHelicityScaler !! name = "
<< fName << endl;
if(eventtypes.size()==0) {
eventtypes.push_back(0); // Default Event Type
}
fRocSet.insert(5); // List ROCs that have helicity scalers fRocSet.insert(8); // Should make configurable
fNcycles = 0;
fNevents = 0;
return kOK;
}
size_t THcHelicityScaler::FindNoCase(const string& sdata, const string& skey)
{
// Find iterator of word "sdata" where "skey" starts. Case insensitive.
string sdatalc, skeylc;
sdatalc = ""; skeylc = "";
for (string::const_iterator p =
sdata.begin(); p != sdata.end(); ++p) {
sdatalc += tolower(*p);
}
for (string::const_iterator p =
skey.begin(); p != skey.end(); ++p) {
skeylc += tolower(*p);
}
if (sdatalc.find(skeylc,0) == string::npos) return -1;
return sdatalc.find(skeylc,0);
};
ClassImp(THcHelicityScaler)