#include <L1Trigger/RPCTrigger/interface/MuonsGrabber.h>

Public Member Functions
void	addMuon (RPCTBMuon &mu, int lvl, int region, int hs, int index)

void	setRPCBasicTrigConfig (RPCBasicTrigConfig *c)

void	startNewEvent (int event, int bx)

void	writeDataForRelativeBX (int bx)

Static Public Member Functions
static MuonsGrabber &	Instance ()

Private Member Functions
std::string	IntToString (int i)

	MuonsGrabber ()

	MuonsGrabber (const MuonsGrabber &)

const MuonsGrabber &	operator= (const MuonsGrabber &)

virtual	~MuonsGrabber ()

Private Attributes
int	m_currentBX

int	m_currentEvent

XERCES_CPP_NAMESPACE::DOMElement *	m_currEvent

XERCES_CPP_NAMESPACE::DOMDocument *	m_doc

XERCES_CPP_NAMESPACE::DOMImplementation *	m_dom

std::vector< RPCMuonExtraStruct >	m_muons

XERCES_CPP_NAMESPACE::DOMElement *	m_rootElem

RPCBasicTrigConfig *	m_trigConfig

Detailed Description

Description: <one line="" class="" summary>="">

Usage: <usage>

Definition at line 53 of file MuonsGrabber.h.

Constructor & Destructor Documentation

MuonsGrabber::MuonsGrabber ( )

private

Definition at line 70 of file MuonsGrabber.cc.

References edm::hlt::Exception, m_currEvent, m_doc, m_dom, m_rootElem, AlCaHLTBitMon_QueryRunRegistry::string, X, and cms::concurrency::xercesInitialize().

 {
 
     try {
        cms::concurrency::xercesInitialize();
     }
     catch(const XMLException &toCatch)  {
       throw std::string("Error during Xerces-c Initialization: "
                  + std::string(XMLString::transcode(toCatch.getMessage())));
     }
  
    m_dom = DOMImplementationRegistry::getDOMImplementation(X("Core"));
    if (m_dom == 0) throw cms::Exception("RPCMuonsGrabber") << "Cannot get DOM" << std::endl;
 
    m_doc = m_dom->createDocument(
                           0,                    // root element namespace URI.
                           X("rpctDataStream"),         // root element name
                           0);                   // document type object (DTD).
 
    m_rootElem = m_doc->getDocumentElement();
          
    m_currEvent = 0;
 }

MuonsGrabber::~MuonsGrabber ( )

privatevirtual

Definition at line 100 of file MuonsGrabber.cc.

References m_doc, m_rootElem, and X.

 {
 
   // save xmlfile
   XMLCh tempStr[100];
   XMLString::transcode("LS", tempStr, 99);
   DOMImplementation *impl          = DOMImplementationRegistry::getDOMImplementation(tempStr);
   DOMWriter         *theSerializer = ((DOMImplementationLS*)impl)->createDOMWriter();
   
   theSerializer->setEncoding(X("UTF-8"));
 
   if (theSerializer->canSetFeature(XMLUni::fgDOMWRTFormatPrettyPrint, true))
               theSerializer->setFeature(XMLUni::fgDOMWRTFormatPrettyPrint, true);
 
   XMLFormatTarget *myFormTarget = new LocalFileFormatTarget(X("testpulses.xml"));
   DOMNode* xmlstylesheet  = m_doc->createProcessingInstruction(X("xml-stylesheet"),
                                      X("type=\"text/xsl\"href=\"default.xsl\""));
 
   m_doc->insertBefore(xmlstylesheet, m_rootElem);
   theSerializer->writeNode(myFormTarget, *m_doc);
         
   delete theSerializer;
   delete myFormTarget;
   m_doc->release();
       
 
        
 
 }

MuonsGrabber::MuonsGrabber ( const MuonsGrabber & )

private

Member Function Documentation

void MuonsGrabber::addMuon	(	RPCTBMuon &	mu,
		int	lvl,
		int	region,
		int	hs,
		int	index
	)

Definition at line 144 of file MuonsGrabber.cc.

References RPCMuon::getPtCode(), and m_muons.

Referenced by RPCHalfSorter::run(), RPCFinalSorter::run(), RPCTriggerBoard::runCone(), RPCPacTrigger::runEvent(), and RPCTriggerCrate::runTCGBSorter().

                                                                                 {
     
     if (mu.getPtCode()>0) m_muons.push_back( RPCMuonExtraStruct(lvl, region, hs, index, mu) );
 }

MuonsGrabber & MuonsGrabber::Instance ( )

static

Definition at line 58 of file MuonsGrabber.cc.

Referenced by RPCTrigger::produce(), RPCHalfSorter::run(), RPCFinalSorter::run(), RPCTriggerBoard::runCone(), RPCPacTrigger::runEvent(), and RPCTriggerCrate::runTCGBSorter().

                                      {
 
     static MuonsGrabber grabber;
     return grabber;
 
 }

std::string MuonsGrabber::IntToString ( int i )

private

Definition at line 317 of file MuonsGrabber.cc.

References i, and contentValuesCheck::ss.

Referenced by startNewEvent(), and writeDataForRelativeBX().

                                         {
 
    std::stringstream ss;
     ss << i;
 
      return ss.str();
 
 }

const MuonsGrabber& MuonsGrabber::operator= ( const MuonsGrabber & )

private

void MuonsGrabber::setRPCBasicTrigConfig ( RPCBasicTrigConfig * c )

inline

Definition at line 61 of file MuonsGrabber.h.

References EnergyCorrector::c, and m_trigConfig.

Referenced by RPCTrigger::produce().

61 {m_trigConfig = c;};

EnergyCorrector.c

tuple c

Definition: EnergyCorrector.py:43

MuonsGrabber::m_trigConfig

RPCBasicTrigConfig * m_trigConfig

Definition: MuonsGrabber.h:76

void MuonsGrabber::startNewEvent	(	int	event,
		int	bx
	)

Definition at line 130 of file MuonsGrabber.cc.

References event(), IntToString(), m_currentBX, m_currentEvent, m_currEvent, m_doc, m_rootElem, and X.

Referenced by RPCTrigger::produce().

                                                   {
     
      //<event bx="0" num="0">
       m_currEvent = m_doc->createElement(X("event"));
       m_currEvent->setAttribute(X("num"), X( IntToString(event).c_str())); 
       m_currEvent->setAttribute(X("bx"),  X( IntToString(bx).c_str())); 
       m_rootElem->appendChild(m_currEvent);  
 
       
       m_currentEvent = event;
       m_currentBX = bx;
 }

void MuonsGrabber::writeDataForRelativeBX ( int bx )

Definition at line 149 of file MuonsGrabber.cc.

References edm::hlt::Exception, RPCBasicTrigConfig::getTBNum(), RPCBasicTrigConfig::getTCNum(), RPCBasicTrigConfig::getTowerNumOnTb(), IntToString(), testEve_cfg::level, RPCMuonExtraStruct::lvlCompare(), m_currEvent, m_doc, m_muons, m_trigConfig, RPCpg::mu, python.multivaluedict::sort(), and X.

Referenced by RPCTrigger::produce().

                                                {
 
   if (m_muons.empty()) return; 
 
   //<bxData num="11">
   DOMElement* currRelBx = m_doc->createElement(X("bxData"));
   currRelBx->setAttribute(X("num"), X( IntToString(bx).c_str()));
   m_currEvent->appendChild(currRelBx);
   
   //std::cout << "Writing out for relBx "   << bx << std::endl;
  
   //   <hs num="1" be="0">
   // levels
   // 0 - PAC
   // 1 - tbgs 
   // 2 - tcgs
   // 3 - hs
   // 4 fs
 
   std::sort(m_muons.begin(), m_muons.end(), RPCMuonExtraStruct::lvlCompare) ;
   for (int tcNum = 0; tcNum <= 11; ++tcNum  ) {
     DOMElement* tc = 0;
     DOMElement* tcgs = 0;
     for (int tbNum = 0; tbNum <= 10; ++tbNum  ) { // check actual range, probably till 9 total 
       DOMElement* tb = 0;
       DOMElement* tbgs = 0;
       for (int PAC = 0; PAC <= 4; ++PAC  ) { // same here
         
          DOMElement* pac = 0;
         // for (int segment = 0; segment <= 11; ++segment ) {      
            std::vector< RPCMuonExtraStruct >::iterator it = m_muons.begin();
            while ( it != m_muons.end()) {
              int muSegment =  it->_mu.getLogSegment();
              //if 
              
              int muTBno = m_trigConfig->getTBNum( it->_mu.getConeCrdnts() );
              int muPACChipNo = m_trigConfig->getTowerNumOnTb(it->_mu.getConeCrdnts() );  
              int muTC =   m_trigConfig->getTCNum(it->_mu.getConeCrdnts() );
              
              if ( 
                  !( 
                         ( int(it->_level) == 0  && tbNum == muTBno &&  muTC == tcNum &&   PAC == muPACChipNo)  
                      || ( int(it->_level) == 1  && tbNum == muTBno &&  muTC == tcNum )
                      || ( int(it->_level) == 2  &&  muTC == tcNum )  
                   )
                 )
   
              {
                ++it;
                continue;
              }
             // std::cout << int(it->_level) << int(it->_region) << int(it->_hsHalf)
               //         << " " << int(it->_index)
                 //       << " " << it->_mu.printDebugInfo(2) << std::endl;
              
 
              if (tc==0) {
                tc = m_doc->createElement(X("tc"));
                currRelBx->appendChild(tc);
                tc->setAttribute(X("num"), X( IntToString(tcNum).c_str()));
 
                tcgs = m_doc->createElement(X("tcgs"));
                tc->appendChild(tcgs);
                
              }
              if (tb==0 && int(it->_level) <= 1) { 
                tb = m_doc->createElement(X("tb"));
                tc->appendChild(tb);
                tb->setAttribute(X("num"), X( IntToString(tbNum).c_str()));
                
                tbgs = m_doc->createElement(X("tbgs"));
                tb->appendChild(tbgs);
              }
 
              if (pac == 0 && int(it->_level) == 0) {
                pac =m_doc->createElement(X("pac"));
                tb->appendChild(pac);
                pac->setAttribute(X("num"), X( IntToString(muPACChipNo).c_str()));
              }
              
              DOMElement* mu = m_doc->createElement(X("mu"));
              mu->setAttribute(X("pt"), X( IntToString( int(it->_mu.getPtCode() ) ).c_str()));
              mu->setAttribute(X("qual"), X( IntToString( int(it->_mu.getQuality() ) ).c_str()));
              mu->setAttribute(X("sign"), X( IntToString( int(it->_mu.getSign() ) ).c_str()));
 
              if (int(it->_level) == 0 ) {
                mu->setAttribute(X("num"), X( IntToString( muSegment ).c_str()));
                pac->appendChild(mu); 
              } else {
                 mu->setAttribute(X("num"), X( IntToString( int(it->_index) ).c_str()));
                 mu->setAttribute(X("phi"), X( IntToString( int(it->_mu.getPhiAddr() ) ).c_str()));
                 mu->setAttribute(X("eta"), X( IntToString( int(it->_mu.getEtaAddr() ) ).c_str()));
                 mu->setAttribute(X("gbD"), X( IntToString( int(it->_mu.getGBData()  ) ).c_str()));
                 if (int(it->_level) == 1 ) { 
                   tbgs->appendChild(mu); 
                 } else if (int(it->_level) == 2 ) {
                    tcgs->appendChild(mu);
                 } else {
                   throw cms::Exception("RPCMuonsGrabber") << "xx Unexpected level" << std::endl;
                 }
              }
 
              
              it = m_muons.erase(it);             
              
            } // muons iter
         // } // segment
       } // PAC 
     } // TB
   } // TC
 
   
 
   
   for (int level=3; level<=4;++level)  {
     for (int half =0; half <= 1; ++half){
       for (int be =0; be <= 1; ++be){ // brl/endcap
     
       std::vector< RPCMuonExtraStruct >::iterator it = m_muons.begin();
       DOMElement* hs = 0;
       while ( it != m_muons.end()) {
           if ( (int(it->_level) != level) || int(it->_hsHalf)!=half  || int(it->_region)!=be )  {
             ++it;
             continue;
           }
           
           if (hs == 0) {
             if (level == 3) { 
               hs = m_doc->createElement(X("hs"));
               hs->setAttribute(X("num"), X( IntToString(half).c_str()));
             } else  if (level ==4 ) {
               hs = m_doc->createElement(X("fs"));
             } else { // shoudlnt get here
               throw cms::Exception("RPCMuonsGrabber") << "Problem writing out muons - lvl " << level << std::endl;
             }
             hs->setAttribute(X("be"), X( IntToString(be).c_str()));
             currRelBx->appendChild(hs);
           }
           
           DOMElement* mu = m_doc->createElement(X("mu"));
           hs->appendChild(mu);
           mu->setAttribute(X("num"), X( IntToString( int(it->_index) ).c_str()));
           mu->setAttribute(X("pt"), X( IntToString( int(it->_mu.getPtCode() ) ).c_str()));
           mu->setAttribute(X("qual"), X( IntToString( int(it->_mu.getQuality() ) ).c_str()));
           mu->setAttribute(X("sign"), X( IntToString( int(it->_mu.getSign() ) ).c_str()));
           mu->setAttribute(X("phi"), X( IntToString( int(it->_mu.getPhiAddr() ) ).c_str()));
           mu->setAttribute(X("eta"), X( IntToString( int(it->_mu.getEtaAddr() ) ).c_str()));
           mu->setAttribute(X("gbD"), X( IntToString( int(it->_mu.getGBData()  ) ).c_str()));
           
             //std::cout << int(it->_level) << int(it->_region) << int(it->_hsHalf) 
             //   << " " << int(it->_index) 
             //   << " " << it->_mu.printDebugInfo(2) << std::endl;
 
           it = m_muons.erase(it);
 
         } // muons iter  
       } // be iter
     } //half iteration
   } // lvl iteration
 
   if (m_muons.size()!=0) {
      throw cms::Exception("RPCMuonsGrabber") << " There are still some muons in muons vec" << std::endl;
   
   }
 }