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XMLConfigWriter Class Reference

#include <XMLConfigWriter.h>

Public Member Functions

void finaliseXMLDocument (const std::string &fName)
 
void finaliseXMLDocument (const std::string &fName)
 
unsigned int findMaxInput (const OMTFConfiguration::vector1D &myCounts)
 
unsigned int findMaxInput (const OMTFConfiguration::vector1D &myCounts)
 
void initialiseXMLDocument (const std::string &docName)
 
void initialiseXMLDocument (const std::string &docName)
 
void writeAlgoMuon (xercesc::DOMElement *aTopElement, unsigned int iRefHit, const AlgoMuon &aMuon)
 
void writeAlgoMuon (xercesc::DOMElement *aTopElement, const AlgoMuon &aMuon)
 
void writeCandMuon (xercesc::DOMElement *aTopElement, const l1t::RegionalMuonCand &aCand)
 
void writeCandMuon (xercesc::DOMElement *aTopElement, const l1t::RegionalMuonCand &aCand)
 
void writeConnectionsData (const std::vector< std::vector< OMTFConfiguration::vector2D > > &measurements4D)
 
void writeConnectionsData (const std::vector< std::vector< OMTFConfiguration::vector2D > > &measurements4D)
 
xercesc::DOMElement * writeEventData (xercesc::DOMElement *aTopElement, const OmtfName &board, const OMTFinput &aInput)
 
xercesc::DOMElement * writeEventData (xercesc::DOMElement *aTopElement, const OmtfName &board, const OMTFinput &aInput)
 
xercesc::DOMElement * writeEventHeader (unsigned int eventId, unsigned int mixedEventId=0)
 
xercesc::DOMElement * writeEventHeader (unsigned int eventId, unsigned int mixedEventId=0)
 
void writeGPData (const GoldenPattern &aGP)
 
void writeGPData (const GoldenPattern &aGP1, const GoldenPattern &aGP2, const GoldenPattern &aGP3, const GoldenPattern &aGP4)
 
void writeGPData (GoldenPattern &aGP)
 
void writeGPData (GoldenPattern *aGP1, GoldenPattern *aGP2, GoldenPattern *aGP3, GoldenPattern *aGP4)
 
template<class GoldenPatternType >
void writeGPs (const GoldenPatternVec< GoldenPatternType > &goldenPats, std::string fName)
 
void writeResultsData (xercesc::DOMElement *aTopElement, unsigned int iRegion, const Key &aKey, const OMTFResult &aResult)
 
void writeResultsData (xercesc::DOMElement *aTopElement, unsigned int iRegion, const Key &aKey, const GoldenPatternResult &aResult)
 
 XMLConfigWriter (const OMTFConfiguration *aOMTFConfig)
 
 XMLConfigWriter (const OMTFConfiguration *aOMTFConfig, bool writePdfThresholds=false, bool writeMeanDistPhi1=false)
 

Private Attributes

xercesc::DOMImplementation * domImpl
 
const OMTFConfigurationmyOMTFConfig
 
xercesc::DOMDocument * theDoc
 
xercesc::DOMElement * theTopElement
 
bool writeMeanDistPhi1 = false
 
bool writePdfThresholds = false
 

Detailed Description

Definition at line 28 of file XMLConfigWriter.h.

Constructor & Destructor Documentation

◆ XMLConfigWriter() [1/2]

XMLConfigWriter::XMLConfigWriter ( const OMTFConfiguration aOMTFConfig)

Initialise XML document

Definition at line 88 of file XMLConfigWriter.cc.

References _toDOMS(), domImpl, and myOMTFConfig.

88  {
89  XMLPlatformUtils::Initialize();
90 
92  domImpl = DOMImplementationRegistry::getDOMImplementation(_toDOMS("Range"));
93 
94  myOMTFConfig = aOMTFConfig;
95 }
XMLCh * _toDOMS(std::string temp)
const OMTFConfiguration * myOMTFConfig
xercesc::DOMImplementation * domImpl

◆ XMLConfigWriter() [2/2]

XMLConfigWriter::XMLConfigWriter ( const OMTFConfiguration aOMTFConfig,
bool  writePdfThresholds = false,
bool  writeMeanDistPhi1 = false 
)

Initialise XML document

Definition at line 88 of file XMLConfigWriter.cc.

References _toDOMS(), domImpl, and myOMTFConfig.

90  XMLPlatformUtils::Initialize();
91 
93  domImpl = DOMImplementationRegistry::getDOMImplementation(_toDOMS("Range"));
94 
95  myOMTFConfig = aOMTFConfig;
96 }
XMLCh * _toDOMS(std::string temp)
const OMTFConfiguration * myOMTFConfig
xercesc::DOMImplementation * domImpl

Member Function Documentation

◆ finaliseXMLDocument() [1/2]

void XMLConfigWriter::finaliseXMLDocument ( const std::string &  fName)

Definition at line 114 of file XMLConfigWriter.cc.

References domImpl, fileCollector2::fName, and theTopElement.

Referenced by XMLEventWriter::endJob(), OMTFReconstruction::endJob(), OMTFPatternMaker::endJob(), and writeGPs().

114  {
115  XMLFormatTarget* formTarget = new LocalFileFormatTarget(fName.c_str());
116 
117 #if _XERCES_VERSION < 30100
118  xercesc::DOMWriter* domWriter = (dynamic_cast<DOMImplementation*>(domImpl))->createDOMWriter();
119  if (domWriter->canSetFeature(XMLUni::fgDOMWRTFormatPrettyPrint, true)) {
120  domWriter->setFeature(XMLUni::fgDOMWRTFormatPrettyPrint, true);
121  }
122  domWriter->writeNode(formTarget, *theTopElement);
123 
124 #else
125  xercesc::DOMLSSerializer* theSerializer = (dynamic_cast<DOMImplementation*>(domImpl))->createLSSerializer();
126  if (theSerializer->getDomConfig()->canSetParameter(XMLUni::fgDOMWRTFormatPrettyPrint, true))
127  theSerializer->getDomConfig()->setParameter(XMLUni::fgDOMWRTFormatPrettyPrint, true);
128  DOMLSOutput* theOutput = (dynamic_cast<DOMImplementation*>(domImpl))->createLSOutput();
129  theOutput->setByteStream(formTarget);
130  theSerializer->write(theTopElement, theOutput);
131  theOutput->release();
132  theSerializer->release();
133 #endif
134 
135  delete formTarget;
136 }
xercesc::DOMElement * theTopElement
xercesc::DOMImplementation * domImpl

◆ finaliseXMLDocument() [2/2]

void XMLConfigWriter::finaliseXMLDocument ( const std::string &  fName)

◆ findMaxInput() [1/2]

unsigned int XMLConfigWriter::findMaxInput ( const OMTFConfiguration::vector1D myCounts)

Definition at line 659 of file XMLConfigWriter.cc.

References SiStripPI::max.

Referenced by writeConnectionsData().

659  {
660  unsigned int max = 0;
661  unsigned int maxInput = 0;
662  for (unsigned int iInput = 0; iInput < 14; ++iInput) {
663  if (myCounts[iInput] > (int)max) {
664  max = myCounts[iInput];
665  maxInput = iInput;
666  }
667  }
668  return maxInput;
669 }

◆ findMaxInput() [2/2]

unsigned int XMLConfigWriter::findMaxInput ( const OMTFConfiguration::vector1D myCounts)

◆ initialiseXMLDocument() [1/2]

void XMLConfigWriter::initialiseXMLDocument ( const std::string &  docName)

Definition at line 98 of file XMLConfigWriter.cc.

References _toDOMS(), domImpl, myOMTFConfig, OMTFConfiguration::patternsVersion(), theDoc, theTopElement, and BeamSplash_cfg::version.

Referenced by OMTFReconstruction::beginRun(), OMTFPatternMaker::endJob(), writeGPs(), and XMLEventWriter::XMLEventWriter().

98  {
99  theDoc = domImpl->createDocument(nullptr, _toDOMS(docName), nullptr);
100  theTopElement = theDoc->getDocumentElement();
101 
102  unsigned int version = myOMTFConfig->patternsVersion();
103  unsigned int mask16bits = 0xFFFF;
104 
105  version &= mask16bits;
106 
107  std::ostringstream stringStr;
108  stringStr.str("");
109  stringStr << "0x" << std::hex << std::setfill('0') << std::setw(4) << version;
110  theTopElement->setAttribute(_toDOMS("version"), _toDOMS(stringStr.str()));
111 }
XMLCh * _toDOMS(std::string temp)
xercesc::DOMDocument * theDoc
unsigned int patternsVersion() const
xercesc::DOMElement * theTopElement
const OMTFConfiguration * myOMTFConfig
xercesc::DOMImplementation * domImpl

◆ initialiseXMLDocument() [2/2]

void XMLConfigWriter::initialiseXMLDocument ( const std::string &  docName)

◆ writeAlgoMuon() [1/2]

void XMLConfigWriter::writeAlgoMuon ( xercesc::DOMElement *  aTopElement,
unsigned int  iRefHit,
const AlgoMuon aMuon 
)

Definition at line 219 of file XMLConfigWriter.cc.

References _toDOMS(), funct::abs(), XERCES_CPP_NAMESPACE_USE::eta2Bits(), AlgoMuon::getCharge(), AlgoMuon::getDisc(), AlgoMuon::getEta(), AlgoMuon::getHits(), AlgoMuon::getPatternNumber(), AlgoMuon::getPhi(), AlgoMuon::getPhiRHit(), AlgoMuon::getPt(), AlgoMuon::getQ(), AlgoMuon::getRefLayer(), and theDoc.

Referenced by XMLEventWriter::observeProcesorEmulation(), and OMTFReconstruction::writeResultToXML().

219  {
220  xercesc::DOMElement* aResult = theDoc->createElement(_toDOMS("AlgoMuon"));
221  std::ostringstream stringStr;
222  stringStr.str("");
223  stringStr << iRefHit;
224  aResult->setAttribute(_toDOMS("iRefHit"), _toDOMS(stringStr.str()));
225  stringStr.str("");
226  stringStr << aCand.getPt();
227  aResult->setAttribute(_toDOMS("ptCode"), _toDOMS(stringStr.str()));
228  stringStr.str("");
229  stringStr << aCand.getPhi();
230  aResult->setAttribute(_toDOMS("phiCode"), _toDOMS(stringStr.str()));
231  stringStr.str("");
232  stringStr << eta2Bits(abs(aCand.getEta()));
233  aResult->setAttribute(_toDOMS("etaCode"), _toDOMS(stringStr.str()));
234  stringStr.str("");
235  stringStr << aCand.getCharge();
236  aResult->setAttribute(_toDOMS("charge"), _toDOMS(stringStr.str()));
237  stringStr.str("");
238  stringStr << aCand.getQ();
239  aResult->setAttribute(_toDOMS("nHits"), _toDOMS(stringStr.str()));
240  stringStr.str("");
241  stringStr << aCand.getDisc();
242  aResult->setAttribute(_toDOMS("disc"), _toDOMS(stringStr.str()));
243  stringStr.str("");
244  stringStr << aCand.getRefLayer();
245  aResult->setAttribute(_toDOMS("iRefLayer"), _toDOMS(stringStr.str()));
246  stringStr.str("");
247  stringStr << std::bitset<18>(aCand.getHits());
248  aResult->setAttribute(_toDOMS("layers"), _toDOMS(stringStr.str()));
249  stringStr.str("");
250  stringStr << aCand.getPhiRHit();
251  aResult->setAttribute(_toDOMS("phiRHit"), _toDOMS(stringStr.str()));
252  stringStr.str("");
253  stringStr << aCand.getPatternNumber();
254  aResult->setAttribute(_toDOMS("patNum"), _toDOMS(stringStr.str()));
255 
256  aTopElement->appendChild(aResult);
257 }
XMLCh * _toDOMS(std::string temp)
unsigned int eta2Bits(unsigned int eta)
xercesc::DOMDocument * theDoc
Abs< T >::type abs(const T &t)
Definition: Abs.h:22

◆ writeAlgoMuon() [2/2]

void XMLConfigWriter::writeAlgoMuon ( xercesc::DOMElement *  aTopElement,
const AlgoMuon aMuon 
)

Definition at line 220 of file XMLConfigWriter.cc.

References _toDOMS(), funct::abs(), XERCES_CPP_NAMESPACE_USE::eta2Bits(), AlgoMuon::getCharge(), AlgoMuon::getDisc(), AlgoMuon::getEtaHw(), AlgoMuon::getFiredLayerBits(), AlgoMuon::getHwPatternNumber(), AlgoMuon::getPhi(), AlgoMuon::getPhiRHit(), AlgoMuon::getPt(), AlgoMuon::getQ(), AlgoMuon::getRefHitNumber(), AlgoMuon::getRefLayer(), and theDoc.

220  {
221  xercesc::DOMElement* aResult = theDoc->createElement(_toDOMS("AlgoMuon"));
222  std::ostringstream stringStr;
223  stringStr.str("");
224  stringStr << aCand.getRefHitNumber();
225  aResult->setAttribute(_toDOMS("iRefHit"), _toDOMS(stringStr.str()));
226  stringStr.str("");
227  stringStr << aCand.getPt();
228  aResult->setAttribute(_toDOMS("ptCode"), _toDOMS(stringStr.str()));
229  stringStr.str("");
230  stringStr << aCand.getPhi();
231  aResult->setAttribute(_toDOMS("phiCode"), _toDOMS(stringStr.str()));
232  stringStr.str("");
233  stringStr << eta2Bits(abs(aCand.getEtaHw()));
234  aResult->setAttribute(_toDOMS("etaCode"), _toDOMS(stringStr.str()));
235  stringStr.str("");
236  stringStr << aCand.getCharge();
237  aResult->setAttribute(_toDOMS("charge"), _toDOMS(stringStr.str()));
238  stringStr.str("");
239  stringStr << aCand.getQ();
240  aResult->setAttribute(_toDOMS("nHits"), _toDOMS(stringStr.str()));
241  stringStr.str("");
242  stringStr << aCand.getDisc();
243  aResult->setAttribute(_toDOMS("disc"), _toDOMS(stringStr.str()));
244  stringStr.str("");
245  stringStr << aCand.getRefLayer();
246  aResult->setAttribute(_toDOMS("iRefLayer"), _toDOMS(stringStr.str()));
247  stringStr.str("");
248  stringStr << std::bitset<18>(aCand.getFiredLayerBits());
249  aResult->setAttribute(_toDOMS("layers"), _toDOMS(stringStr.str()));
250  stringStr.str("");
251  stringStr << aCand.getPhiRHit();
252  aResult->setAttribute(_toDOMS("phiRHit"), _toDOMS(stringStr.str()));
253  stringStr.str("");
254  stringStr << aCand.getHwPatternNumber();
255  aResult->setAttribute(_toDOMS("patNum"), _toDOMS(stringStr.str()));
256 
257  aTopElement->appendChild(aResult);
258 }
XMLCh * _toDOMS(std::string temp)
unsigned int eta2Bits(unsigned int eta)
xercesc::DOMDocument * theDoc
Abs< T >::type abs(const T &t)
Definition: Abs.h:22

◆ writeCandMuon() [1/2]

void XMLConfigWriter::writeCandMuon ( xercesc::DOMElement *  aTopElement,
const l1t::RegionalMuonCand aCand 
)

Definition at line 260 of file XMLConfigWriter.cc.

References _toDOMS(), l1t::RegionalMuonCand::hwEta(), l1t::RegionalMuonCand::hwPhi(), l1t::RegionalMuonCand::hwPt(), l1t::RegionalMuonCand::hwQual(), l1t::RegionalMuonCand::hwSign(), l1t::RegionalMuonCand::hwSignValid(), l1t::RegionalMuonCand::link(), l1t::omtf_neg, l1t::omtf_pos, l1t::RegionalMuonCand::processor(), theDoc, l1t::RegionalMuonCand::trackAddress(), and l1t::RegionalMuonCand::trackFinderType().

Referenced by XMLEventWriter::observeProcesorEmulation(), and OMTFReconstruction::writeResultToXML().

260  {
261  xercesc::DOMElement* aResult = theDoc->createElement(_toDOMS("CandMuon"));
262  std::ostringstream stringStr;
263  stringStr.str("");
264  stringStr << aCand.hwPt();
265  aResult->setAttribute(_toDOMS("hwPt"), _toDOMS(stringStr.str()));
266  stringStr.str("");
267  stringStr << aCand.hwPhi();
268  aResult->setAttribute(_toDOMS("hwPhi"), _toDOMS(stringStr.str()));
269  stringStr.str("");
270  stringStr << aCand.hwEta();
271  aResult->setAttribute(_toDOMS("hwEta"), _toDOMS(stringStr.str()));
272  stringStr.str("");
273  stringStr << aCand.hwSign();
274  aResult->setAttribute(_toDOMS("hwSign"), _toDOMS(stringStr.str()));
275  stringStr.str("");
276  stringStr << aCand.hwSignValid();
277  aResult->setAttribute(_toDOMS("hwSignValid"), _toDOMS(stringStr.str()));
278  stringStr.str("");
279  stringStr << aCand.hwQual();
280  aResult->setAttribute(_toDOMS("hwQual"), _toDOMS(stringStr.str()));
281  stringStr.str("");
282  std::map<int, int> hwAddrMap = aCand.trackAddress();
283  stringStr << std::bitset<29>(hwAddrMap[0]);
284  aResult->setAttribute(_toDOMS("hwTrackAddress"), _toDOMS(stringStr.str()));
285  stringStr.str("");
286  stringStr << aCand.link();
287  aResult->setAttribute(_toDOMS("link"), _toDOMS(stringStr.str()));
288  stringStr.str("");
289  stringStr << aCand.processor();
290  aResult->setAttribute(_toDOMS("processor"), _toDOMS(stringStr.str()));
291  stringStr.str("");
292  if (aCand.trackFinderType() == l1t::omtf_neg)
293  stringStr << "OMTF_NEG";
294  else if (aCand.trackFinderType() == l1t::omtf_pos)
295  stringStr << "OMTF_POS";
296  else
297  stringStr << aCand.trackFinderType();
298  aResult->setAttribute(_toDOMS("trackFinderType"), _toDOMS(stringStr.str()));
299  aTopElement->appendChild(aResult);
300 }
const int hwPhi() const
Get compressed local phi (returned int * 2*pi/576 = local phi in rad)
const int link() const
Get link on which the MicroGMT receives the candidate.
const int processor() const
Get processor ID on which the candidate was found (0..5 for OMTF/EMTF; 0..11 for BMTF) ...
XMLCh * _toDOMS(std::string temp)
const int hwPt() const
Get compressed pT (returned int * 0.5 = pT (GeV))
const int hwQual() const
Get quality code.
const int hwEta() const
Get compressed eta (returned int * 0.010875 = eta)
xercesc::DOMDocument * theDoc
const tftype trackFinderType() const
Get track-finder which found the muon (bmtf, emtf_pos/emtf_neg or omtf_pos/omtf_neg) ...
const int hwSign() const
Get charge sign bit (charge = (-1)^(sign))
const std::map< int, int > & trackAddress() const
Get the track address (identifies track primitives used for reconstruction)
const int hwSignValid() const
Get charge sign valid bit (0 - not valid (high pT muon); 1 - valid)

◆ writeCandMuon() [2/2]

void XMLConfigWriter::writeCandMuon ( xercesc::DOMElement *  aTopElement,
const l1t::RegionalMuonCand aCand 
)

◆ writeConnectionsData() [1/2]

void XMLConfigWriter::writeConnectionsData ( const std::vector< std::vector< OMTFConfiguration::vector2D > > &  measurements4D)

iPhiMin and iPhiMax are expressed in n bit scale -2**n, +2**2-1 used in each processor

Definition at line 522 of file XMLConfigWriter.cc.

References _toDOMS(), mps_fire::end, findMaxInput(), OMTFConfiguration::getMeasurements4D(), OMTFConfiguration::getMeasurements4Dref(), OMTFConfiguration::getProcessorPhiVsRefLayer(), OMTFConfiguration::globalPhiStart(), myOMTFConfig, OMTFConfiguration::nLayers(), OMTFConfiguration::nPhiBins(), OMTFConfiguration::nPhiBits(), OMTFConfiguration::nRefHits(), OMTFConfiguration::nRefLayers(), funct::pow(), theDoc, and theTopElement.

Referenced by OMTFPatternMaker::endJob().

523  {
524  std::ostringstream stringStr;
525 
526  for (unsigned int iProcessor = 0; iProcessor < 6; ++iProcessor) {
527  xercesc::DOMElement* aProcessorElement = theDoc->createElement(_toDOMS("Processor"));
528  stringStr.str("");
529  stringStr << iProcessor;
530  aProcessorElement->setAttribute(_toDOMS("iProcessor"), _toDOMS(stringStr.str()));
531  for (unsigned int iRefLayer = 0; iRefLayer < myOMTFConfig->nRefLayers(); ++iRefLayer) {
532  xercesc::DOMElement* aRefLayerElement = theDoc->createElement(_toDOMS("RefLayer"));
533  stringStr.str("");
534  stringStr << iRefLayer;
535  aRefLayerElement->setAttribute(_toDOMS("iRefLayer"), _toDOMS(stringStr.str()));
536  stringStr.str("");
537  stringStr << myOMTFConfig->getProcessorPhiVsRefLayer()[iProcessor][iRefLayer];
538  aRefLayerElement->setAttribute(_toDOMS("iGlobalPhiStart"), _toDOMS(stringStr.str()));
539  aProcessorElement->appendChild(aRefLayerElement);
540  }
541  unsigned int iRefHit = 0;
543  for (unsigned int iRefLayer = 0; iRefLayer < myOMTFConfig->nRefLayers(); ++iRefLayer) {
544  for (unsigned int iRegion = 0; iRegion < 6; ++iRegion) {
545  unsigned int maxHitCount = 0;
546  for (unsigned int iInput = 0; iInput < 14; ++iInput) {
547  if ((int)maxHitCount < myOMTFConfig->getMeasurements4Dref()[iProcessor][iRegion][iRefLayer][iInput])
548  maxHitCount = myOMTFConfig->getMeasurements4Dref()[iProcessor][iRegion][iRefLayer][iInput];
549  }
550  for (unsigned int iInput = 0; iInput < 14; ++iInput) {
551  unsigned int hitCount = myOMTFConfig->getMeasurements4Dref()[iProcessor][iRegion][iRefLayer][iInput];
552  if (hitCount < maxHitCount * 0.1)
553  continue;
554  xercesc::DOMElement* aRefHitElement = theDoc->createElement(_toDOMS("RefHit"));
555  stringStr.str("");
556  stringStr << iRefHit;
557  aRefHitElement->setAttribute(_toDOMS("iRefHit"), _toDOMS(stringStr.str()));
558  stringStr.str("");
559  stringStr << iRefLayer;
560  aRefHitElement->setAttribute(_toDOMS("iRefLayer"), _toDOMS(stringStr.str()));
561 
562  stringStr.str("");
563  stringStr << iRegion;
564  aRefHitElement->setAttribute(_toDOMS("iRegion"), _toDOMS(stringStr.str()));
565 
566  stringStr.str("");
567  stringStr << iInput;
568  aRefHitElement->setAttribute(_toDOMS("iInput"), _toDOMS(stringStr.str()));
569  unsigned int logicRegionSize = 10 / 360.0 * myOMTFConfig->nPhiBins();
570  int lowScaleEnd = std::pow(2, myOMTFConfig->nPhiBits() - 1);
572  int iPhiMin = myOMTFConfig->getProcessorPhiVsRefLayer()[iProcessor][iRefLayer] -
573  myOMTFConfig->globalPhiStart(iProcessor) - lowScaleEnd;
574  int iPhiMax = iPhiMin + logicRegionSize - 1;
575 
576  iPhiMin += iRegion * logicRegionSize;
577  iPhiMax += iRegion * logicRegionSize;
578 
579  stringStr.str("");
580  stringStr << iPhiMin;
581  aRefHitElement->setAttribute(_toDOMS("iPhiMin"), _toDOMS(stringStr.str()));
582 
583  stringStr.str("");
584  stringStr << iPhiMax;
585  aRefHitElement->setAttribute(_toDOMS("iPhiMax"), _toDOMS(stringStr.str()));
586  if (iRefHit < myOMTFConfig->nRefHits())
587  aProcessorElement->appendChild(aRefHitElement);
588  ++iRefHit;
589  }
590  for (; iRegion == 5 && iRefLayer == 7 && iRefHit < myOMTFConfig->nRefHits(); ++iRefHit) {
591  xercesc::DOMElement* aRefHitElement = theDoc->createElement(_toDOMS("RefHit"));
592  stringStr.str("");
593  stringStr << iRefHit;
594  aRefHitElement->setAttribute(_toDOMS("iRefHit"), _toDOMS(stringStr.str()));
595  stringStr.str("");
596  stringStr << 0;
597  aRefHitElement->setAttribute(_toDOMS("iRefLayer"), _toDOMS(stringStr.str()));
598 
599  stringStr.str("");
600  stringStr << 0;
601  aRefHitElement->setAttribute(_toDOMS("iRegion"), _toDOMS(stringStr.str()));
602 
603  stringStr.str("");
604  stringStr << 0;
605  aRefHitElement->setAttribute(_toDOMS("iInput"), _toDOMS(stringStr.str()));
606 
607  int iPhiMin = 0;
608  int iPhiMax = 1;
609 
610  stringStr.str("");
611  stringStr << iPhiMin;
612  aRefHitElement->setAttribute(_toDOMS("iPhiMin"), _toDOMS(stringStr.str()));
613 
614  stringStr.str("");
615  stringStr << iPhiMax;
616  aRefHitElement->setAttribute(_toDOMS("iPhiMax"), _toDOMS(stringStr.str()));
617 
618  aProcessorElement->appendChild(aRefHitElement);
619  }
620  }
621  }
623  for (unsigned int iRegion = 0; iRegion < 6; ++iRegion) {
624  xercesc::DOMElement* aRegionElement = theDoc->createElement(_toDOMS("LogicRegion"));
625  stringStr.str("");
626  stringStr << iRegion;
627  aRegionElement->setAttribute(_toDOMS("iRegion"), _toDOMS(stringStr.str()));
628 
629  for (unsigned int iLogicLayer = 0; iLogicLayer < myOMTFConfig->nLayers(); ++iLogicLayer) {
630  xercesc::DOMElement* aLayerElement = theDoc->createElement(_toDOMS("Layer"));
631  stringStr.str("");
632  stringStr << iLogicLayer;
634  aLayerElement->setAttribute(_toDOMS("iLayer"), _toDOMS(stringStr.str()));
635  const OMTFConfiguration::vector1D& myCounts =
636  myOMTFConfig->getMeasurements4D()[iProcessor][iRegion][iLogicLayer];
637  unsigned int maxInput = findMaxInput(myCounts);
638  unsigned int begin = 0, end = 0;
639  if ((int)maxInput - 2 >= 0)
640  begin = maxInput - 2;
641  else
642  begin = maxInput;
643  end = maxInput + 3;
644  stringStr.str("");
645  stringStr << begin;
646  aLayerElement->setAttribute(_toDOMS("iFirstInput"), _toDOMS(stringStr.str()));
647  stringStr.str("");
648  stringStr << end - begin + 1;
649  aLayerElement->setAttribute(_toDOMS("nInputs"), _toDOMS(stringStr.str()));
650  aRegionElement->appendChild(aLayerElement);
651  }
652  aProcessorElement->appendChild(aRegionElement);
653  }
654  theTopElement->appendChild(aProcessorElement);
655  }
656 }
const std::vector< std::vector< int > > & getProcessorPhiVsRefLayer() const
XMLCh * _toDOMS(std::string temp)
unsigned int nRefHits() const
xercesc::DOMDocument * theDoc
unsigned int nPhiBins() const
xercesc::DOMElement * theTopElement
unsigned int findMaxInput(const OMTFConfiguration::vector1D &myCounts)
std::vector< int > vector1D
unsigned int nLayers() const
int globalPhiStart(unsigned int iProcessor) const
unsigned int nRefLayers() const
unsigned int nPhiBits() const
const OMTFConfiguration * myOMTFConfig
vector4D & getMeasurements4Dref()
Power< A, B >::type pow(const A &a, const B &b)
Definition: Power.h:29
vector4D & getMeasurements4D()

◆ writeConnectionsData() [2/2]

void XMLConfigWriter::writeConnectionsData ( const std::vector< std::vector< OMTFConfiguration::vector2D > > &  measurements4D)

◆ writeEventData() [1/2]

xercesc::DOMElement * XMLConfigWriter::writeEventData ( xercesc::DOMElement *  aTopElement,
const OmtfName board,
const OMTFinput aInput 
)

Definition at line 168 of file XMLConfigWriter.cc.

References _toDOMS(), funct::abs(), XERCES_CPP_NAMESPACE_USE::eta2Bits(), OMTFinput::getLayerData(), myOMTFConfig, OmtfName::name(), OMTFConfiguration::nLayers(), OMTFConfiguration::nPhiBins(), OmtfName::position(), OmtfName::processor(), and theDoc.

Referenced by XMLEventWriter::observeProcesorEmulation(), and OMTFReconstruction::writeResultToXML().

170  {
171  std::ostringstream stringStr;
172 
173  xercesc::DOMElement* aProcessor = theDoc->createElement(_toDOMS("Processor"));
174  aProcessor->setAttribute(_toDOMS("board"), _toDOMS(board.name()));
175 
176  unsigned int iProcessor = board.processor();
177  stringStr.str("");
178  stringStr << iProcessor;
179  aProcessor->setAttribute(_toDOMS("iProcessor"), _toDOMS(stringStr.str()));
180  stringStr.str("");
181  if (board.position() == 1)
182  stringStr << "+";
183  stringStr << board.position();
184  aProcessor->setAttribute(_toDOMS("position"), _toDOMS(stringStr.str()));
185 
186  xercesc::DOMElement *aLayer, *aHit;
187  for (unsigned int iLayer = 0; iLayer < myOMTFConfig->nLayers(); ++iLayer) {
188  const OMTFinput::vector1D& layerDataPhi = aInput.getLayerData(iLayer);
189  const OMTFinput::vector1D& layerDataEta = aInput.getLayerData(iLayer, true);
190 
191  aLayer = theDoc->createElement(_toDOMS("Layer"));
192  stringStr.str("");
193  stringStr << iLayer;
194  aLayer->setAttribute(_toDOMS("iLayer"), _toDOMS(stringStr.str()));
195  for (unsigned int iHit = 0; iHit < layerDataPhi.size(); ++iHit) {
196  aHit = theDoc->createElement(_toDOMS("Hit"));
197  stringStr.str("");
198  stringStr << iHit;
199  aHit->setAttribute(_toDOMS("iInput"), _toDOMS(stringStr.str()));
200  stringStr.str("");
201  stringStr << layerDataPhi[iHit];
202  aHit->setAttribute(_toDOMS("iPhi"), _toDOMS(stringStr.str()));
203  stringStr.str("");
204  stringStr << eta2Bits(abs(layerDataEta[iHit]));
205  aHit->setAttribute(_toDOMS("iEta"), _toDOMS(stringStr.str()));
206  if (layerDataPhi[iHit] >= (int)myOMTFConfig->nPhiBins())
207  continue;
208  aLayer->appendChild(aHit);
209  }
210  if (aLayer->getChildNodes()->getLength())
211  aProcessor->appendChild(aLayer);
212  }
213 
214  aTopElement->appendChild(aProcessor);
215  return aProcessor;
216 }
XMLCh * _toDOMS(std::string temp)
unsigned int eta2Bits(unsigned int eta)
std::vector< int > vector1D
Definition: OMTFinput.h:13
const OMTFinput::vector1D & getLayerData(unsigned int iLayer, bool giveEta=false) const
Definition: OMTFinput.cc:17
xercesc::DOMDocument * theDoc
unsigned int nPhiBins() const
Abs< T >::type abs(const T &t)
Definition: Abs.h:22
unsigned int nLayers() const
int position() const
Definition: OmtfName.cc:82
std::string name() const
Definition: OmtfName.cc:51
const OMTFConfiguration * myOMTFConfig
unsigned int processor() const
Definition: OmtfName.cc:84

◆ writeEventData() [2/2]

xercesc::DOMElement* XMLConfigWriter::writeEventData ( xercesc::DOMElement *  aTopElement,
const OmtfName board,
const OMTFinput aInput 
)

◆ writeEventHeader() [1/2]

xercesc::DOMElement * XMLConfigWriter::writeEventHeader ( unsigned int  eventId,
unsigned int  mixedEventId = 0 
)

Definition at line 139 of file XMLConfigWriter.cc.

References _toDOMS(), theDoc, and theTopElement.

Referenced by XMLEventWriter::observeEventBegin(), and OMTFReconstruction::reconstruct().

139  {
140  unsigned int eventBx = eventId * 2;
141 
142  xercesc::DOMElement* aEvent = nullptr;
143  xercesc::DOMElement* aBx = nullptr;
144  std::ostringstream stringStr;
145 
146  aEvent = theDoc->createElement(_toDOMS("Event"));
147 
148  stringStr.str("");
149  stringStr << eventId;
150  aEvent->setAttribute(_toDOMS("iEvent"), _toDOMS(stringStr.str()));
151 
152  stringStr.str("");
153  stringStr << mixedEventId;
154  aEvent->setAttribute(_toDOMS("iMixedEvent"), _toDOMS(stringStr.str()));
155 
156  aBx = theDoc->createElement(_toDOMS("bx"));
157  stringStr.str("");
158  stringStr << eventBx;
159  aBx->setAttribute(_toDOMS("iBx"), _toDOMS(stringStr.str()));
160  aEvent->appendChild(aBx);
161 
162  theTopElement->appendChild(aEvent);
163 
164  return aBx;
165 }
XMLCh * _toDOMS(std::string temp)
xercesc::DOMDocument * theDoc
xercesc::DOMElement * theTopElement

◆ writeEventHeader() [2/2]

xercesc::DOMElement* XMLConfigWriter::writeEventHeader ( unsigned int  eventId,
unsigned int  mixedEventId = 0 
)

◆ writeGPData() [1/4]

void XMLConfigWriter::writeGPData ( const GoldenPattern aGP)

Definition at line 358 of file XMLConfigWriter.cc.

References _toDOMS(), GoldenPattern::key(), GoldenPattern::meanDistPhiValue(), myOMTFConfig, OMTFConfiguration::nLayers(), OMTFConfiguration::nPdfAddrBits(), OMTFConfiguration::nRefLayers(), GoldenPattern::pdfValue(), Key::theCharge, theDoc, Key::thePtCode, and theTopElement.

Referenced by OMTFPatternMaker::endJob(), writeGPs(), and OMTFPatternMaker::writeMergedGPs().

358  {
359  std::ostringstream stringStr;
360  xercesc::DOMElement *aLayer = nullptr, *aRefLayer = nullptr, *aPdf = nullptr;
361 
362  xercesc::DOMElement* aGPElement = theDoc->createElement(_toDOMS("GP"));
363  stringStr.str("");
364  stringStr << aGP.key().thePtCode;
365  aGPElement->setAttribute(_toDOMS("iPt"), _toDOMS(stringStr.str()));
366  stringStr.str("");
367  //stringStr<<aGP.key().theEtaCode;
368  stringStr << "0"; //No eta code at the moment
369  aGPElement->setAttribute(_toDOMS("iEta"), _toDOMS(stringStr.str()));
370  stringStr.str("");
371  stringStr << 0; //No phi code is assigned to GP for the moment.
372  aGPElement->setAttribute(_toDOMS("iPhi"), _toDOMS(stringStr.str()));
373  stringStr.str("");
374  stringStr << aGP.key().theCharge;
375  aGPElement->setAttribute(_toDOMS("iCharge"), _toDOMS(stringStr.str()));
376 
377  for (unsigned int iLayer = 0; iLayer < myOMTFConfig->nLayers(); ++iLayer) {
378  int nOfPhis = 0;
380  aLayer = theDoc->createElement(_toDOMS("Layer"));
381  stringStr.str("");
382  stringStr << iLayer;
384  aLayer->setAttribute(_toDOMS("iLayer"), _toDOMS(stringStr.str()));
385  stringStr.str("");
386  stringStr << nOfPhis;
387  aLayer->setAttribute(_toDOMS("nOfPhis"), _toDOMS(stringStr.str()));
388  for (unsigned int iRefLayer = 0; iRefLayer < myOMTFConfig->nRefLayers(); ++iRefLayer) {
389  aRefLayer = theDoc->createElement(_toDOMS("RefLayer"));
390  int meanDistPhi = aGP.meanDistPhiValue(iLayer, iRefLayer);
391  stringStr.str("");
392  stringStr << meanDistPhi;
393  aRefLayer->setAttribute(_toDOMS("meanDistPhi"), _toDOMS(stringStr.str()));
394  int selDistPhi = 0;
395  stringStr.str("");
396  stringStr << selDistPhi;
397  aRefLayer->setAttribute(_toDOMS("selDistPhi"), _toDOMS(stringStr.str()));
398  int selDistPhiShift = 0;
399  stringStr.str("");
400  stringStr << selDistPhiShift;
401  aRefLayer->setAttribute(_toDOMS("selDistPhiShift"), _toDOMS(stringStr.str()));
402  int distMsbPhiShift = 0;
403  stringStr.str("");
404  stringStr << distMsbPhiShift;
405  aRefLayer->setAttribute(_toDOMS("distMsbPhiShift"), _toDOMS(stringStr.str()));
406  aLayer->appendChild(aRefLayer);
407  }
408  for (unsigned int iRefLayer = 0; iRefLayer < myOMTFConfig->nRefLayers(); ++iRefLayer) {
409  for (unsigned int iPdf = 0; iPdf < exp2(myOMTFConfig->nPdfAddrBits()); ++iPdf) {
410  aPdf = theDoc->createElement(_toDOMS("PDF"));
411  stringStr.str("");
412  stringStr << aGP.pdfValue(iLayer, iRefLayer, iPdf);
413  aPdf->setAttribute(_toDOMS("value"), _toDOMS(stringStr.str()));
414  aLayer->appendChild(aPdf);
415  }
416  }
417  aGPElement->appendChild(aLayer);
418  }
419  theTopElement->appendChild(aGPElement);
420 }
int theCharge
Definition: GoldenPattern.h:36
XMLCh * _toDOMS(std::string temp)
unsigned int thePtCode
Definition: GoldenPattern.h:35
int pdfValue(unsigned int iLayer, unsigned int iRefLayer, unsigned int iBin) const
Definition: GoldenPattern.h:68
xercesc::DOMDocument * theDoc
xercesc::DOMElement * theTopElement
Key key() const
Definition: GoldenPattern.h:56
unsigned int nPdfAddrBits() const
unsigned int nLayers() const
unsigned int nRefLayers() const
const OMTFConfiguration * myOMTFConfig
int meanDistPhiValue(unsigned int iLayer, unsigned int iRefLayer) const
Definition: GoldenPattern.h:66

◆ writeGPData() [2/4]

void XMLConfigWriter::writeGPData ( GoldenPattern aGP)

Definition at line 357 of file XMLConfigWriter.cc.

References _toDOMS(), GoldenPattern::getDistPhiBitShift(), GoldenPattern::getMeanDistPhi(), GoldenPattern::key(), myOMTFConfig, OMTFConfiguration::nLayers(), OMTFConfiguration::nPdfAddrBits(), OMTFConfiguration::nRefLayers(), GoldenPattern::pdfValue(), Key::theCharge, theDoc, Key::thePt, and theTopElement.

357  {
358  std::ostringstream stringStr;
359  xercesc::DOMElement *aLayer = nullptr, *aRefLayer = nullptr, *aPdf = nullptr;
360 
361  xercesc::DOMElement* aGPElement = theDoc->createElement(_toDOMS("GP"));
362  stringStr.str("");
363  stringStr << aGP.key().thePt;
364  aGPElement->setAttribute(_toDOMS("iPt"), _toDOMS(stringStr.str()));
365  stringStr.str("");
366  //stringStr<<aGP.key().theEtaCode;
367  stringStr << "0"; //No eta code at the moment
368  aGPElement->setAttribute(_toDOMS("iEta"), _toDOMS(stringStr.str()));
369  stringStr.str("");
370  stringStr << 0; //No phi code is assigned to GP for the moment.
371  aGPElement->setAttribute(_toDOMS("iPhi"), _toDOMS(stringStr.str()));
372  stringStr.str("");
373  stringStr << aGP.key().theCharge;
374  aGPElement->setAttribute(_toDOMS("iCharge"), _toDOMS(stringStr.str()));
375 
376  for (unsigned int iLayer = 0; iLayer < myOMTFConfig->nLayers(); ++iLayer) {
377  int nOfPhis = 0;
379  aLayer = theDoc->createElement(_toDOMS("Layer"));
380  stringStr.str("");
381  stringStr << iLayer;
383  aLayer->setAttribute(_toDOMS("iLayer"), _toDOMS(stringStr.str()));
384  stringStr.str("");
385  stringStr << nOfPhis;
386  aLayer->setAttribute(_toDOMS("nOfPhis"), _toDOMS(stringStr.str()));
387  for (unsigned int iRefLayer = 0; iRefLayer < myOMTFConfig->nRefLayers(); ++iRefLayer) {
388  aRefLayer = theDoc->createElement(_toDOMS("RefLayer"));
389  int meanDistPhi0 = aGP.getMeanDistPhi()[iLayer][iRefLayer][0];
390  stringStr.str("");
391  stringStr << meanDistPhi0;
392  aRefLayer->setAttribute(_toDOMS("meanDistPhi0"), _toDOMS(stringStr.str()));
393 
394  int meanDistPhi1 = aGP.getMeanDistPhi()[iLayer][iRefLayer][1];
395  stringStr.str("");
396  stringStr << meanDistPhi1;
397  aRefLayer->setAttribute(_toDOMS("meanDistPhi1"), _toDOMS(stringStr.str()));
398 
399  int selDistPhi = 0;
400  stringStr.str("");
401  stringStr << selDistPhi;
402  aRefLayer->setAttribute(_toDOMS("selDistPhi"), _toDOMS(stringStr.str()));
403 
404  int selDistPhiShift =
405  aGP.getDistPhiBitShift(iLayer, iRefLayer); //TODO check if Wojtek expects it here or on the distMsbPhiShift
406  stringStr.str("");
407  stringStr << selDistPhiShift;
408  aRefLayer->setAttribute(_toDOMS("selDistPhiShift"), _toDOMS(stringStr.str()));
409 
410  int distMsbPhiShift = 0;
411  stringStr.str("");
412  stringStr << distMsbPhiShift;
413  aRefLayer->setAttribute(_toDOMS("distMsbPhiShift"), _toDOMS(stringStr.str()));
414  aLayer->appendChild(aRefLayer);
415  }
416  for (unsigned int iRefLayer = 0; iRefLayer < myOMTFConfig->nRefLayers(); ++iRefLayer) {
417  for (unsigned int iPdf = 0; iPdf < exp2(myOMTFConfig->nPdfAddrBits()); ++iPdf) {
418  aPdf = theDoc->createElement(_toDOMS("PDF"));
419  stringStr.str("");
420  stringStr << aGP.pdfValue(iLayer, iRefLayer, iPdf);
421  aPdf->setAttribute(_toDOMS("value"), _toDOMS(stringStr.str()));
422  aLayer->appendChild(aPdf);
423  }
424  }
425  aGPElement->appendChild(aLayer);
426  }
427  theTopElement->appendChild(aGPElement);
428 }
int theCharge
Definition: GoldenPattern.h:36
XMLCh * _toDOMS(std::string temp)
int pdfValue(unsigned int iLayer, unsigned int iRefLayer, unsigned int iBin) const
Definition: GoldenPattern.h:68
const vector2D & getMeanDistPhi() const
Definition: GoldenPattern.h:60
xercesc::DOMDocument * theDoc
xercesc::DOMElement * theTopElement
Key key() const
Definition: GoldenPattern.h:56
unsigned int nPdfAddrBits() const
unsigned int nLayers() const
unsigned int nRefLayers() const
unsigned int thePt
const OMTFConfiguration * myOMTFConfig
int getDistPhiBitShift(unsigned int iLayer, unsigned int iRefLayer) const override
Definition: GoldenPattern.h:72

◆ writeGPData() [3/4]

void XMLConfigWriter::writeGPData ( const GoldenPattern aGP1,
const GoldenPattern aGP2,
const GoldenPattern aGP3,
const GoldenPattern aGP4 
)

Definition at line 423 of file XMLConfigWriter.cc.

References _toDOMS(), GoldenPattern::key(), GoldenPattern::meanDistPhiValue(), myOMTFConfig, OMTFConfiguration::nLayers(), OMTFConfiguration::nPdfAddrBits(), OMTFConfiguration::nRefLayers(), GoldenPattern::pdfValue(), Key::theCharge, theDoc, Key::thePtCode, and theTopElement.

426  {
427  std::ostringstream stringStr;
428  xercesc::DOMElement *aLayer = nullptr, *aRefLayer = nullptr, *aPdf = nullptr;
429 
430  xercesc::DOMElement* aGPElement = theDoc->createElement(_toDOMS("GP"));
431  stringStr.str("");
432 
433  stringStr << aGP1.key().thePtCode;
434  aGPElement->setAttribute(_toDOMS("iPt1"), _toDOMS(stringStr.str()));
435  stringStr.str("");
436 
437  stringStr << aGP2.key().thePtCode;
438  aGPElement->setAttribute(_toDOMS("iPt2"), _toDOMS(stringStr.str()));
439  stringStr.str("");
440 
441  stringStr << aGP3.key().thePtCode;
442  aGPElement->setAttribute(_toDOMS("iPt3"), _toDOMS(stringStr.str()));
443  stringStr.str("");
444 
445  stringStr << aGP4.key().thePtCode;
446  aGPElement->setAttribute(_toDOMS("iPt4"), _toDOMS(stringStr.str()));
447 
448  stringStr.str("");
449  //stringStr<<aGP1.key().theEtaCode;
450  stringStr << "0"; //No eta code at the moment
451  aGPElement->setAttribute(_toDOMS("iEta"), _toDOMS(stringStr.str()));
452  stringStr.str("");
453  stringStr << "0"; //No phi code is assigned to GP for the moment.
454  aGPElement->setAttribute(_toDOMS("iPhi"), _toDOMS(stringStr.str()));
455  stringStr.str("");
456  stringStr << aGP1.key().theCharge;
457 
458  aGPElement->setAttribute(_toDOMS("iCharge"), _toDOMS(stringStr.str()));
459 
460  for (unsigned int iLayer = 0; iLayer < myOMTFConfig->nLayers(); ++iLayer) {
461  int nOfPhis = 0;
463  aLayer = theDoc->createElement(_toDOMS("Layer"));
464  stringStr.str("");
465  stringStr << iLayer;
467  aLayer->setAttribute(_toDOMS("iLayer"), _toDOMS(stringStr.str()));
468  stringStr.str("");
469  stringStr << nOfPhis;
470  aLayer->setAttribute(_toDOMS("nOfPhis"), _toDOMS(stringStr.str()));
471  for (unsigned int iRefLayer = 0; iRefLayer < myOMTFConfig->nRefLayers(); ++iRefLayer) {
472  aRefLayer = theDoc->createElement(_toDOMS("RefLayer"));
473  int meanDistPhi = aGP1.meanDistPhiValue(iLayer, iRefLayer);
474 
475  stringStr.str("");
476  stringStr << meanDistPhi;
477  aRefLayer->setAttribute(_toDOMS("meanDistPhi"), _toDOMS(stringStr.str()));
478 
479  //int meanDistPhi2 = aGP2.meanDistPhiValue(iLayer,iRefLayer);
480  //stringStr.str("");
481  //stringStr<<meanDistPhi2;
482  //aRefLayer->setAttribute(_toDOMS("meanDistPhi2"), _toDOMS(stringStr.str()));
483 
484  int selDistPhi = 0;
485  stringStr.str("");
486  stringStr << selDistPhi;
487  aRefLayer->setAttribute(_toDOMS("selDistPhi"), _toDOMS(stringStr.str()));
488  int selDistPhiShift = 0;
489  stringStr.str("");
490  stringStr << selDistPhiShift;
491  aRefLayer->setAttribute(_toDOMS("selDistPhiShift"), _toDOMS(stringStr.str()));
492  int distMsbPhiShift = 0;
493  stringStr.str("");
494  stringStr << distMsbPhiShift;
495  aRefLayer->setAttribute(_toDOMS("distMsbPhiShift"), _toDOMS(stringStr.str()));
496  aLayer->appendChild(aRefLayer);
497  }
498  for (unsigned int iRefLayer = 0; iRefLayer < myOMTFConfig->nRefLayers(); ++iRefLayer) {
499  for (unsigned int iPdf = 0; iPdf < exp2(myOMTFConfig->nPdfAddrBits()); ++iPdf) {
500  aPdf = theDoc->createElement(_toDOMS("PDF"));
501  stringStr.str("");
502  stringStr << aGP1.pdfValue(iLayer, iRefLayer, iPdf);
503  aPdf->setAttribute(_toDOMS("value1"), _toDOMS(stringStr.str()));
504  stringStr.str("");
505  stringStr << aGP2.pdfValue(iLayer, iRefLayer, iPdf);
506  aPdf->setAttribute(_toDOMS("value2"), _toDOMS(stringStr.str()));
507  stringStr.str("");
508  stringStr << aGP3.pdfValue(iLayer, iRefLayer, iPdf);
509  aPdf->setAttribute(_toDOMS("value3"), _toDOMS(stringStr.str()));
510  stringStr.str("");
511  stringStr << aGP4.pdfValue(iLayer, iRefLayer, iPdf);
512  aPdf->setAttribute(_toDOMS("value4"), _toDOMS(stringStr.str()));
513  aLayer->appendChild(aPdf);
514  }
515  }
516  aGPElement->appendChild(aLayer);
517  }
518  theTopElement->appendChild(aGPElement);
519 }
int theCharge
Definition: GoldenPattern.h:36
XMLCh * _toDOMS(std::string temp)
unsigned int thePtCode
Definition: GoldenPattern.h:35
int pdfValue(unsigned int iLayer, unsigned int iRefLayer, unsigned int iBin) const
Definition: GoldenPattern.h:68
xercesc::DOMDocument * theDoc
xercesc::DOMElement * theTopElement
Key key() const
Definition: GoldenPattern.h:56
unsigned int nPdfAddrBits() const
unsigned int nLayers() const
unsigned int nRefLayers() const
const OMTFConfiguration * myOMTFConfig
int meanDistPhiValue(unsigned int iLayer, unsigned int iRefLayer) const
Definition: GoldenPattern.h:66

◆ writeGPData() [4/4]

void XMLConfigWriter::writeGPData ( GoldenPattern aGP1,
GoldenPattern aGP2,
GoldenPattern aGP3,
GoldenPattern aGP4 
)

Definition at line 431 of file XMLConfigWriter.cc.

References _toDOMS(), GoldenPattern::getDistPhiBitShift(), GoldenPattern::getMeanDistPhi(), GoldenPattern::key(), myOMTFConfig, Skims_PA_cff::name, OMTFConfiguration::nLayers(), OMTFConfiguration::nPdfAddrBits(), OMTFConfiguration::nRefLayers(), GoldenPattern::pdfValue(), AlCaHLTBitMon_QueryRunRegistry::string, Key::theCharge, theDoc, Key::thePt, theTopElement, relativeConstraints::value, writeMeanDistPhi1, and writePdfThresholds.

431  {
432  std::ostringstream stringStr;
433  auto setAttributeInt = [&](xercesc::DOMElement* domElement, std::string name, int value) -> void {
434  stringStr << value;
435  domElement->setAttribute(_toDOMS(name), _toDOMS(stringStr.str()));
436  stringStr.str("");
437  };
438 
439  auto setAttributeFloat = [&](xercesc::DOMElement* domElement, std::string name, float value) -> void {
440  stringStr << value;
441  domElement->setAttribute(_toDOMS(name), _toDOMS(stringStr.str()));
442  stringStr.str("");
443  };
444 
445  //xercesc::DOMElement *aLayer=nullptr, *aRefLayer=nullptr, *aPdf=nullptr;
446 
447  xercesc::DOMElement* aGPElement = theDoc->createElement(_toDOMS("GP"));
448 
449  setAttributeInt(aGPElement, "iPt1", aGP1->key().thePt);
450  setAttributeInt(aGPElement, "iPt2", aGP2->key().thePt);
451  setAttributeInt(aGPElement, "iPt3", aGP3->key().thePt);
452  setAttributeInt(aGPElement, "iPt4", aGP4->key().thePt);
453 
454  if (writePdfThresholds) {
455  if (dynamic_cast<const GoldenPatternWithThresh*>(aGP1) != nullptr) {
456  for (unsigned int iRefLayer = 0; iRefLayer < myOMTFConfig->nRefLayers(); ++iRefLayer) {
457  //cout<<__FUNCTION__<<":"<<__LINE__<<std::endl;
458  xercesc::DOMElement* aRefLayerThresh = theDoc->createElement(_toDOMS("RefLayerThresh"));
459  setAttributeFloat(
460  aRefLayerThresh, "tresh1", dynamic_cast<const GoldenPatternWithThresh*>(aGP1)->getThreshold(iRefLayer));
461  setAttributeFloat(
462  aRefLayerThresh, "tresh2", dynamic_cast<const GoldenPatternWithThresh*>(aGP2)->getThreshold(iRefLayer));
463  setAttributeFloat(
464  aRefLayerThresh, "tresh3", dynamic_cast<const GoldenPatternWithThresh*>(aGP3)->getThreshold(iRefLayer));
465  setAttributeFloat(
466  aRefLayerThresh, "tresh4", dynamic_cast<const GoldenPatternWithThresh*>(aGP4)->getThreshold(iRefLayer));
467 
468  aGPElement->appendChild(aRefLayerThresh);
469  }
470  }
471  }
472 
473  setAttributeInt(aGPElement, "iEta", 0); //aGP1.key().theEtaCode; //No eta code at the moment
474 
475  setAttributeInt(aGPElement, "iPhi", 0); //No phi code is assigned to GP for the moment.
476 
477  setAttributeInt(aGPElement, "iCharge", aGP1->key().theCharge);
478 
479  for (unsigned int iLayer = 0; iLayer < myOMTFConfig->nLayers(); ++iLayer) {
480  int nOfPhis = 0;
482  xercesc::DOMElement* aLayer = theDoc->createElement(_toDOMS("Layer"));
483 
484  setAttributeInt(aLayer, "iLayer", iLayer);
485  setAttributeInt(aLayer, "nOfPhis", nOfPhis);
486 
487  for (unsigned int iRefLayer = 0; iRefLayer < myOMTFConfig->nRefLayers(); ++iRefLayer) {
488  xercesc::DOMElement* aRefLayer = theDoc->createElement(_toDOMS("RefLayer"));
489 
490  if (writeMeanDistPhi1) {
491  int meanDistPhi0 = aGP1->getMeanDistPhi()[iLayer][iRefLayer][0];
492  setAttributeInt(aRefLayer, "meanDistPhi0", meanDistPhi0);
493 
494  int meanDistPhi1 = aGP1->getMeanDistPhi()[iLayer][iRefLayer][1];
495  setAttributeInt(aRefLayer, "meanDistPhi1", meanDistPhi1);
496  } else {
497  int meanDistPhi = aGP1->getMeanDistPhi()[iLayer][iRefLayer][0];
498  setAttributeInt(aRefLayer, "meanDistPhi", meanDistPhi);
499  }
500 
501  int selDistPhi = 0;
502  setAttributeInt(aRefLayer, "selDistPhi", selDistPhi);
503 
504  int selDistPhiShift = aGP1->getDistPhiBitShift(
505  iLayer, iRefLayer); //TODO check if Wojtek expects it here or on the distMsbPhiShift;
506  setAttributeInt(aRefLayer, "selDistPhiShift", selDistPhiShift);
507 
508  int distMsbPhiShift = 0;
509  setAttributeInt(aRefLayer, "distMsbPhiShift", distMsbPhiShift);
510 
511  aLayer->appendChild(aRefLayer);
512  }
513  for (unsigned int iRefLayer = 0; iRefLayer < myOMTFConfig->nRefLayers(); ++iRefLayer) {
514  for (unsigned int iPdf = 0; iPdf < exp2(myOMTFConfig->nPdfAddrBits()); ++iPdf) {
515  xercesc::DOMElement* aPdf = theDoc->createElement(_toDOMS("PDF"));
516 
517  setAttributeFloat(aPdf, "value1", aGP1->pdfValue(iLayer, iRefLayer, iPdf));
518  setAttributeFloat(aPdf, "value2", aGP2->pdfValue(iLayer, iRefLayer, iPdf));
519  setAttributeFloat(aPdf, "value3", aGP3->pdfValue(iLayer, iRefLayer, iPdf));
520  setAttributeFloat(aPdf, "value4", aGP4->pdfValue(iLayer, iRefLayer, iPdf));
521 
522  aLayer->appendChild(aPdf);
523  }
524  }
525  aGPElement->appendChild(aLayer);
526  }
527  theTopElement->appendChild(aGPElement);
528 }
int theCharge
Definition: GoldenPattern.h:36
XMLCh * _toDOMS(std::string temp)
int pdfValue(unsigned int iLayer, unsigned int iRefLayer, unsigned int iBin) const
Definition: GoldenPattern.h:68
const vector2D & getMeanDistPhi() const
Definition: GoldenPattern.h:60
xercesc::DOMDocument * theDoc
xercesc::DOMElement * theTopElement
Key key() const
Definition: GoldenPattern.h:56
unsigned int nPdfAddrBits() const
unsigned int nLayers() const
unsigned int nRefLayers() const
unsigned int thePt
const OMTFConfiguration * myOMTFConfig
int getDistPhiBitShift(unsigned int iLayer, unsigned int iRefLayer) const override
Definition: GoldenPattern.h:72

◆ writeGPs()

template<class GoldenPatternType >
template void XMLConfigWriter::writeGPs ( const GoldenPatternVec< GoldenPatternType > &  goldenPats,
std::string  fName 
)

Definition at line 532 of file XMLConfigWriter.cc.

References Exception, finaliseXMLDocument(), fileCollector2::fName, OMTFConfiguration::getPatternGroups(), runTauDisplay::gp, mps_fire::i, initialiseXMLDocument(), myOMTFConfig, and writeGPData().

Referenced by PatternOptimizerBase::endJob().

532  {
533  initialiseXMLDocument("OMTF");
535 
536  OMTFConfiguration::vector2D mergedPartters = myOMTFConfig->getPatternGroups(goldenPats);
537  for (unsigned int iGroup = 0; iGroup < mergedPartters.size(); iGroup++) {
538  std::vector<GoldenPattern*> gps(4, dummy);
539  for (unsigned int i = 0; i < mergedPartters[iGroup].size(); i++) {
540  GoldenPattern* gp = dynamic_cast<GoldenPattern*>(goldenPats.at(mergedPartters[iGroup][i]).get());
541  if (!gp) {
542  throw cms::Exception("OMTF::XMLConfigWriter::writeGPs: the gps are not GoldenPatterns ");
543  }
544  /*cout<<gp->key()<<endl;;
545  for(unsigned int iLayer = 0; iLayer<myOMTFConfig->nLayers(); ++iLayer) {
546  for(unsigned int iRefLayer=0; iRefLayer<myOMTFConfig->nRefLayers(); ++iRefLayer) {
547  if(gp->getPdf()[iLayer][iRefLayer][0] != 0) {
548  cout<<"iLayer "<<iLayer<<" iRefLayer "<<iRefLayer<<" pdf[0] "<<gp->getPdf()[iLayer][iRefLayer][0]<<"!!!!!!!!!!!!!!!!!!!!\n";
549  }
550  }
551  }*/
552  gps[i] = gp;
553  }
554  writeGPData(gps[0], gps[1], gps[2], gps[3]);
555  }
557 }
void initialiseXMLDocument(const std::string &docName)
std::vector< vector1D > vector2D
const OMTFConfiguration * myOMTFConfig
void finaliseXMLDocument(const std::string &fName)
vector2D getPatternGroups(const std::vector< std::unique_ptr< GoldenPatternType > > &goldenPats) const
void writeGPData(const GoldenPattern &aGP)

◆ writeResultsData() [1/2]

void XMLConfigWriter::writeResultsData ( xercesc::DOMElement *  aTopElement,
unsigned int  iRegion,
const Key aKey,
const OMTFResult aResult 
)

Write GP key parameters

Write results details for this GP

Definition at line 305 of file XMLConfigWriter.cc.

References _toDOMS(), OMTFConfiguration::getRefToLogicNumber(), OMTFResult::getResults(), myOMTFConfig, OMTFConfiguration::nLayers(), OMTFConfiguration::nRefLayers(), mysort::results, Key::theCharge, theDoc, Key::theEtaCode, and Key::thePtCode.

Referenced by OMTFReconstruction::writeResultToXML().

308  {
310 
311  std::ostringstream stringStr;
313  xercesc::DOMElement* aGP = theDoc->createElement(_toDOMS("GP"));
314  stringStr.str("");
315  stringStr << aKey.thePtCode;
316  aGP->setAttribute(_toDOMS("iPt"), _toDOMS(stringStr.str()));
317  stringStr.str("");
318  stringStr << aKey.theEtaCode;
319  aGP->setAttribute(_toDOMS("iEta"), _toDOMS(stringStr.str()));
320  stringStr.str("");
321  stringStr << "0";
322  aGP->setAttribute(_toDOMS("iPhi"), _toDOMS(stringStr.str()));
323  stringStr.str("");
324  stringStr << aKey.theCharge;
325  aGP->setAttribute(_toDOMS("iCharge"), _toDOMS(stringStr.str()));
328  for (unsigned int iRefLayer = 0; iRefLayer < myOMTFConfig->nRefLayers(); ++iRefLayer) {
329  xercesc::DOMElement* aRefLayer = theDoc->createElement(_toDOMS("Result"));
330  stringStr.str("");
331  stringStr << iRefLayer;
332  aRefLayer->setAttribute(_toDOMS("iRefLayer"), _toDOMS(stringStr.str()));
333  stringStr.str("");
334  stringStr << iRegion;
335  aRefLayer->setAttribute(_toDOMS("iRegion"), _toDOMS(stringStr.str()));
336  stringStr.str("");
337  stringStr << myOMTFConfig->getRefToLogicNumber()[iRefLayer];
338  aRefLayer->setAttribute(_toDOMS("iLogicLayer"), _toDOMS(stringStr.str()));
339  for (unsigned int iLogicLayer = 0; iLogicLayer < myOMTFConfig->nLayers(); ++iLogicLayer) {
340  xercesc::DOMElement* aLayer = theDoc->createElement(_toDOMS("Layer"));
341  stringStr.str("");
342  stringStr << iLogicLayer;
343  aLayer->setAttribute(_toDOMS("iLayer"), _toDOMS(stringStr.str()));
344  stringStr.str("");
345  stringStr << results[iLogicLayer][iRefLayer];
346  aLayer->setAttribute(_toDOMS("value"), _toDOMS(stringStr.str()));
347  if (results[iLogicLayer][iRefLayer])
348  aRefLayer->appendChild(aLayer);
349  }
350  if (aRefLayer->getChildNodes()->getLength())
351  aGP->appendChild(aRefLayer);
352  }
353  if (aGP->getChildNodes()->getLength())
354  aTopElement->appendChild(aGP);
355 }
const OMTFResult::vector2D & getResults() const
Definition: OMTFResult.h:18
int theCharge
Definition: GoldenPattern.h:36
XMLCh * _toDOMS(std::string temp)
unsigned int thePtCode
Definition: GoldenPattern.h:35
xercesc::DOMDocument * theDoc
unsigned int nLayers() const
const std::vector< int > & getRefToLogicNumber() const
unsigned int nRefLayers() const
std::vector< vector1D > vector2D
Definition: OMTFResult.h:12
const OMTFConfiguration * myOMTFConfig
results
Definition: mysort.py:8
int theEtaCode
Definition: GoldenPattern.h:34

◆ writeResultsData() [2/2]

void XMLConfigWriter::writeResultsData ( xercesc::DOMElement *  aTopElement,
unsigned int  iRegion,
const Key aKey,
const GoldenPatternResult aResult 
)

Write GP key parameters

Write results details for this GP

Definition at line 306 of file XMLConfigWriter.cc.

References _toDOMS(), GoldenPatternResult::getRefLayer(), OMTFConfiguration::getRefToLogicNumber(), GoldenPatternResult::getStubResults(), myOMTFConfig, OMTFConfiguration::nLayers(), Key::theCharge, theDoc, Key::theEtaCode, and Key::thePt.

309  {
310  std::ostringstream stringStr;
312  xercesc::DOMElement* aGP = theDoc->createElement(_toDOMS("GP"));
313  stringStr.str("");
314  stringStr << aKey.thePt;
315  aGP->setAttribute(_toDOMS("iPt"), _toDOMS(stringStr.str()));
316  stringStr.str("");
317  stringStr << aKey.theEtaCode;
318  aGP->setAttribute(_toDOMS("iEta"), _toDOMS(stringStr.str()));
319  stringStr.str("");
320  stringStr << "0";
321  aGP->setAttribute(_toDOMS("iPhi"), _toDOMS(stringStr.str()));
322  stringStr.str("");
323  stringStr << aKey.theCharge;
324  aGP->setAttribute(_toDOMS("iCharge"), _toDOMS(stringStr.str()));
327  {
328  xercesc::DOMElement* aRefLayer = theDoc->createElement(_toDOMS("Result"));
329  stringStr.str("");
330  stringStr << aResult.getRefLayer();
331  aRefLayer->setAttribute(_toDOMS("iRefLayer"), _toDOMS(stringStr.str()));
332  stringStr.str("");
333  stringStr << iRegion;
334  aRefLayer->setAttribute(_toDOMS("iRegion"), _toDOMS(stringStr.str()));
335  stringStr.str("");
336  stringStr << myOMTFConfig->getRefToLogicNumber()[aResult.getRefLayer()];
337  aRefLayer->setAttribute(_toDOMS("iLogicLayer"), _toDOMS(stringStr.str()));
338  for (unsigned int iLogicLayer = 0; iLogicLayer < myOMTFConfig->nLayers(); ++iLogicLayer) {
339  xercesc::DOMElement* aLayer = theDoc->createElement(_toDOMS("Layer"));
340  stringStr.str("");
341  stringStr << iLogicLayer;
342  aLayer->setAttribute(_toDOMS("iLayer"), _toDOMS(stringStr.str()));
343  stringStr.str("");
344  stringStr << aResult.getStubResults()[iLogicLayer].getPdfVal();
345  aLayer->setAttribute(_toDOMS("value"), _toDOMS(stringStr.str()));
346  if (aResult.getStubResults()[iLogicLayer].getPdfVal())
347  aRefLayer->appendChild(aLayer);
348  }
349  if (aRefLayer->getChildNodes()->getLength())
350  aGP->appendChild(aRefLayer);
351  }
352  if (aGP->getChildNodes()->getLength())
353  aTopElement->appendChild(aGP);
354 }
int theCharge
Definition: GoldenPattern.h:36
XMLCh * _toDOMS(std::string temp)
xercesc::DOMDocument * theDoc
const StubResults & getStubResults() const
unsigned int nLayers() const
const std::vector< int > & getRefToLogicNumber() const
unsigned int thePt
const OMTFConfiguration * myOMTFConfig
int theEtaCode
Definition: GoldenPattern.h:34

Member Data Documentation

◆ domImpl

xercesc::DOMImplementation * XMLConfigWriter::domImpl
private

Definition at line 61 of file XMLConfigWriter.h.

Referenced by finaliseXMLDocument(), initialiseXMLDocument(), and XMLConfigWriter().

◆ myOMTFConfig

const OMTFConfiguration * XMLConfigWriter::myOMTFConfig
private

◆ theDoc

xercesc::DOMDocument * XMLConfigWriter::theDoc
private

◆ theTopElement

xercesc::DOMElement * XMLConfigWriter::theTopElement
private

◆ writeMeanDistPhi1

bool XMLConfigWriter::writeMeanDistPhi1 = false
private

Definition at line 70 of file XMLConfigWriter.h.

Referenced by writeGPData().

◆ writePdfThresholds

bool XMLConfigWriter::writePdfThresholds = false
private

Definition at line 69 of file XMLConfigWriter.h.

Referenced by writeGPData().