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LaserAlignment Class Reference

#include <LaserAlignment.h>

Inheritance diagram for LaserAlignment:
edm::one::EDProducer< edm::EndRunProducer > edm::one::EDProducerBase edm::ProducerBase edm::EDConsumerBase edm::ProductRegistryHelper

Public Member Functions

virtual void beginJob () override
 
virtual void endJob () override
 
virtual void endRunProduce (edm::Run &, const edm::EventSetup &) override
 
 LaserAlignment (edm::ParameterSet const &theConf)
 
virtual void produce (edm::Event &, edm::EventSetup const &) override
 
void testRoutine (void)
 for debugging & testing only, will disappear.. More...
 
 ~LaserAlignment ()
 
- Public Member Functions inherited from edm::one::EDProducer< edm::EndRunProducer >
 EDProducer ()=default
 
- Public Member Functions inherited from edm::one::EDProducerBase
 EDProducerBase ()
 
ModuleDescription const & moduleDescription () const
 
virtual ~EDProducerBase ()
 
- Public Member Functions inherited from edm::ProducerBase
 ProducerBase ()
 
void registerProducts (ProducerBase *, ProductRegistry *, ModuleDescription const &)
 
std::function< void(BranchDescription
const &)> 
registrationCallback () const
 used by the fwk to register list of products More...
 
virtual ~ProducerBase ()
 
- Public Member Functions inherited from edm::EDConsumerBase
 EDConsumerBase ()
 
ProductHolderIndexAndSkipBit indexFrom (EDGetToken, BranchType, TypeID const &) const
 
void itemsMayGet (BranchType, std::vector< ProductHolderIndexAndSkipBit > &) const
 
void itemsToGet (BranchType, std::vector< ProductHolderIndexAndSkipBit > &) const
 
std::vector
< ProductHolderIndexAndSkipBit >
const & 
itemsToGetFromEvent () const
 
void labelsForToken (EDGetToken iToken, Labels &oLabels) const
 
void modulesDependentUpon (const std::string &iProcessName, std::vector< const char * > &oModuleLabels) const
 
bool registeredToConsume (ProductHolderIndex, bool, BranchType) const
 
bool registeredToConsumeMany (TypeID const &, BranchType) const
 
void updateLookup (BranchType iBranchType, ProductHolderIndexHelper const &)
 
virtual ~EDConsumerBase ()
 

Private Member Functions

void ApplyATMaskingCorrections (LASGlobalData< LASCoordinateSet > &, LASGlobalData< LASCoordinateSet > &, LASBarrelAlignmentParameterSet &)
 same for alignment tube modules More...
 
void ApplyEndcapMaskingCorrections (LASGlobalData< LASCoordinateSet > &, LASGlobalData< LASCoordinateSet > &, LASEndcapAlignmentParameterSet &)
 apply endcap correction to masked modules in TEC More...
 
void CalculateNominalCoordinates (void)
 fills a LASGlobalData<LASCoordinateSet> with nominal module positions More...
 
double ConvertAngle (double)
 convert an angle in the [-pi,pi] range to the [0,2*pi] range More...
 
void DumpHitmaps (LASGlobalData< int > &)
 for debugging only, will disappear More...
 
void DumpPosFileSet (LASGlobalData< LASCoordinateSet > &)
 for debugging only, will disappear More...
 
void DumpStripFileSet (LASGlobalData< std::pair< float, float > > &)
 for debugging only, will disappear More...
 
void fillDataProfiles (edm::Event const &, edm::EventSetup const &)
 fill profiles from SiStrip(Raw)Digi container More...
 
void fillDetectorId (void)
 fill hard coded detIds More...
 
void fillPedestalProfiles (edm::ESHandle< SiStripPedestals > &)
 fill pedestals from dbase More...
 
double getTEC2TECNominalBeamOffset (unsigned int, unsigned int, unsigned int)
 returns the nominal beam position (strips) in TEC (AT) for the profileJudge More...
 
double getTIBTOBNominalBeamOffset (unsigned int, unsigned int, unsigned int)
 returns the nominal beam position (strips) in TOB for the profileJudge More...
 
bool isATBeam (void)
 
bool isTECBeam (void)
 decide whether TEC or AT beams have fired More...
 

Private Attributes

LASGlobalData< LASModuleProfilecollectedDataProfiles
 
LASGlobalData< LASModuleProfilecurrentDataProfiles
 data profiles for the current event More...
 
LASGlobalData< unsigned int > detectorId
 
bool enableJudgeZeroFilter
 config switch More...
 
bool firstEvent_
 
edm::ESHandle< GeometricDetgD
 tracker geometry; More...
 
LASGlobalData< int > isAcceptedProfile
 
LASProfileJudge judge
 
unsigned int judgeOverdriveThreshold
 config parameters for the LASProfileJudge More...
 
bool misalignedByRefGeometry
 config switch More...
 
LASGlobalLoop moduleLoop
 
LASGlobalData< LASCoordinateSetnominalCoordinates
 
LASGlobalData< int > numberOfAcceptedProfiles
 
double peakFinderThreshold
 config parameter More...
 
LASGlobalData< LASModuleProfilepedestalProfiles
 
TDirectory * singleModulesDir
 
LASGlobalData< TH1D * > summedHistograms
 
std::vector< unsigned int > tecDoubleHitDetId
 
AlignableTrackertheAlignableTracker
 
std::string theAlignRecordName
 
bool theApplyBeamKinkCorrections
 config switch More...
 
int theCompression
 config parameter (histograms file compression level) More...
 
std::vector< edm::ParameterSettheDigiProducersList
 
bool theDoPedestalSubtraction
 config switch More...
 
std::string theErrorRecordName
 
int theEvents
 counter for the total number of events processed More...
 
TFile * theFile
 Tree stuff. More...
 
std::string theFileName
 config parameter (histograms file output name) More...
 
edm::ESHandle< AlignmentstheGlobalPositionRcd
 
LASConstants theLasConstants
 
std::vector< unsigned int > theMaskAtModules
 
std::vector< unsigned int > theMaskTecModules
 config parameters More...
 
const edm::ParameterSet theParameterSet
 
LASGlobalData< std::string > theProfileNames
 
bool theSaveHistograms
 config switch More...
 
bool theSetNominalStrips
 config switch More...
 
bool theStoreToDB
 config switch More...
 
edm::ESHandle< TrackerGeometrytheTrackerGeometry
 
bool theUseMinuitAlgorithm
 config switch More...
 
bool updateFromInputGeometry
 config switch More...
 

Additional Inherited Members

- Public Types inherited from edm::one::EDProducerBase
typedef EDProducerBase ModuleType
 
- Public Types inherited from edm::ProducerBase
typedef
ProductRegistryHelper::TypeLabelList 
TypeLabelList
 
- Static Public Member Functions inherited from edm::one::EDProducerBase
static const std::string & baseType ()
 
static void fillDescriptions (ConfigurationDescriptions &descriptions)
 
static void prevalidate (ConfigurationDescriptions &descriptions)
 
- Protected Member Functions inherited from edm::ProducerBase
void callWhenNewProductsRegistered (std::function< void(BranchDescription const &)> const &func)
 
- Protected Member Functions inherited from edm::EDConsumerBase
template<typename ProductType , BranchType B = InEvent>
EDGetTokenT< ProductType > consumes (edm::InputTag const &tag)
 
EDGetToken consumes (const TypeToGet &id, edm::InputTag const &tag)
 
template<BranchType B>
EDGetToken consumes (TypeToGet const &id, edm::InputTag const &tag)
 
ConsumesCollector consumesCollector ()
 Use a ConsumesCollector to gather consumes information from helper functions. More...
 
template<typename ProductType , BranchType B = InEvent>
void consumesMany ()
 
void consumesMany (const TypeToGet &id)
 
template<BranchType B>
void consumesMany (const TypeToGet &id)
 
template<typename ProductType , BranchType B = InEvent>
EDGetTokenT< ProductType > mayConsume (edm::InputTag const &tag)
 
EDGetToken mayConsume (const TypeToGet &id, edm::InputTag const &tag)
 
template<BranchType B>
EDGetToken mayConsume (const TypeToGet &id, edm::InputTag const &tag)
 

Detailed Description

Main reconstruction module for the Laser Alignment System

Date:
2012/12/26 20:34:44
Revision:
1.32
Author
Maarten Thomas
Jan Olzem

Definition at line 83 of file LaserAlignment.h.

Constructor & Destructor Documentation

LaserAlignment::LaserAlignment ( edm::ParameterSet const &  theConf)
explicit

Definition at line 19 of file LaserAlignment.cc.

References gather_cfg::cout, enableJudgeZeroFilter, LASProfileJudge::EnableZeroFilter(), edm::ParameterSet::getParameter(), judge, judgeOverdriveThreshold, misalignedByRefGeometry, peakFinderThreshold, LASProfileJudge::SetOverdriveThreshold(), AlCaHLTBitMon_QueryRunRegistry::string, theApplyBeamKinkCorrections, theCompression, theDoPedestalSubtraction, theFileName, theMaskAtModules, theMaskTecModules, theSaveHistograms, theSetNominalStrips, theStoreToDB, theUseMinuitAlgorithm, and updateFromInputGeometry.

19  :
20  theEvents(0),
21  theDoPedestalSubtraction( theConf.getUntrackedParameter<bool>( "SubtractPedestals", true ) ),
22  theUseMinuitAlgorithm( theConf.getUntrackedParameter<bool>( "RunMinuitAlignmentTubeAlgorithm", false ) ),
23  theApplyBeamKinkCorrections( theConf.getUntrackedParameter<bool>( "ApplyBeamKinkCorrections", true ) ),
24  peakFinderThreshold( theConf.getUntrackedParameter<double>( "PeakFinderThreshold", 10. ) ),
25  enableJudgeZeroFilter( theConf.getUntrackedParameter<bool>( "EnableJudgeZeroFilter", true ) ),
26  judgeOverdriveThreshold( theConf.getUntrackedParameter<unsigned int>( "JudgeOverdriveThreshold", 220 ) ),
27  updateFromInputGeometry( theConf.getUntrackedParameter<bool>( "UpdateFromInputGeometry", false ) ),
28  misalignedByRefGeometry( theConf.getUntrackedParameter<bool>( "MisalignedByRefGeometry", false ) ),
29  theStoreToDB ( theConf.getUntrackedParameter<bool>( "SaveToDbase", false ) ),
30  theDigiProducersList( theConf.getParameter<std::vector<edm::ParameterSet> >( "DigiProducersList" ) ),
31  theSaveHistograms( theConf.getUntrackedParameter<bool>( "SaveHistograms", false ) ),
32  theCompression( theConf.getUntrackedParameter<int>( "ROOTFileCompression", 1 ) ),
33  theFileName( theConf.getUntrackedParameter<std::string>( "ROOTFileName", "test.root" ) ),
34  theMaskTecModules( theConf.getUntrackedParameter<std::vector<unsigned int> >( "MaskTECModules" ) ),
35  theMaskAtModules( theConf.getUntrackedParameter<std::vector<unsigned int> >( "MaskATModules" ) ),
36  theSetNominalStrips( theConf.getUntrackedParameter<bool>( "ForceFitterToNominalStrips", false ) ),
37  theLasConstants( theConf.getUntrackedParameter<std::vector<edm::ParameterSet> >( "LaserAlignmentConstants" ) ),
38  theFile(),
40  theAlignRecordName( "TrackerAlignmentRcd" ),
41  theErrorRecordName( "TrackerAlignmentErrorRcd" ),
42  firstEvent_(true),
43  theParameterSet( theConf )
44 {
45 
46 
47  std::cout << std::endl;
48  std::cout << "=============================================================="
49  << "\n=== LaserAlignment module configuration ==="
50  << "\n"
51  << "\n Write histograms to file = " << (theSaveHistograms?"true":"false")
52  << "\n Histogram file name = " << theFileName
53  << "\n Histogram file compression = " << theCompression
54  << "\n Subtract pedestals = " << (theDoPedestalSubtraction?"true":"false")
55  << "\n Run Minuit AT algorithm = " << (theUseMinuitAlgorithm?"true":"false")
56  << "\n Apply beam kink corrections = " << (theApplyBeamKinkCorrections?"true":"false")
57  << "\n Peak Finder Threshold = " << peakFinderThreshold
58  << "\n EnableJudgeZeroFilter = " << (enableJudgeZeroFilter?"true":"false")
59  << "\n JudgeOverdriveThreshold = " << judgeOverdriveThreshold
60  << "\n Update from input geometry = " << (updateFromInputGeometry?"true":"false")
61  << "\n Misalignment from ref geometry = " << (misalignedByRefGeometry?"true":"false")
62  << "\n Number of TEC modules masked = " << theMaskTecModules.size() << " (s. below list if > 0)"
63  << "\n Number of AT modules masked = " << theMaskAtModules.size() << " (s. below list if > 0)"
64  << "\n Store to database = " << (theStoreToDB?"true":"false")
65  << "\n ----------------------------------------------- ----------"
66  << (theSetNominalStrips?"\n Set strips to nominal = true":"\n")
67  << "\n=============================================================" << std::endl;
68 
69  // tell about masked modules
70  if( theMaskTecModules.size() ) {
71  std::cout << " ===============================================================================================\n" << std::flush;
72  std::cout << " The following " << theMaskTecModules.size() << " TEC modules have been masked out and will not be considered by the TEC algorithm:\n " << std::flush;
73  for( std::vector<unsigned int>::iterator moduleIt = theMaskTecModules.begin(); moduleIt != theMaskTecModules.end(); ++moduleIt ) {
74  std::cout << *moduleIt << (moduleIt!=--theMaskTecModules.end()?", ":"") << std::flush;
75  }
76  std::cout << std::endl << std::flush;
77  std::cout << " ===============================================================================================\n\n" << std::flush;
78  }
79  if( theMaskAtModules.size() ) {
80  std::cout << " ===============================================================================================\n" << std::flush;
81  std::cout << " The following " << theMaskAtModules.size() << " AT modules have been masked out and will not be considered by the AT algorithm:\n " << std::flush;
82  for( std::vector<unsigned int>::iterator moduleIt = theMaskAtModules.begin(); moduleIt != theMaskAtModules.end(); ++moduleIt ) {
83  std::cout << *moduleIt << (moduleIt!=--theMaskAtModules.end()?", ":"") << std::flush;
84  }
85  std::cout << std::endl << std::flush;
86  std::cout << " ===============================================================================================\n\n" << std::flush;
87  }
88 
89 
90 
91  // alias for the Branches in the root files
92  std::string alias ( theConf.getParameter<std::string>("@module_label") );
93 
94  // declare the product to produce
95  produces<TkLasBeamCollection, edm::InRun>( "tkLaserBeams" ).setBranchAlias( alias + "TkLasBeamCollection" );
96 
97  // switch judge's zero filter depending on cfg
99 
100  // set the upper threshold for zero suppressed data
102 
103 }
unsigned int judgeOverdriveThreshold
config parameters for the LASProfileJudge
const edm::ParameterSet theParameterSet
bool theSaveHistograms
config switch
bool misalignedByRefGeometry
config switch
std::string theAlignRecordName
double peakFinderThreshold
config parameter
bool theDoPedestalSubtraction
config switch
std::vector< unsigned int > theMaskTecModules
config parameters
bool theUseMinuitAlgorithm
config switch
TFile * theFile
Tree stuff.
std::vector< edm::ParameterSet > theDigiProducersList
std::string theFileName
config parameter (histograms file output name)
bool theApplyBeamKinkCorrections
config switch
std::string theErrorRecordName
bool theStoreToDB
config switch
AlignableTracker * theAlignableTracker
int theEvents
counter for the total number of events processed
LASConstants theLasConstants
void SetOverdriveThreshold(unsigned int)
std::vector< unsigned int > theMaskAtModules
int theCompression
config parameter (histograms file compression level)
void EnableZeroFilter(bool)
tuple cout
Definition: gather_cfg.py:121
bool enableJudgeZeroFilter
config switch
LASProfileJudge judge
bool updateFromInputGeometry
config switch
bool theSetNominalStrips
config switch
LaserAlignment::~LaserAlignment ( )

Definition at line 112 of file LaserAlignment.cc.

References theAlignableTracker, theFile, and theSaveHistograms.

112  {
113 
114  if ( theSaveHistograms ) theFile->Write();
115  if ( theFile ) { delete theFile; }
116  if ( theAlignableTracker ) { delete theAlignableTracker; }
117 
118 }
bool theSaveHistograms
config switch
TFile * theFile
Tree stuff.
AlignableTracker * theAlignableTracker

Member Function Documentation

void LaserAlignment::ApplyATMaskingCorrections ( LASGlobalData< LASCoordinateSet > &  measuredCoordinates,
LASGlobalData< LASCoordinateSet > &  nominalCoordinates,
LASBarrelAlignmentParameterSet atParameters 
)
private

same for alignment tube modules

loop the list of alignment tube modules to be masked and apply the corrections from the "barrelParameters" to them

Definition at line 1643 of file LaserAlignment.cc.

References EcalCondDBWriter_cfi::beam, detectorId, LASCoordinateSet::GetPhi(), LASAlignmentTubeAlgorithm::GetTEC2TECAlignmentParameterCorrection(), LASGlobalData< T >::GetTEC2TECEntry(), LASAlignmentTubeAlgorithm::GetTIBTOBAlignmentParameterCorrection(), LASGlobalData< T >::GetTIBTOBEntry(), moduleLoop, LASCoordinateSet::SetPhi(), LASGlobalLoop::TEC2TECLoop(), theMaskAtModules, and LASGlobalLoop::TIBTOBLoop().

Referenced by endRunProduce().

1643  {
1644 
1645  // loop the list of modules to be masked
1646  for( std::vector<unsigned int>::iterator moduleIt = theMaskAtModules.begin(); moduleIt != theMaskAtModules.end(); ++moduleIt ) {
1647 
1648  // loop variables
1650  int det, beam, disk, pos;
1651 
1652  // this will calculate the corrections from the alignment parameters
1653  LASAlignmentTubeAlgorithm atAlgorithm;
1654 
1655 
1656  // find the location of the respective module in the container with these loops:
1657 
1658  // first TIB+TOB
1659  det = 2; beam = 0; pos = 0;
1660  do {
1661 
1662  // here we got it
1663  if( detectorId.GetTIBTOBEntry( det, beam, pos ) == *moduleIt ) {
1664 
1665  // the nominal phi value for this module
1666  const double nominalPhi = nominalCoordinates.GetTIBTOBEntry( det, beam, pos ).GetPhi();
1667 
1668  // the offset from the alignment parameters
1669  const double phiCorrection = atAlgorithm.GetTIBTOBAlignmentParameterCorrection( det, beam, pos, nominalCoordinates, atParameters );
1670 
1671  // apply the corrections
1672  measuredCoordinates.GetTIBTOBEntry( det, beam, pos ).SetPhi( nominalPhi - phiCorrection );
1673 
1674  }
1675 
1676  } while ( moduleLoop.TIBTOBLoop( det, beam, pos ) );
1677 
1678 
1679 
1680  // then TEC(AT)
1681  det = 0; beam = 0; disk = 0;
1682  do {
1683 
1684  // here we got it
1685  if( detectorId.GetTEC2TECEntry( det, beam, disk ) == *moduleIt ) {
1686 
1687  // the nominal phi value for this module
1688  const double nominalPhi = nominalCoordinates.GetTEC2TECEntry( det, beam, disk ).GetPhi();
1689 
1690  // the offset from the alignment parameters
1691  const double phiCorrection = atAlgorithm.GetTEC2TECAlignmentParameterCorrection( det, beam, disk, nominalCoordinates, atParameters );
1692 
1693  // apply the corrections
1694  measuredCoordinates.GetTEC2TECEntry( det, beam, disk ).SetPhi( nominalPhi - phiCorrection );
1695 
1696  }
1697 
1698  } while ( moduleLoop.TEC2TECLoop( det, beam, disk ) );
1699 
1700  }
1701 
1702 }
void SetPhi(double aPhi)
double GetPhi(void) const
bool TEC2TECLoop(int &, int &, int &) const
T & GetTIBTOBEntry(int subdetector, int beam, int tibTobPosition)
double GetTEC2TECAlignmentParameterCorrection(int, int, int, LASGlobalData< LASCoordinateSet > &, LASBarrelAlignmentParameterSet &)
T & GetTEC2TECEntry(int subdetector, int beam, int tecDisk)
std::vector< unsigned int > theMaskAtModules
LASGlobalData< unsigned int > detectorId
bool TIBTOBLoop(int &, int &, int &) const
double GetTIBTOBAlignmentParameterCorrection(int, int, int, LASGlobalData< LASCoordinateSet > &, LASBarrelAlignmentParameterSet &)
LASGlobalLoop moduleLoop
void LaserAlignment::ApplyEndcapMaskingCorrections ( LASGlobalData< LASCoordinateSet > &  measuredCoordinates,
LASGlobalData< LASCoordinateSet > &  nominalCoordinates,
LASEndcapAlignmentParameterSet endcapParameters 
)
private

apply endcap correction to masked modules in TEC

loop the list of endcap modules to be masked and apply the corrections from the "endcapParameters" to them

Definition at line 1599 of file LaserAlignment.cc.

References EcalCondDBWriter_cfi::beam, detectorId, LASEndcapAlgorithm::GetAlignmentParameterCorrection(), LASCoordinateSet::GetPhi(), LASGlobalData< T >::GetTECEntry(), moduleLoop, relativeConstraints::ring, LASCoordinateSet::SetPhi(), LASGlobalLoop::TECLoop(), and theMaskTecModules.

Referenced by endRunProduce().

1599  {
1600 
1601  // loop the list of modules to be masked
1602  for( std::vector<unsigned int>::iterator moduleIt = theMaskTecModules.begin(); moduleIt != theMaskTecModules.end(); ++moduleIt ) {
1603 
1604  // loop variables
1606  int det, ring, beam, disk;
1607 
1608  // this will calculate the corrections from the alignment parameters
1609  LASEndcapAlgorithm endcapAlgorithm;
1610 
1611  // find the location of the respective module in the container with this loop
1612  det = 0; ring = 0; beam = 0; disk = 0;
1613  do {
1614 
1615  // here we got it
1616  if( detectorId.GetTECEntry( det, ring, beam, disk ) == *moduleIt ) {
1617 
1618  // the nominal phi value for this module
1619  const double nominalPhi = nominalCoordinates.GetTECEntry( det, ring, beam, disk ).GetPhi();
1620 
1621  // the offset from the alignment parameters
1622  const double phiCorrection = endcapAlgorithm.GetAlignmentParameterCorrection( det, ring, beam, disk, nominalCoordinates, endcapParameters );
1623 
1624  // apply the corrections
1625  measuredCoordinates.GetTECEntry( det, ring, beam, disk ).SetPhi( nominalPhi - phiCorrection );
1626 
1627  }
1628 
1629  } while ( moduleLoop.TECLoop( det, ring, beam, disk ) );
1630 
1631  }
1632 
1633 }
void SetPhi(double aPhi)
std::vector< unsigned int > theMaskTecModules
config parameters
double GetPhi(void) const
T & GetTECEntry(int subdetector, int tecRing, int beam, int tecDisk)
Definition: LASGlobalData.h:91
double GetAlignmentParameterCorrection(int, int, int, int, LASGlobalData< LASCoordinateSet > &, LASEndcapAlignmentParameterSet &)
LASGlobalData< unsigned int > detectorId
bool TECLoop(int &, int &, int &, int &) const
LASGlobalLoop moduleLoop
void LaserAlignment::beginJob ( void  )
overridevirtual

Reimplemented from edm::one::EDProducerBase.

Definition at line 127 of file LaserAlignment.cc.

References EcalCondDBWriter_cfi::beam, collectedDataProfiles, currentDataProfiles, edm::hlt::Exception, fillDetectorId(), firstEvent_, LASGlobalData< T >::GetTEC2TECEntry(), LASGlobalData< T >::GetTECEntry(), LASGlobalData< T >::GetTIBTOBEntry(), isAcceptedProfile, moduleLoop, numberOfAcceptedProfiles, pedestalProfiles, relativeConstraints::ring, LASModuleProfile::SetAllValuesTo(), LASGlobalData< T >::SetTEC2TECEntry(), LASGlobalData< T >::SetTECEntry(), LASGlobalData< T >::SetTIBTOBEntry(), singleModulesDir, summedHistograms, LASGlobalLoop::TEC2TECLoop(), LASGlobalLoop::TECLoop(), theCompression, theFile, theFileName, theProfileNames, theSaveHistograms, and LASGlobalLoop::TIBTOBLoop().

127  {
128 
129 
130  // write sumed histograms to file (if selected in cfg)
131  if( theSaveHistograms ) {
132 
133  // creating a new file
134  theFile = new TFile( theFileName.c_str(), "RECREATE", "CMS ROOT file" );
135 
136  // initialize the histograms
137  if ( theFile ) {
138  theFile->SetCompressionLevel(theCompression);
139  singleModulesDir = theFile->mkdir( "single modules" );
140  } else
141  throw cms::Exception( " [LaserAlignment::beginJob]") << " ** ERROR: could not open file:"
142  << theFileName.c_str() << " for writing." << std::endl;
143 
144  }
145 
146  // detector id maps (hard coded)
147  fillDetectorId();
148 
149  // ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
150  // PROFILE, HISTOGRAM & FITFUNCTION INITIALIZATION
151  // ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
152 
153  // object used to build various strings for names and labels
154  std::stringstream nameBuilder;
155 
156  // loop variables for use with LASGlobalLoop object
157  int det, ring, beam, disk, pos;
158 
159  // loop TEC modules
160  det = 0; ring = 0; beam = 0; disk = 0;
161  do { // loop using LASGlobalLoop functionality
162  // init the profiles
163  pedestalProfiles.GetTECEntry( det, ring, beam, disk ).SetAllValuesTo( 0. );
164  currentDataProfiles.GetTECEntry( det, ring, beam, disk ).SetAllValuesTo( 0. );
165  collectedDataProfiles.GetTECEntry( det, ring, beam, disk ).SetAllValuesTo( 0. );
166 
167  // init the hit maps
168  isAcceptedProfile.SetTECEntry( det, ring, beam, disk, 0 );
169  numberOfAcceptedProfiles.SetTECEntry( det, ring, beam, disk, 0 );
170 
171  // create strings for histo names
172  nameBuilder.clear();
173  nameBuilder.str( "" );
174  nameBuilder << "TEC";
175  if( det == 0 ) nameBuilder << "+"; else nameBuilder << "-";
176  nameBuilder << "_Ring";
177  if( ring == 0 ) nameBuilder << "4"; else nameBuilder << "6";
178  nameBuilder << "_Beam" << beam;
179  nameBuilder << "_Disk" << disk;
180  theProfileNames.SetTECEntry( det, ring, beam, disk, nameBuilder.str() );
181 
182  // init the histograms
183  if( theSaveHistograms ) {
184  nameBuilder << "_Histo";
185  summedHistograms.SetTECEntry( det, ring, beam, disk, new TH1D( nameBuilder.str().c_str(), nameBuilder.str().c_str(), 512, 0, 512 ) );
186  summedHistograms.GetTECEntry( det, ring, beam, disk )->SetDirectory( singleModulesDir );
187  }
188 
189  } while ( moduleLoop.TECLoop( det, ring, beam, disk ) );
190 
191 
192  // TIB & TOB section
193  det = 2; beam = 0; pos = 0;
194  do { // loop using LASGlobalLoop functionality
195  // init the profiles
196  pedestalProfiles.GetTIBTOBEntry( det, beam, pos ).SetAllValuesTo( 0. );
197  currentDataProfiles.GetTIBTOBEntry( det, beam, pos ).SetAllValuesTo( 0. );
198  collectedDataProfiles.GetTIBTOBEntry( det, beam, pos ).SetAllValuesTo( 0. );
199 
200  // init the hit maps
201  isAcceptedProfile.SetTIBTOBEntry( det, beam, pos, 0 );
202  numberOfAcceptedProfiles.SetTIBTOBEntry( det, beam, pos, 0 );
203 
204  // create strings for histo names
205  nameBuilder.clear();
206  nameBuilder.str( "" );
207  if( det == 2 ) nameBuilder << "TIB"; else nameBuilder << "TOB";
208  nameBuilder << "_Beam" << beam;
209  nameBuilder << "_Zpos" << pos;
210 
211  theProfileNames.SetTIBTOBEntry( det, beam, pos, nameBuilder.str() );
212 
213  // init the histograms
214  if( theSaveHistograms ) {
215  nameBuilder << "_Histo";
216  summedHistograms.SetTIBTOBEntry( det, beam, pos, new TH1D( nameBuilder.str().c_str(), nameBuilder.str().c_str(), 512, 0, 512 ) );
217  summedHistograms.GetTIBTOBEntry( det, beam, pos )->SetDirectory( singleModulesDir );
218  }
219 
220  } while( moduleLoop.TIBTOBLoop( det, beam, pos ) );
221 
222 
223  // TEC2TEC AT section
224  det = 0; beam = 0; disk = 0;
225  do { // loop using LASGlobalLoop functionality
226  // init the profiles
227  pedestalProfiles.GetTEC2TECEntry( det, beam, disk ).SetAllValuesTo( 0. );
228  currentDataProfiles.GetTEC2TECEntry( det, beam, disk ).SetAllValuesTo( 0. );
229  collectedDataProfiles.GetTEC2TECEntry( det, beam, disk ).SetAllValuesTo( 0. );
230 
231  // init the hit maps
232  isAcceptedProfile.SetTEC2TECEntry( det, beam, disk, 0 );
233  numberOfAcceptedProfiles.SetTEC2TECEntry( det, beam, disk, 0 );
234 
235  // create strings for histo names
236  nameBuilder.clear();
237  nameBuilder.str( "" );
238  nameBuilder << "TEC(AT)";
239  if( det == 0 ) nameBuilder << "+"; else nameBuilder << "-";
240  nameBuilder << "_Beam" << beam;
241  nameBuilder << "_Disk" << disk;
242  theProfileNames.SetTEC2TECEntry( det, beam, disk, nameBuilder.str() );
243 
244  // init the histograms
245  if( theSaveHistograms ) {
246  nameBuilder << "_Histo";
247  summedHistograms.SetTEC2TECEntry( det, beam, disk, new TH1D( nameBuilder.str().c_str(), nameBuilder.str().c_str(), 512, 0, 512 ) );
248  summedHistograms.GetTEC2TECEntry( det, beam, disk )->SetDirectory( singleModulesDir );
249  }
250 
251  } while( moduleLoop.TEC2TECLoop( det, beam, disk ) );
252 
253  firstEvent_ = true;
254 }
void SetTEC2TECEntry(int subdetector, int beam, int tecDisk, T)
bool theSaveHistograms
config switch
LASGlobalData< int > numberOfAcceptedProfiles
void SetAllValuesTo(const double &)
LASGlobalData< LASModuleProfile > currentDataProfiles
data profiles for the current event
TFile * theFile
Tree stuff.
LASGlobalData< int > isAcceptedProfile
LASGlobalData< TH1D * > summedHistograms
TDirectory * singleModulesDir
bool TEC2TECLoop(int &, int &, int &) const
std::string theFileName
config parameter (histograms file output name)
T & GetTIBTOBEntry(int subdetector, int beam, int tibTobPosition)
void SetTIBTOBEntry(int subdetector, int beam, int tibTobPosition, T)
LASGlobalData< LASModuleProfile > pedestalProfiles
T & GetTEC2TECEntry(int subdetector, int beam, int tecDisk)
T & GetTECEntry(int subdetector, int tecRing, int beam, int tecDisk)
Definition: LASGlobalData.h:91
LASGlobalData< std::string > theProfileNames
LASGlobalData< LASModuleProfile > collectedDataProfiles
void fillDetectorId(void)
fill hard coded detIds
int theCompression
config parameter (histograms file compression level)
bool TECLoop(int &, int &, int &, int &) const
bool TIBTOBLoop(int &, int &, int &) const
void SetTECEntry(int subdetector, int tecRing, int beam, int tecDisk, T)
LASGlobalLoop moduleLoop
void LaserAlignment::CalculateNominalCoordinates ( void  )
private

fills a LASGlobalData<LASCoordinateSet> with nominal module positions

Definition at line 1358 of file LaserAlignment.cc.

References EcalCondDBWriter_cfi::beam, moduleLoop, nominalCoordinates, relativeConstraints::ring, LASGlobalData< T >::SetTEC2TECEntry(), LASGlobalData< T >::SetTECEntry(), LASGlobalData< T >::SetTIBTOBEntry(), LASGlobalLoop::TEC2TECLoop(), LASGlobalLoop::TECLoop(), and LASGlobalLoop::TIBTOBLoop().

Referenced by endRunProduce().

1358  {
1359 
1360  //
1361  // hard coded data yet...
1362  //
1363 
1364  // nominal phi values of tec beam / alignment tube hits (parameter is beam 0-7)
1365  const double tecPhiPositions[8] = { 0.392699, 1.178097, 1.963495, 2.748894, 3.534292, 4.319690, 5.105088, 5.890486 }; // new values calculated by maple
1366  const double atPhiPositions[8] = { 0.392699, 1.289799, 1.851794, 2.748894, 3.645995, 4.319690, 5.216791, 5.778784 }; // new values calculated by maple
1367 
1368  // nominal r values (mm) of hits
1369  const double tobRPosition = 600.;
1370  const double tibRPosition = 514.;
1371  const double tecRPosition[2] = { 564., 840. }; // ring 4,6
1372 
1373  // nominal z values (mm) of hits in barrel (parameter is pos 0-6)
1374  const double tobZPosition[6] = { 1040., 580., 220., -140., -500., -860. };
1375  const double tibZPosition[6] = { 620., 380., 180., -100., -340., -540. };
1376 
1377  // nominal z values (mm) of hits in tec (parameter is disk 0-8); FOR TEC-: (* -1.)
1378  const double tecZPosition[9] = { 1322.5, 1462.5, 1602.5, 1742.5, 1882.5, 2057.5, 2247.5, 2452.5, 2667.5 };
1379 
1380 
1381  //
1382  // now we fill these into the nominalCoordinates container;
1383  // errors are zero for nominal values..
1384  //
1385 
1386  // loop object and its variables
1388  int det, ring, beam, disk, pos;
1389 
1390 
1391  // TEC+- section
1392  det = 0; ring = 0, beam = 0; disk = 0;
1393  do {
1394 
1395  if( det == 0 ) { // this is TEC+
1396  nominalCoordinates.SetTECEntry( det, ring, beam, disk, LASCoordinateSet( tecPhiPositions[beam], 0., tecRPosition[ring], 0., tecZPosition[disk], 0. ) );
1397  }
1398  else { // now TEC-
1399  nominalCoordinates.SetTECEntry( det, ring, beam, disk, LASCoordinateSet( tecPhiPositions[beam], 0., tecRPosition[ring], 0., -1. * tecZPosition[disk], 0. ) ); // just * -1.
1400  }
1401 
1402  } while( moduleLoop.TECLoop( det, ring, beam, disk ) );
1403 
1404 
1405 
1406  // TIB & TOB section
1407  det = 2; beam = 0; pos = 0;
1408  do {
1409  if( det == 2 ) { // this is TIB
1410  nominalCoordinates.SetTIBTOBEntry( det, beam, pos, LASCoordinateSet( atPhiPositions[beam], 0., tibRPosition, 0., tibZPosition[pos], 0. ) );
1411  }
1412  else { // now TOB
1413  nominalCoordinates.SetTIBTOBEntry( det, beam, pos, LASCoordinateSet( atPhiPositions[beam], 0., tobRPosition, 0., tobZPosition[pos], 0. ) );
1414  }
1415 
1416  } while( moduleLoop.TIBTOBLoop( det, beam, pos ) );
1417 
1418 
1419 
1420 
1421  // TEC2TEC AT section
1422  det = 0; beam = 0; disk = 0;
1423  do {
1424 
1425  if( det == 0 ) { // this is TEC+, ring4 only
1426  nominalCoordinates.SetTEC2TECEntry( det, beam, disk, LASCoordinateSet( atPhiPositions[beam], 0., tecRPosition[0], 0., tecZPosition[disk], 0. ) );
1427  }
1428  else { // now TEC-
1429  nominalCoordinates.SetTEC2TECEntry( det, beam, disk, LASCoordinateSet( atPhiPositions[beam], 0., tecRPosition[0], 0., -1. * tecZPosition[disk], 0. ) ); // just * -1.
1430  }
1431 
1432  } while( moduleLoop.TEC2TECLoop( det, beam, disk ) );
1433 
1434 
1435 }
void SetTEC2TECEntry(int subdetector, int beam, int tecDisk, T)
bool TEC2TECLoop(int &, int &, int &) const
void SetTIBTOBEntry(int subdetector, int beam, int tibTobPosition, T)
LASGlobalData< LASCoordinateSet > nominalCoordinates
bool TECLoop(int &, int &, int &, int &) const
bool TIBTOBLoop(int &, int &, int &) const
void SetTECEntry(int subdetector, int tecRing, int beam, int tecDisk, T)
LASGlobalLoop moduleLoop
double LaserAlignment::ConvertAngle ( double  angle)
private

convert an angle in the [-pi,pi] range to the [0,2*pi] range

convert an angle in the [-pi,pi] range to the [0,2*pi] range

Definition at line 1445 of file LaserAlignment.cc.

References angle(), edm::hlt::Exception, and M_PI.

Referenced by endRunProduce().

1445  {
1446 
1447  if( angle < -1. * M_PI || angle > M_PI ) {
1448  throw cms::Exception(" [LaserAlignment::ConvertAngle] ") << "** ERROR: Called with illegal input angle: " << angle << "." << std::endl;
1449  }
1450 
1451  if( angle >= 0. ) return angle;
1452  else return( angle + 2. * M_PI );
1453 
1454 }
#define M_PI
T angle(T x1, T y1, T z1, T x2, T y2, T z2)
Definition: angle.h:11
void LaserAlignment::DumpHitmaps ( LASGlobalData< int > &  numberOfAcceptedProfiles)
private

for debugging only, will disappear

Definition at line 1539 of file LaserAlignment.cc.

References EcalCondDBWriter_cfi::beam, gather_cfg::cout, and LASGlobalData< T >::GetTECEntry().

Referenced by endRunProduce().

1539  {
1540 
1541  std::cout << " [LaserAlignment::DumpHitmaps] -- Dumping hitmap for TEC+:" << std::endl;
1542  std::cout << " [LaserAlignment::DumpHitmaps] -- Ring4:" << std::endl;
1543  std::cout << " disk0 disk1 disk2 disk3 disk4 disk5 disk6 disk7 disk8" << std::endl;
1544 
1545  for( int beam = 0; beam < 8; ++beam ) {
1546  std::cout << " beam" << beam << ":";
1547  for( int disk = 0; disk < 9; ++disk ) {
1548  std::cout << "\t" << numberOfAcceptedProfiles.GetTECEntry( 0, 0, beam, disk );
1549  }
1550  std::cout << std::endl;
1551  }
1552 
1553  std::cout << " [LaserAlignment::DumpHitmaps] -- Ring6:" << std::endl;
1554  std::cout << " disk0 disk1 disk2 disk3 disk4 disk5 disk6 disk7 disk8" << std::endl;
1555 
1556  for( int beam = 0; beam < 8; ++beam ) {
1557  std::cout << " beam" << beam << ":";
1558  for( int disk = 0; disk < 9; ++disk ) {
1559  std::cout << "\t" << numberOfAcceptedProfiles.GetTECEntry( 0, 1, beam, disk );
1560  }
1561  std::cout << std::endl;
1562  }
1563 
1564  std::cout << " [LaserAlignment::DumpHitmaps] -- Dumping hitmap for TEC-:" << std::endl;
1565  std::cout << " [LaserAlignment::DumpHitmaps] -- Ring4:" << std::endl;
1566  std::cout << " disk0 disk1 disk2 disk3 disk4 disk5 disk6 disk7 disk8" << std::endl;
1567 
1568  for( int beam = 0; beam < 8; ++beam ) {
1569  std::cout << " beam" << beam << ":";
1570  for( int disk = 0; disk < 9; ++disk ) {
1571  std::cout << "\t" << numberOfAcceptedProfiles.GetTECEntry( 1, 0, beam, disk );
1572  }
1573  std::cout << std::endl;
1574  }
1575 
1576  std::cout << " [LaserAlignment::DumpHitmaps] -- Ring6:" << std::endl;
1577  std::cout << " disk0 disk1 disk2 disk3 disk4 disk5 disk6 disk7 disk8" << std::endl;
1578 
1579  for( int beam = 0; beam < 8; ++beam ) {
1580  std::cout << " beam" << beam << ":";
1581  for( int disk = 0; disk < 9; ++disk ) {
1582  std::cout << "\t" << numberOfAcceptedProfiles.GetTECEntry( 1, 1, beam, disk );
1583  }
1584  std::cout << std::endl;
1585  }
1586 
1587  std::cout << " [LaserAlignment::DumpHitmaps] -- End of dump." << std::endl << std::endl;
1588 
1589 }
T & GetTECEntry(int subdetector, int tecRing, int beam, int tecDisk)
Definition: LASGlobalData.h:91
tuple cout
Definition: gather_cfg.py:121
void LaserAlignment::DumpPosFileSet ( LASGlobalData< LASCoordinateSet > &  coordinates)
private

for debugging only, will disappear

debug only, will disappear

Definition at line 1463 of file LaserAlignment.cc.

References EcalCondDBWriter_cfi::beam, gather_cfg::cout, LASCoordinateSet::GetPhi(), LASCoordinateSet::GetPhiError(), LASGlobalData< T >::GetTEC2TECEntry(), LASGlobalData< T >::GetTECEntry(), LASGlobalData< T >::GetTIBTOBEntry(), python.cmstools::loop(), relativeConstraints::ring, LASGlobalLoop::TEC2TECLoop(), LASGlobalLoop::TECLoop(), and LASGlobalLoop::TIBTOBLoop().

1463  {
1464 
1466  int det, ring, beam, disk, pos;
1467 
1468  std:: cout << std::endl << " [LaserAlignment::DumpPosFileSet] -- Dump: " << std::endl;
1469 
1470  // TEC INTERNAL
1471  det = 0; ring = 0; beam = 0; disk = 0;
1472  do {
1473  std::cout << "POS " << det << "\t" << beam << "\t" << disk << "\t" << ring << "\t" << coordinates.GetTECEntry( det, ring, beam, disk ).GetPhi() << "\t" << coordinates.GetTECEntry( det, ring, beam, disk ).GetPhiError() << std::endl;
1474  } while ( loop.TECLoop( det, ring, beam, disk ) );
1475 
1476  // TIBTOB
1477  det = 2; beam = 0; pos = 0;
1478  do {
1479  std::cout << "POS " << det << "\t" << beam << "\t" << pos << "\t" << "-1" << "\t" << coordinates.GetTIBTOBEntry( det, beam, pos ).GetPhi() << "\t" << coordinates.GetTIBTOBEntry( det, beam, pos ).GetPhiError() << std::endl;
1480  } while( loop.TIBTOBLoop( det, beam, pos ) );
1481 
1482  // TEC2TEC
1483  det = 0; beam = 0; disk = 0;
1484  do {
1485  std::cout << "POS " << det << "\t" << beam << "\t" << disk << "\t" << "-1" << "\t" << coordinates.GetTEC2TECEntry( det, beam, disk ).GetPhi() << "\t" << coordinates.GetTEC2TECEntry( det, beam, disk ).GetPhiError() << std::endl;
1486  } while( loop.TEC2TECLoop( det, beam, disk ) );
1487 
1488  std:: cout << std::endl << " [LaserAlignment::DumpPosFileSet] -- End dump: " << std::endl;
1489 
1490 }
double GetPhi(void) const
bool TEC2TECLoop(int &, int &, int &) const
T & GetTIBTOBEntry(int subdetector, int beam, int tibTobPosition)
T & GetTEC2TECEntry(int subdetector, int beam, int tecDisk)
T & GetTECEntry(int subdetector, int tecRing, int beam, int tecDisk)
Definition: LASGlobalData.h:91
bool TECLoop(int &, int &, int &, int &) const
bool TIBTOBLoop(int &, int &, int &) const
double GetPhiError(void) const
tuple cout
Definition: gather_cfg.py:121
void LaserAlignment::DumpStripFileSet ( LASGlobalData< std::pair< float, float > > &  measuredStripPositions)
private

for debugging only, will disappear

Definition at line 1499 of file LaserAlignment.cc.

References EcalCondDBWriter_cfi::beam, gather_cfg::cout, python.cmstools::loop(), relativeConstraints::ring, LASGlobalLoop::TEC2TECLoop(), LASGlobalLoop::TECLoop(), and LASGlobalLoop::TIBTOBLoop().

1499  {
1500 
1502  int det, ring, beam, disk, pos;
1503 
1504  std:: cout << std::endl << " [LaserAlignment::DumpStripFileSet] -- Dump: " << std::endl;
1505 
1506  // TEC INTERNAL
1507  det = 0; ring = 0; beam = 0; disk = 0;
1508  do {
1509  std::cout << "STRIP " << det << "\t" << beam << "\t" << disk << "\t" << ring << "\t" << measuredStripPositions.GetTECEntry( det, ring, beam, disk ).first
1510  << "\t" << measuredStripPositions.GetTECEntry( det, ring, beam, disk ).second << std::endl;
1511  } while ( loop.TECLoop( det, ring, beam, disk ) );
1512 
1513  // TIBTOB
1514  det = 2; beam = 0; pos = 0;
1515  do {
1516  std::cout << "STRIP " << det << "\t" << beam << "\t" << pos << "\t" << "-1" << "\t" << measuredStripPositions.GetTIBTOBEntry( det, beam, pos ).first
1517  << "\t" << measuredStripPositions.GetTIBTOBEntry( det, beam, pos ).second << std::endl;
1518  } while( loop.TIBTOBLoop( det, beam, pos ) );
1519 
1520  // TEC2TEC
1521  det = 0; beam = 0; disk = 0;
1522  do {
1523  std::cout << "STRIP " << det << "\t" << beam << "\t" << disk << "\t" << "-1" << "\t" << measuredStripPositions.GetTEC2TECEntry( det, beam, disk ).first
1524  << "\t" << measuredStripPositions.GetTEC2TECEntry( det, beam, disk ).second << std::endl;
1525  } while( loop.TEC2TECLoop( det, beam, disk ) );
1526 
1527  std:: cout << std::endl << " [LaserAlignment::DumpStripFileSet] -- End dump: " << std::endl;
1528 
1529 
1530 }
bool TEC2TECLoop(int &, int &, int &) const
T & GetTIBTOBEntry(int subdetector, int beam, int tibTobPosition)
T & GetTEC2TECEntry(int subdetector, int beam, int tecDisk)
T & GetTECEntry(int subdetector, int tecRing, int beam, int tecDisk)
Definition: LASGlobalData.h:91
bool TECLoop(int &, int &, int &, int &) const
bool TIBTOBLoop(int &, int &, int &) const
tuple cout
Definition: gather_cfg.py:121
void LaserAlignment::endJob ( void  )
overridevirtual

Reimplemented from edm::one::EDProducerBase.

Definition at line 966 of file LaserAlignment.cc.

966  {
967 }
void LaserAlignment::endRunProduce ( edm::Run theRun,
const edm::EventSetup theSetup 
)
overridevirtual

laser hit section for trackbased interface

due to the peculiar order of beams in TkLasBeamCollection, we cannot use the LASGlobalLoop object here

Definition at line 468 of file LaserAlignment.cc.

References AlignableTracker::alignmentErrors(), AlignableTracker::alignments(), ApplyATMaskingCorrections(), LASGeometryUpdater::ApplyBeamKinkCorrections(), ApplyEndcapMaskingCorrections(), PV3DBase< T, PVType, FrameType >::barePhi(), EcalCondDBWriter_cfi::beam, cond::service::PoolDBOutputService::beginOfTime(), CalculateNominalCoordinates(), LASAlignmentTubeAlgorithm::CalculateParameters(), LASBarrelAlgorithm::CalculateParameters(), LASEndcapAlgorithm::CalculateParameters(), collectedDataProfiles, ConvertAngle(), gather_cfg::cout, detectorId, DumpHitmaps(), LASGeometryUpdater::EndcapUpdate(), LASPeakFinder::FindPeakIn(), LASGlobalData< T >::GetTEC2TECEntry(), getTEC2TECNominalBeamOffset(), LASGlobalData< T >::GetTECEntry(), LASGlobalData< T >::GetTIBTOBEntry(), getTIBTOBNominalBeamOffset(), TrackerGeometry::idToDet(), edm::Service< T >::isAvailable(), align_cfg::iteration, laserBeams, misalignedByRefGeometry, moduleLoop, nominalCoordinates, numberOfAcceptedProfiles, peakFinderThreshold, LASBarrelAlignmentParameterSet::Print(), LASEndcapAlignmentParameterSet::Print(), TkLasBeam::push_back(), edm::Run::put(), relativeConstraints::ring, LASPeakFinder::SetAmplitudeThreshold(), LASGeometryUpdater::SetMisalignmentFromRefGeometry(), LASCoordinateSet::SetPhi(), LASCoordinateSet::SetPhiError(), LASGeometryUpdater::SetReverseDirection(), LASGlobalData< T >::SetTEC2TECEntry(), LASGlobalData< T >::SetTECEntry(), LASGlobalData< T >::SetTIBTOBEntry(), summedHistograms, LASGlobalLoop::TEC2TECLoop(), LASGlobalLoop::TECLoop(), theAlignableTracker, theAlignRecordName, theApplyBeamKinkCorrections, theErrorRecordName, theEvents, theLasConstants, theMaskAtModules, theMaskTecModules, theSetNominalStrips, theStoreToDB, theTrackerGeometry, theUseMinuitAlgorithm, LASGlobalLoop::TIBTOBLoop(), LASGeometryUpdater::TrackerUpdate(), updateFromInputGeometry, and cond::service::PoolDBOutputService::writeOne().

468  {
469 
470 
471  std::cout << " [LaserAlignment::endRun] -- Total number of events processed: " << theEvents << std::endl;
472 
473  // for debugging only..
475 
476  // index variables for the LASGlobalLoop objects
477  int det, ring, beam, disk, pos;
478 
479  // measured positions container for the algorithms
480  LASGlobalData<LASCoordinateSet> measuredCoordinates;
481 
482  // fitted peak positions in units of strips (pair for value,error)
483  LASGlobalData<std::pair<float,float> > measuredStripPositions;
484 
485  // the peak finder, a pair (pos/posErr in units of strips) for its results, and the success confirmation
486  LASPeakFinder peakFinder;
488  std::pair<double,double> peakFinderResults;
489  bool isGoodFit;
490 
491  // tracker geom. object for calculating the global beam positions
492  const TrackerGeometry& theTracker( *theTrackerGeometry );
493 
494  // fill LASGlobalData<LASCoordinateSet> nominalCoordinates
496 
497  // for determining the phi errors
498  // ErrorFrameTransformer errorTransformer; // later...
499 
500 
501 
502 
503 
504  // do the fits for TEC+- internal
505  det = 0; ring = 0; beam = 0; disk = 0;
506  do {
507 
508  // do the fit
509  isGoodFit = peakFinder.FindPeakIn( collectedDataProfiles.GetTECEntry( det, ring, beam, disk ), peakFinderResults,
510  summedHistograms.GetTECEntry( det, ring, beam, disk ), 0 ); // offset is 0 for TEC
511 
512  // now we have the measured positions in units of strips.
513  if( !isGoodFit ) std::cout << " [LaserAlignment::endRun] ** WARNING: Fit failed for TEC det: "
514  << det << ", ring: " << ring << ", beam: " << beam << ", disk: " << disk
515  << " (id: " << detectorId.GetTECEntry( det, ring, beam, disk ) << ")." << std::endl;
516 
517 
518 
519  // <- here we will later implement the kink corrections
520 
521  // access the tracker geometry for this module
522  const DetId theDetId( detectorId.GetTECEntry( det, ring, beam, disk ) );
523  const StripGeomDetUnit* const theStripDet = dynamic_cast<const StripGeomDetUnit*>( theTracker.idToDet( theDetId ) );
524 
525  if (theStripDet) {
526  // first, set the measured coordinates to their nominal values
527  measuredCoordinates.SetTECEntry( det, ring, beam, disk, nominalCoordinates.GetTECEntry( det, ring, beam, disk ) );
528 
529  if( isGoodFit ) { // convert strip position to global phi and replace the nominal phi value/error
530 
531  measuredStripPositions.GetTECEntry( det, ring, beam, disk ) = peakFinderResults;
532  const float positionInStrips = theSetNominalStrips ? 256. : peakFinderResults.first; // implementation of "ForceFitterToNominalStrips" config parameter
533  const GlobalPoint& globalPoint = theStripDet->surface().toGlobal( theStripDet->specificTopology().localPosition( positionInStrips ) );
534  measuredCoordinates.GetTECEntry( det, ring, beam, disk ).SetPhi( ConvertAngle( globalPoint.barePhi() ) );
535 
536  // const GlobalError& globalError = errorTransformer.transform( theStripDet->specificTopology().localError( peakFinderResults.first, pow( peakFinderResults.second, 2 ) ), theStripDet->surface() );
537  // measuredCoordinates.GetTECEntry( det, ring, beam, disk ).SetPhiError( globalError.phierr( globalPoint ) );
538  measuredCoordinates.GetTECEntry( det, ring, beam, disk ).SetPhiError( 0.00046 ); // PRELIMINARY ESTIMATE
539 
540  }
541  else { // keep nominal position (middle-of-module) but set a giant phi error so that the module can be ignored by the alignment algorithm
542  measuredStripPositions.GetTECEntry( det, ring, beam, disk ) = std::pair<float,float>( 256., 1000. );
543  const GlobalPoint& globalPoint = theStripDet->surface().toGlobal( theStripDet->specificTopology().localPosition( 256. ) );
544  measuredCoordinates.GetTECEntry( det, ring, beam, disk ).SetPhi( ConvertAngle( globalPoint.barePhi() ) );
545  measuredCoordinates.GetTECEntry( det, ring, beam, disk ).SetPhiError( 1000. );
546  }
547  }
548 
549  } while( moduleLoop.TECLoop( det, ring, beam, disk ) );
550 
551 
552 
553 
554  // do the fits for TIB/TOB
555  det = 2; beam = 0; pos = 0;
556  do {
557 
558  // do the fit
559  isGoodFit = peakFinder.FindPeakIn( collectedDataProfiles.GetTIBTOBEntry( det, beam, pos ), peakFinderResults,
560  summedHistograms.GetTIBTOBEntry( det, beam, pos ), getTIBTOBNominalBeamOffset( det, beam, pos ) );
561 
562  // now we have the measured positions in units of strips.
563  if( !isGoodFit ) std::cout << " [LaserAlignment::endJob] ** WARNING: Fit failed for TIB/TOB det: "
564  << det << ", beam: " << beam << ", pos: " << pos
565  << " (id: " << detectorId.GetTIBTOBEntry( det, beam, pos ) << ")." << std::endl;
566 
567 
568  // <- here we will later implement the kink corrections
569 
570  // access the tracker geometry for this module
571  const DetId theDetId( detectorId.GetTIBTOBEntry( det, beam, pos ) );
572  const StripGeomDetUnit* const theStripDet = dynamic_cast<const StripGeomDetUnit*>( theTracker.idToDet( theDetId ) );
573 
574  if (theStripDet) {
575  // first, set the measured coordinates to their nominal values
576  measuredCoordinates.SetTIBTOBEntry( det, beam, pos, nominalCoordinates.GetTIBTOBEntry( det, beam, pos ) );
577 
578  if( isGoodFit ) { // convert strip position to global phi and replace the nominal phi value/error
579  measuredStripPositions.GetTIBTOBEntry( det, beam, pos ) = peakFinderResults;
580  const float positionInStrips = theSetNominalStrips ? 256. + getTIBTOBNominalBeamOffset( det, beam, pos ) : peakFinderResults.first; // implementation of "ForceFitterToNominalStrips" config parameter
581  const GlobalPoint& globalPoint = theStripDet->surface().toGlobal( theStripDet->specificTopology().localPosition( positionInStrips ) );
582  measuredCoordinates.GetTIBTOBEntry( det, beam, pos ).SetPhi( ConvertAngle( globalPoint.barePhi() ) );
583  measuredCoordinates.GetTIBTOBEntry( det, beam, pos ).SetPhiError( 0.00028 ); // PRELIMINARY ESTIMATE
584  }
585  else { // keep nominal position but set a giant phi error so that the module can be ignored by the alignment algorithm
586  measuredStripPositions.GetTIBTOBEntry( det, beam, pos ) = std::pair<float,float>( 256. + getTIBTOBNominalBeamOffset( det, beam, pos ), 1000. );
587  const GlobalPoint& globalPoint = theStripDet->surface().toGlobal( theStripDet->specificTopology().localPosition( 256. + getTIBTOBNominalBeamOffset( det, beam, pos ) ) );
588  measuredCoordinates.GetTIBTOBEntry( det, beam, pos ).SetPhi( ConvertAngle( globalPoint.barePhi() ) );
589  measuredCoordinates.GetTIBTOBEntry( det, beam, pos ).SetPhiError( 1000. );
590  }
591  }
592 
593  } while( moduleLoop.TIBTOBLoop( det, beam, pos ) );
594 
595 
596 
597 
598  // do the fits for TEC AT
599  det = 0; beam = 0; disk = 0;
600  do {
601 
602  // do the fit
603  isGoodFit = peakFinder.FindPeakIn( collectedDataProfiles.GetTEC2TECEntry( det, beam, disk ), peakFinderResults,
604  summedHistograms.GetTEC2TECEntry( det, beam, disk ), getTEC2TECNominalBeamOffset( det, beam, disk ) );
605  // now we have the positions in units of strips.
606  if( !isGoodFit ) std::cout << " [LaserAlignment::endRun] ** WARNING: Fit failed for TEC2TEC det: "
607  << det << ", beam: " << beam << ", disk: " << disk
608  << " (id: " << detectorId.GetTEC2TECEntry( det, beam, disk ) << ")." << std::endl;
609 
610 
611  // <- here we will later implement the kink corrections
612 
613  // access the tracker geometry for this module
614  const DetId theDetId( detectorId.GetTEC2TECEntry( det, beam, disk ) );
615  const StripGeomDetUnit* const theStripDet = dynamic_cast<const StripGeomDetUnit*>( theTracker.idToDet( theDetId ) );
616 
617  if (theStripDet) {
618  // first, set the measured coordinates to their nominal values
619  measuredCoordinates.SetTEC2TECEntry( det, beam, disk, nominalCoordinates.GetTEC2TECEntry( det, beam, disk ) );
620 
621  if( isGoodFit ) { // convert strip position to global phi and replace the nominal phi value/error
622  measuredStripPositions.GetTEC2TECEntry( det, beam, disk ) = peakFinderResults;
623  const float positionInStrips = theSetNominalStrips ? 256. + getTEC2TECNominalBeamOffset( det, beam, disk ) : peakFinderResults.first; // implementation of "ForceFitterToNominalStrips" config parameter
624  const GlobalPoint& globalPoint = theStripDet->surface().toGlobal( theStripDet->specificTopology().localPosition( positionInStrips ) );
625  measuredCoordinates.GetTEC2TECEntry( det, beam, disk ).SetPhi( ConvertAngle( globalPoint.barePhi() ) );
626  measuredCoordinates.GetTEC2TECEntry( det, beam, disk ).SetPhiError( 0.00047 ); // PRELIMINARY ESTIMATE
627  }
628  else { // keep nominal position but set a giant phi error so that the module can be ignored by the alignment algorithm
629  measuredStripPositions.GetTEC2TECEntry( det, beam, disk ) = std::pair<float,float>( 256. + getTEC2TECNominalBeamOffset( det, beam, disk ), 1000. );
630  const GlobalPoint& globalPoint = theStripDet->surface().toGlobal( theStripDet->specificTopology().localPosition( 256. + getTEC2TECNominalBeamOffset( det, beam, disk ) ) );
631  measuredCoordinates.GetTEC2TECEntry( det, beam, disk ).SetPhi( ConvertAngle( globalPoint.barePhi() ) );
632  measuredCoordinates.GetTEC2TECEntry( det, beam, disk ).SetPhiError( 1000. );
633  }
634  }
635 
636  } while( moduleLoop.TEC2TECLoop( det, beam, disk ) );
637 
638 
639 
640 
641 
642 
643 
644  // see what we got (for debugging)
645  // DumpStripFileSet( measuredStripPositions );
646  // DumpPosFileSet( measuredCoordinates );
647 
648 
649 
650 
651 
652 
653  // CALCULATE PARAMETERS AND UPDATE DB OBJECT
654  // for beam kink corrections, reconstructing the geometry and updating the db object
656 
657  // apply all beam corrections
658  if( theApplyBeamKinkCorrections ) geometryUpdater.ApplyBeamKinkCorrections( measuredCoordinates );
659 
660  // if we start with input geometry instead of IDEAL,
661  // reverse the adjustments in the AlignableTracker object
662  if( updateFromInputGeometry ) geometryUpdater.SetReverseDirection( true );
663 
664  // if we have "virtual" misalignment which is introduced via the reference geometry,
665  // tell the LASGeometryUpdater to reverse x & y adjustments
666  if( misalignedByRefGeometry ) geometryUpdater.SetMisalignmentFromRefGeometry( true );
667 
668  // run the endcap algorithm
669  LASEndcapAlgorithm endcapAlgorithm;
670  LASEndcapAlignmentParameterSet endcapParameters;
671 
672 
673  // this basically sets all the endcap modules to be masked
674  // to their nominal positions (since endcapParameters is overall zero)
675  if( theMaskTecModules.size() ) {
676  ApplyEndcapMaskingCorrections( measuredCoordinates, nominalCoordinates, endcapParameters );
677  }
678 
679  // run the algorithm
680  endcapParameters = endcapAlgorithm.CalculateParameters( measuredCoordinates, nominalCoordinates );
681 
682  //
683  // loop to mask out events
684  // DESCRIPTION:
685  //
686 
687  // do this only if there are modules to be masked..
688  if( theMaskTecModules.size() ) {
689 
690  const unsigned int nIterations = 30;
691  for( unsigned int iteration = 0; iteration < nIterations; ++iteration ) {
692 
693  // set the endcap modules to be masked to their positions
694  // according to the reconstructed parameters
695  ApplyEndcapMaskingCorrections( measuredCoordinates, nominalCoordinates, endcapParameters );
696 
697  // modifications applied, so re-run the algorithm
698  endcapParameters = endcapAlgorithm.CalculateParameters( measuredCoordinates, nominalCoordinates );
699 
700  }
701 
702  }
703 
704  // these are now final, so:
705  endcapParameters.Print();
706 
707 
708 
709 
710  // do a pre-alignment of the endcaps (TEC2TEC only)
711  // so that the alignment tube algorithms finds orderly disks
712  geometryUpdater.EndcapUpdate( endcapParameters, measuredCoordinates );
713 
714 
715  // the alignment tube algorithms, choose from config
716  LASBarrelAlignmentParameterSet alignmentTubeParameters;
717  // the MINUIT-BASED alignment tube algorithm
718  LASBarrelAlgorithm barrelAlgorithm;
719  // the ANALYTICAL alignment tube algorithm
720  LASAlignmentTubeAlgorithm alignmentTubeAlgorithm;
721 
722 
723  // this basically sets all the modules to be masked
724  // to their nominal positions (since alignmentTubeParameters is overall zero)
725  if( theMaskAtModules.size() ) {
726  ApplyATMaskingCorrections( measuredCoordinates, nominalCoordinates, alignmentTubeParameters );
727  }
728 
729  if( theUseMinuitAlgorithm ) {
730  // run the MINUIT-BASED alignment tube algorithm
731  alignmentTubeParameters = barrelAlgorithm.CalculateParameters( measuredCoordinates, nominalCoordinates );
732  }
733  else {
734  // the ANALYTICAL alignment tube algorithm
735  alignmentTubeParameters = alignmentTubeAlgorithm.CalculateParameters( measuredCoordinates, nominalCoordinates );
736  }
737 
738 
739 
740  //
741  // loop to mask out events
742  // DESCRIPTION:
743  //
744 
745  // do this only if there are modules to be masked..
746  if( theMaskAtModules.size() ) {
747 
748  const unsigned int nIterations = 30;
749  for( unsigned int iteration = 0; iteration < nIterations; ++iteration ) {
750 
751  // set the AT modules to be masked to their positions
752  // according to the reconstructed parameters
753  ApplyATMaskingCorrections( measuredCoordinates, nominalCoordinates, alignmentTubeParameters );
754 
755  // modifications applied, so re-run the algorithm
756  if( theUseMinuitAlgorithm ) {
757  alignmentTubeParameters = barrelAlgorithm.CalculateParameters( measuredCoordinates, nominalCoordinates );
758  }
759  else {
760  alignmentTubeParameters = alignmentTubeAlgorithm.CalculateParameters( measuredCoordinates, nominalCoordinates );
761  }
762 
763  }
764 
765  }
766 
767 
768  // these are now final, so:
769  alignmentTubeParameters.Print();
770 
771 
772  // combine the results and update the db object
773  geometryUpdater.TrackerUpdate( endcapParameters, alignmentTubeParameters, *theAlignableTracker );
774 
775 
776 
777 
778 
779 
780 
785 
786 
787  // the collection container
788  std::auto_ptr<TkLasBeamCollection> laserBeams( new TkLasBeamCollection );
789 
790 
791  // first for the endcap internal beams
792  for( det = 0; det < 2; ++det ) {
793  for( ring = 0; ring < 2; ++ring ) {
794  for( beam = 0; beam < 8; ++beam ) {
795 
796  // the beam and its identifier (see TkLasTrackBasedInterface TWiki)
797  TkLasBeam currentBeam( 100 * det + 10 * beam + ring );
798 
799  // order the hits in the beam by increasing z
800  const int firstDisk = det==0 ? 0 : 8;
801  const int lastDisk = det==0 ? 8 : 0;
802 
803  // count upwards or downwards
804  for( disk = firstDisk; det==0 ? disk <= lastDisk : disk >= lastDisk; det==0 ? ++disk : --disk ) {
805 
806  // detId for the SiStripLaserRecHit2D
807  const SiStripDetId theDetId( detectorId.GetTECEntry( det, ring, beam, disk ) );
808 
809  // need this to calculate the localPosition and its error
810  const StripGeomDetUnit* const theStripDet = dynamic_cast<const StripGeomDetUnit*>( theTracker.idToDet( theDetId ) );
811 
812  // the hit container
813  const SiStripLaserRecHit2D currentHit(
814  theStripDet->specificTopology().localPosition( measuredStripPositions.GetTECEntry( det, ring, beam, disk ).first ),
815  theStripDet->specificTopology().localError( measuredStripPositions.GetTECEntry( det, ring, beam, disk ).first, measuredStripPositions.GetTECEntry( det, ring, beam, disk ).second ),
816  theDetId
817  );
818 
819  currentBeam.push_back( currentHit );
820 
821  }
822 
823  laserBeams->push_back( currentBeam );
824 
825  }
826  }
827  }
828 
829 
830 
831  // then, following the convention in TkLasTrackBasedInterface TWiki, the alignment tube beams;
832  // they comprise hits in TIBTOB & TEC2TEC
833 
834  for( beam = 0; beam < 8; ++beam ) {
835 
836  // the beam and its identifier (see TkLasTrackBasedInterface TWiki)
837  TkLasBeam currentBeam( 100 * 2 /*beamGroup=AT=2*/ + 10 * beam + 0 /*ring=0*/);
838 
839 
840  // first: tec-
841  det = 1;
842  for( disk = 4; disk >= 0; --disk ) {
843 
844  // detId for the SiStripLaserRecHit2D
845  const SiStripDetId theDetId( detectorId.GetTEC2TECEntry( det, beam, disk ) );
846 
847  // need this to calculate the localPosition and its error
848  const StripGeomDetUnit* const theStripDet = dynamic_cast<const StripGeomDetUnit*>( theTracker.idToDet( theDetId ) );
849 
850  // the hit container
851  const SiStripLaserRecHit2D currentHit(
852  theStripDet->specificTopology().localPosition( measuredStripPositions.GetTEC2TECEntry( det, beam, disk ).first ),
853  theStripDet->specificTopology().localError( measuredStripPositions.GetTEC2TECEntry( det, beam, disk ).first, measuredStripPositions.GetTEC2TECEntry( det, beam, disk ).second ),
854  theDetId
855  );
856 
857  currentBeam.push_back( currentHit );
858 
859  }
860 
861 
862  // now TIB and TOB in one go
863  for( det = 2; det < 4; ++det ) {
864  for( pos = 5; pos >= 0; --pos ) { // stupidly, pos is defined from +z to -z in LASGlobalLoop
865 
866  // detId for the SiStripLaserRecHit2D
867  const SiStripDetId theDetId( detectorId.GetTIBTOBEntry( det, beam, pos ) );
868 
869  // need this to calculate the localPosition and its error
870  const StripGeomDetUnit* const theStripDet = dynamic_cast<const StripGeomDetUnit*>( theTracker.idToDet( theDetId ) );
871 
872  // the hit container
873  const SiStripLaserRecHit2D currentHit(
874  theStripDet->specificTopology().localPosition( measuredStripPositions.GetTIBTOBEntry( det, beam, pos ).first ),
875  theStripDet->specificTopology().localError( measuredStripPositions.GetTIBTOBEntry( det, beam, pos ).first, measuredStripPositions.GetTIBTOBEntry( det, beam, pos ).second ),
876  theDetId
877  );
878 
879  currentBeam.push_back( currentHit );
880 
881  }
882  }
883 
884 
885  // then: tec+
886  det = 0;
887  for( disk = 0; disk < 5; ++disk ) {
888 
889  // detId for the SiStripLaserRecHit2D
890  const SiStripDetId theDetId( detectorId.GetTEC2TECEntry( det, beam, disk ) );
891 
892  // need this to calculate the localPosition and its error
893  const StripGeomDetUnit* const theStripDet = dynamic_cast<const StripGeomDetUnit*>( theTracker.idToDet( theDetId ) );
894 
895  // the hit container
896  const SiStripLaserRecHit2D currentHit(
897  theStripDet->specificTopology().localPosition( measuredStripPositions.GetTEC2TECEntry( det, beam, disk ).first ),
898  theStripDet->specificTopology().localError( measuredStripPositions.GetTEC2TECEntry( det, beam, disk ).first, measuredStripPositions.GetTEC2TECEntry( det, beam, disk ).second ),
899  theDetId
900  );
901 
902  currentBeam.push_back( currentHit );
903 
904  }
905 
906 
907 
908  // save this beam to the beamCollection
909  laserBeams->push_back( currentBeam );
910 
911  } // (close beam loop)
912 
913 
914  // now attach the collection to the run
915  theRun.put( laserBeams, "tkLaserBeams" );
916 
917 
918 
919 
920 
921  // store the estimated alignment parameters into the DB
922  // first get them
923  Alignments* alignments = theAlignableTracker->alignments();
925 
926  if ( theStoreToDB ) {
927 
928  std::cout << " [LaserAlignment::endRun] -- Storing the calculated alignment parameters to the DataBase:" << std::endl;
929 
930  // Call service
932  if( !poolDbService.isAvailable() ) // Die if not available
933  throw cms::Exception( "NotAvailable" ) << "PoolDBOutputService not available";
934 
935  // Store
936 
937  // if ( poolDbService->isNewTagRequest(theAlignRecordName) ) {
938  // poolDbService->createNewIOV<Alignments>( alignments, poolDbService->currentTime(), poolDbService->endOfTime(), theAlignRecordName );
939  // }
940  // else {
941  // poolDbService->appendSinceTime<Alignments>( alignments, poolDbService->currentTime(), theAlignRecordName );
942  // }
943  poolDbService->writeOne<Alignments>( alignments, poolDbService->beginOfTime(), theAlignRecordName );
944 
945  // if ( poolDbService->isNewTagRequest(theErrorRecordName) ) {
946  // poolDbService->createNewIOV<AlignmentErrors>( alignmentErrors, poolDbService->currentTime(), poolDbService->endOfTime(), theErrorRecordName );
947  // }
948  // else {
949  // poolDbService->appendSinceTime<AlignmentErrors>( alignmentErrors, poolDbService->currentTime(), theErrorRecordName );
950  // }
951  poolDbService->writeOne<AlignmentErrors>( alignmentErrors, poolDbService->beginOfTime(), theErrorRecordName );
952 
953  std::cout << " [LaserAlignment::endRun] -- Storing done." << std::endl;
954 
955  }
956 
957 }
void SetTEC2TECEntry(int subdetector, int beam, int tecDisk, T)
void SetPhi(double aPhi)
void SetPhiError(double aPhiError)
void ApplyEndcapMaskingCorrections(LASGlobalData< LASCoordinateSet > &, LASGlobalData< LASCoordinateSet > &, LASEndcapAlignmentParameterSet &)
apply endcap correction to masked modules in TEC
bool misalignedByRefGeometry
config switch
std::string theAlignRecordName
double getTIBTOBNominalBeamOffset(unsigned int, unsigned int, unsigned int)
returns the nominal beam position (strips) in TOB for the profileJudge
edm::ESHandle< TrackerGeometry > theTrackerGeometry
double peakFinderThreshold
config parameter
void DumpHitmaps(LASGlobalData< int > &)
for debugging only, will disappear
LASGlobalData< int > numberOfAcceptedProfiles
std::vector< unsigned int > theMaskTecModules
config parameters
bool theUseMinuitAlgorithm
config switch
Handle< TkLasBeamCollection > laserBeams
T barePhi() const
Definition: PV3DBase.h:68
LASGlobalData< TH1D * > summedHistograms
bool FindPeakIn(const LASModuleProfile &, std::pair< double, double > &, TH1D *, const double)
tuple iteration
Definition: align_cfg.py:5
double ConvertAngle(double)
convert an angle in the [-pi,pi] range to the [0,2*pi] range
LASBarrelAlignmentParameterSet CalculateParameters(LASGlobalData< LASCoordinateSet > &, LASGlobalData< LASCoordinateSet > &)
bool TEC2TECLoop(int &, int &, int &) const
bool isAvailable() const
Definition: Service.h:46
AlignmentErrors * alignmentErrors() const
Return alignment errors, sorted by DetId.
void writeOne(T *payload, Time_t time, const std::string &recordName, bool withlogging=false)
void SetAmplitudeThreshold(double)
bool theApplyBeamKinkCorrections
config switch
T & GetTIBTOBEntry(int subdetector, int beam, int tibTobPosition)
bool first
Definition: L1TdeRCT.cc:75
void SetTIBTOBEntry(int subdetector, int beam, int tibTobPosition, T)
void CalculateNominalCoordinates(void)
fills a LASGlobalData&lt;LASCoordinateSet&gt; with nominal module positions
LASEndcapAlignmentParameterSet CalculateParameters(LASGlobalData< LASCoordinateSet > &, LASGlobalData< LASCoordinateSet > &)
std::string theErrorRecordName
bool theStoreToDB
config switch
Detector identifier class for the strip tracker.
Definition: SiStripDetId.h:17
Definition: DetId.h:18
T & GetTEC2TECEntry(int subdetector, int beam, int tecDisk)
LASGlobalData< LASCoordinateSet > nominalCoordinates
AlignableTracker * theAlignableTracker
int theEvents
counter for the total number of events processed
LASBarrelAlignmentParameterSet CalculateParameters(LASGlobalData< LASCoordinateSet > &, LASGlobalData< LASCoordinateSet > &)
LASConstants theLasConstants
double getTEC2TECNominalBeamOffset(unsigned int, unsigned int, unsigned int)
returns the nominal beam position (strips) in TEC (AT) for the profileJudge
T & GetTECEntry(int subdetector, int tecRing, int beam, int tecDisk)
Definition: LASGlobalData.h:91
std::vector< unsigned int > theMaskAtModules
void ApplyATMaskingCorrections(LASGlobalData< LASCoordinateSet > &, LASGlobalData< LASCoordinateSet > &, LASBarrelAlignmentParameterSet &)
same for alignment tube modules
LASGlobalData< LASModuleProfile > collectedDataProfiles
LASGlobalData< unsigned int > detectorId
bool TECLoop(int &, int &, int &, int &) const
bool TIBTOBLoop(int &, int &, int &) const
tuple cout
Definition: gather_cfg.py:121
void put(std::auto_ptr< PROD > product)
Put a new product.
Definition: Run.h:107
std::vector< TkLasBeam > TkLasBeamCollection
Alignments * alignments() const
Return alignments, sorted by DetId.
void SetTECEntry(int subdetector, int tecRing, int beam, int tecDisk, T)
LASGlobalLoop moduleLoop
bool updateFromInputGeometry
config switch
bool theSetNominalStrips
config switch
void LaserAlignment::fillDataProfiles ( edm::Event const &  theEvent,
edm::EventSetup const &  theSetup 
)
private

fill profiles from SiStrip(Raw)Digi container

fills the module profiles (LASGlobalLoop<LASModuleProfile> currentDataProfiles) from the event digi containers, distinguishing between SiStripDigi or SiStripRawDigi.

Definition at line 977 of file LaserAlignment.cc.

References SiStripRawDigi::adc(), SiStripDigi::adc(), EcalCondDBWriter_cfi::beam, edm::DetSetVector< T >::begin(), currentDataProfiles, detectorId, dtTPAnalyzer_cfg::digiLabel, EcnaPython_AdcPeg12_S1_10_R170298_1_0_150_Dee0::digiProducer, edm::DetSetVector< T >::end(), edm::hlt::Exception, edm::Event::getByLabel(), LASGlobalData< T >::GetTEC2TECEntry(), LASGlobalData< T >::GetTECEntry(), LASGlobalData< T >::GetTIBTOBEntry(), moduleLoop, relativeConstraints::ring, LASModuleProfile::SetAllValuesTo(), LASModuleProfile::SetValue(), AlCaHLTBitMon_QueryRunRegistry::string, SiStripDigi::strip(), LASGlobalLoop::TEC2TECLoop(), LASGlobalLoop::TECLoop(), theDigiProducersList, and LASGlobalLoop::TIBTOBLoop().

Referenced by produce().

977  {
978 
979  // two handles for the two different kinds of digis
982 
983  bool isRawDigi = false;
984 
985  // indices for the LASGlobalLoop object
986  int det = 0, ring = 0, beam = 0, disk = 0, pos = 0;
987 
988  // query config set and loop over all PSets in the VPSet
989  for ( std::vector<edm::ParameterSet>::iterator itDigiProducersList = theDigiProducersList.begin(); itDigiProducersList != theDigiProducersList.end(); ++itDigiProducersList ) {
990 
991  std::string digiProducer = itDigiProducersList->getParameter<std::string>( "DigiProducer" );
992  std::string digiLabel = itDigiProducersList->getParameter<std::string>( "DigiLabel" );
993  std::string digiType = itDigiProducersList->getParameter<std::string>( "DigiType" );
994 
995  // now branch according to digi type (raw or processed);
996  // first we go for raw digis => SiStripRawDigi
997  if( digiType == "Raw" ) {
998  theEvent.getByLabel( digiProducer, digiLabel, theStripRawDigis );
999  isRawDigi = true;
1000  }
1001  else if( digiType == "Processed" ) {
1002  theEvent.getByLabel( digiProducer, digiLabel, theStripDigis );
1003  isRawDigi = false;
1004  }
1005  else {
1006  throw cms::Exception( " [LaserAlignment::fillDataProfiles]") << " ** ERROR: Invalid digi type: \"" << digiType << "\" specified in configuration." << std::endl;
1007  }
1008 
1009 
1010 
1011  // loop TEC internal modules
1012  det = 0; ring = 0; beam = 0; disk = 0;
1013  do {
1014 
1015  // first clear the profile
1017 
1018  // retrieve the raw id of that module
1019  const int detRawId = detectorId.GetTECEntry( det, ring, beam, disk );
1020 
1021  if( isRawDigi ) { // we have raw SiStripRawDigis
1022 
1023  // search the digis for the raw id
1024  edm::DetSetVector<SiStripRawDigi>::const_iterator detSetIter = theStripRawDigis->find( detRawId );
1025  if( detSetIter == theStripRawDigis->end() ) {
1026  throw cms::Exception( "[Laser Alignment::fillDataProfiles]" ) << " ** ERROR: No raw DetSet found for det: " << detRawId << "." << std::endl;
1027  }
1028 
1029  // fill the digis to the profiles
1030  edm::DetSet<SiStripRawDigi>::const_iterator digiRangeIterator = detSetIter->data.begin(); // for the loop
1031  edm::DetSet<SiStripRawDigi>::const_iterator digiRangeStart = digiRangeIterator; // save starting positions
1032 
1033  // loop all digis
1034  for (; digiRangeIterator != detSetIter->data.end(); ++digiRangeIterator ) {
1035  const SiStripRawDigi& digi = *digiRangeIterator;
1036  const int channel = distance( digiRangeStart, digiRangeIterator );
1037  if ( channel >= 0 && channel < 512 ) currentDataProfiles.GetTECEntry( det, ring, beam, disk ).SetValue( channel, digi.adc() );
1038  else throw cms::Exception( "[Laser Alignment::fillDataProfiles]" ) << " ** ERROR: raw digi channel: " << channel << " out of range for det: " << detRawId << "." << std::endl;
1039  }
1040 
1041  }
1042 
1043  else { // we have zero suppressed SiStripDigis
1044 
1045  // search the digis for the raw id
1046  edm::DetSetVector<SiStripDigi>::const_iterator detSetIter = theStripDigis->find( detRawId );
1047 
1048  // processed DetSets may be missing, just skip
1049  if( detSetIter == theStripDigis->end() ) continue;
1050 
1051  // fill the digis to the profiles
1052  edm::DetSet<SiStripDigi>::const_iterator digiRangeIterator = detSetIter->data.begin(); // for the loop
1053 
1054  for(; digiRangeIterator != detSetIter->data.end(); ++digiRangeIterator ) {
1055  const SiStripDigi& digi = *digiRangeIterator;
1056  if ( digi.strip() < 512 ) currentDataProfiles.GetTECEntry( det, ring, beam, disk ).SetValue( digi.strip(), digi.adc() );
1057  else throw cms::Exception( "[Laser Alignment::fillDataProfiles]" ) << " ** ERROR: digi strip: " << digi.strip() << " out of range for det: " << detRawId << "." << std::endl;
1058  }
1059 
1060  }
1061 
1062 
1063  } while( moduleLoop.TECLoop( det, ring, beam, disk ) );
1064 
1065 
1066 
1067 
1068 
1069  // loop TIBTOB modules
1070  det = 2; beam = 0; pos = 0;
1071  do {
1072 
1073  // first clear the profile
1075 
1076  // retrieve the raw id of that module
1077  const int detRawId = detectorId.GetTIBTOBEntry( det, beam, pos );
1078 
1079  if( isRawDigi ) { // we have raw SiStripRawDigis
1080 
1081  // search the digis for the raw id
1082  edm::DetSetVector<SiStripRawDigi>::const_iterator detSetIter = theStripRawDigis->find( detRawId );
1083  if( detSetIter == theStripRawDigis->end() ) {
1084  throw cms::Exception( "[Laser Alignment::fillDataProfiles]" ) << " ** ERROR: No raw DetSet found for det: " << detRawId << "." << std::endl;
1085  }
1086 
1087  // fill the digis to the profiles
1088  edm::DetSet<SiStripRawDigi>::const_iterator digiRangeIterator = detSetIter->data.begin(); // for the loop
1089  edm::DetSet<SiStripRawDigi>::const_iterator digiRangeStart = digiRangeIterator; // save starting positions
1090 
1091  // loop all digis
1092  for (; digiRangeIterator != detSetIter->data.end(); ++digiRangeIterator ) {
1093  const SiStripRawDigi& digi = *digiRangeIterator;
1094  const int channel = distance( digiRangeStart, digiRangeIterator );
1095  if ( channel >= 0 && channel < 512 ) currentDataProfiles.GetTIBTOBEntry( det, beam, pos ).SetValue( channel, digi.adc() );
1096  else throw cms::Exception( "[Laser Alignment::fillDataProfiles]" ) << " ** ERROR: raw digi channel: " << channel << " out of range for det: " << detRawId << "." << std::endl;
1097  }
1098 
1099  }
1100 
1101  else { // we have zero suppressed SiStripDigis
1102 
1103  // search the digis for the raw id
1104  edm::DetSetVector<SiStripDigi>::const_iterator detSetIter = theStripDigis->find( detRawId );
1105 
1106  // processed DetSets may be missing, just skip
1107  if( detSetIter == theStripDigis->end() ) continue;
1108 
1109  // fill the digis to the profiles
1110  edm::DetSet<SiStripDigi>::const_iterator digiRangeIterator = detSetIter->data.begin(); // for the loop
1111 
1112  for(; digiRangeIterator != detSetIter->data.end(); ++digiRangeIterator ) {
1113  const SiStripDigi& digi = *digiRangeIterator;
1114  if ( digi.strip() < 512 ) currentDataProfiles.GetTIBTOBEntry( det, beam, pos ).SetValue( digi.strip(), digi.adc() );
1115  else throw cms::Exception( "[Laser Alignment::fillDataProfiles]" ) << " ** ERROR: digi strip: " << digi.strip() << " out of range for det: " << detRawId << "." << std::endl;
1116  }
1117 
1118  }
1119 
1120  } while( moduleLoop.TIBTOBLoop( det, beam, pos ) );
1121 
1122 
1123 
1124  // loop TEC AT modules
1125  det = 0; beam = 0; disk = 0;
1126  do {
1127 
1128  // first clear the profile
1130 
1131  // retrieve the raw id of that module
1132  const int detRawId = detectorId.GetTEC2TECEntry( det, beam, disk );
1133 
1134  if( isRawDigi ) { // we have raw SiStripRawDigis
1135 
1136  // search the digis for the raw id
1137  edm::DetSetVector<SiStripRawDigi>::const_iterator detSetIter = theStripRawDigis->find( detRawId );
1138  if( detSetIter == theStripRawDigis->end() ) {
1139  throw cms::Exception( "[Laser Alignment::fillDataProfiles]" ) << " ** ERROR: No raw DetSet found for det: " << detRawId << "." << std::endl;
1140  }
1141 
1142  // fill the digis to the profiles
1143  edm::DetSet<SiStripRawDigi>::const_iterator digiRangeIterator = detSetIter->data.begin(); // for the loop
1144  edm::DetSet<SiStripRawDigi>::const_iterator digiRangeStart = digiRangeIterator; // save starting positions
1145 
1146  // loop all digis
1147  for (; digiRangeIterator != detSetIter->data.end(); ++digiRangeIterator ) {
1148  const SiStripRawDigi& digi = *digiRangeIterator;
1149  const int channel = distance( digiRangeStart, digiRangeIterator );
1150  if ( channel >= 0 && channel < 512 ) currentDataProfiles.GetTEC2TECEntry( det, beam, disk ).SetValue( channel, digi.adc() );
1151  else throw cms::Exception( "[Laser Alignment::fillDataProfiles]" ) << " ** ERROR: raw digi channel: " << channel << " out of range for det: " << detRawId << "." << std::endl;
1152  }
1153 
1154  }
1155 
1156  else { // we have zero suppressed SiStripDigis
1157 
1158  // search the digis for the raw id
1159  edm::DetSetVector<SiStripDigi>::const_iterator detSetIter = theStripDigis->find( detRawId );
1160 
1161  // processed DetSets may be missing, just skip
1162  if( detSetIter == theStripDigis->end() ) continue;
1163 
1164  // fill the digis to the profiles
1165  edm::DetSet<SiStripDigi>::const_iterator digiRangeIterator = detSetIter->data.begin(); // for the loop
1166 
1167  for(; digiRangeIterator != detSetIter->data.end(); ++digiRangeIterator ) {
1168  const SiStripDigi& digi = *digiRangeIterator;
1169  if ( digi.strip() < 512 ) currentDataProfiles.GetTEC2TECEntry( det, beam, disk ).SetValue( digi.strip(), digi.adc() );
1170  else throw cms::Exception( "[Laser Alignment::fillDataProfiles]" ) << " ** ERROR: digi strip: " << digi.strip() << " out of range for det: " << detRawId << "." << std::endl;
1171  }
1172 
1173  }
1174 
1175  } while( moduleLoop.TEC2TECLoop( det, beam, disk ) );
1176 
1177  } // theDigiProducersList loop
1178 
1179 }
const uint16_t & adc() const
void SetAllValuesTo(const double &)
LASGlobalData< LASModuleProfile > currentDataProfiles
data profiles for the current event
std::vector< edm::ParameterSet > theDigiProducersList
const uint16_t & strip() const
Definition: SiStripDigi.h:40
bool TEC2TECLoop(int &, int &, int &) const
T & GetTIBTOBEntry(int subdetector, int beam, int tibTobPosition)
A Digi for the silicon strip detector, containing both strip and adc information, and suitable for st...
Definition: SiStripDigi.h:12
iterator end()
Return the off-the-end iterator.
Definition: DetSetVector.h:363
void SetValue(unsigned int theStripNumber, const double &theValue)
T & GetTEC2TECEntry(int subdetector, int beam, int tecDisk)
T & GetTECEntry(int subdetector, int tecRing, int beam, int tecDisk)
Definition: LASGlobalData.h:91
LASGlobalData< unsigned int > detectorId
bool TECLoop(int &, int &, int &, int &) const
bool TIBTOBLoop(int &, int &, int &) const
iterator begin()
Return an iterator to the first DetSet.
Definition: DetSetVector.h:348
collection_type::const_iterator const_iterator
Definition: DetSet.h:33
collection_type::const_iterator const_iterator
Definition: DetSetVector.h:106
const uint16_t & adc() const
Definition: SiStripDigi.h:41
A Digi for the silicon strip detector, containing only adc information, and suitable for storing raw ...
LASGlobalLoop moduleLoop
void LaserAlignment::fillDetectorId ( void  )
private

fill hard coded detIds

all the detector ids for the LAS modules hard-coded

Definition at line 8 of file LaserAlignmentFillDetId.cc.

References detectorId, LASGlobalData< T >::SetTEC2TECEntry(), LASGlobalData< T >::SetTECEntry(), LASGlobalData< T >::SetTIBTOBEntry(), and tecDoubleHitDetId.

Referenced by beginJob().

8  {
9 
10  // these are the detids of the TEC modules hit
11  // by the AT as well as the TEC beams
12  tecDoubleHitDetId.push_back( 470307208 );
13  tecDoubleHitDetId.push_back( 470323592 );
14  tecDoubleHitDetId.push_back( 470339976 );
15  tecDoubleHitDetId.push_back( 470356360 );
16  tecDoubleHitDetId.push_back( 470372744 );
17  tecDoubleHitDetId.push_back( 470307976 );
18  tecDoubleHitDetId.push_back( 470324360 );
19  tecDoubleHitDetId.push_back( 470340744 );
20  tecDoubleHitDetId.push_back( 470357128 );
21  tecDoubleHitDetId.push_back( 470373512 );
22  tecDoubleHitDetId.push_back( 470308488 );
23  tecDoubleHitDetId.push_back( 470324872 );
24  tecDoubleHitDetId.push_back( 470341256 );
25  tecDoubleHitDetId.push_back( 470357640 );
26  tecDoubleHitDetId.push_back( 470374024 );
27  tecDoubleHitDetId.push_back( 470045064 );
28  tecDoubleHitDetId.push_back( 470061448 );
29  tecDoubleHitDetId.push_back( 470077832 );
30  tecDoubleHitDetId.push_back( 470094216 );
31  tecDoubleHitDetId.push_back( 470110600 );
32  tecDoubleHitDetId.push_back( 470045832 );
33  tecDoubleHitDetId.push_back( 470062216 );
34  tecDoubleHitDetId.push_back( 470078600 );
35  tecDoubleHitDetId.push_back( 470094984 );
36  tecDoubleHitDetId.push_back( 470111368 );
37  tecDoubleHitDetId.push_back( 470046344 );
38  tecDoubleHitDetId.push_back( 470062728 );
39  tecDoubleHitDetId.push_back( 470079112 );
40  tecDoubleHitDetId.push_back( 470095496 );
41  tecDoubleHitDetId.push_back( 470111880 );
42 
43  // now all the modules (above included)
44 
45  // TEC+
46  detectorId.SetTECEntry( 0, 0, 0, 0, 470307208 );
47  detectorId.SetTECEntry( 0, 0, 0, 1, 470323592 );
48  detectorId.SetTECEntry( 0, 0, 0, 2, 470339976 );
49  detectorId.SetTECEntry( 0, 0, 0, 3, 470356360 );
50  detectorId.SetTECEntry( 0, 0, 0, 4, 470372744 );
51  detectorId.SetTECEntry( 0, 0, 0, 5, 470389128 );
52  detectorId.SetTECEntry( 0, 0, 0, 6, 470405512 );
53  detectorId.SetTECEntry( 0, 0, 0, 7, 470421896 );
54  detectorId.SetTECEntry( 0, 0, 0, 8, 470438280 );
55  detectorId.SetTECEntry( 0, 0, 1, 0, 470307464 );
56  detectorId.SetTECEntry( 0, 0, 1, 1, 470323848 );
57  detectorId.SetTECEntry( 0, 0, 1, 2, 470340232 );
58  detectorId.SetTECEntry( 0, 0, 1, 3, 470356616 );
59  detectorId.SetTECEntry( 0, 0, 1, 4, 470373000 );
60  detectorId.SetTECEntry( 0, 0, 1, 5, 470389384 );
61  detectorId.SetTECEntry( 0, 0, 1, 6, 470405768 );
62  detectorId.SetTECEntry( 0, 0, 1, 7, 470422152 );
63  detectorId.SetTECEntry( 0, 0, 1, 8, 470438536 );
64  detectorId.SetTECEntry( 0, 0, 2, 0, 470307720 );
65  detectorId.SetTECEntry( 0, 0, 2, 1, 470324104 );
66  detectorId.SetTECEntry( 0, 0, 2, 2, 470340488 );
67  detectorId.SetTECEntry( 0, 0, 2, 3, 470356872 );
68  detectorId.SetTECEntry( 0, 0, 2, 4, 470373256 );
69  detectorId.SetTECEntry( 0, 0, 2, 5, 470389640 );
70  detectorId.SetTECEntry( 0, 0, 2, 6, 470406024 );
71  detectorId.SetTECEntry( 0, 0, 2, 7, 470422408 );
72  detectorId.SetTECEntry( 0, 0, 2, 8, 470438792 );
73  detectorId.SetTECEntry( 0, 0, 3, 0, 470307976 );
74  detectorId.SetTECEntry( 0, 0, 3, 1, 470324360 );
75  detectorId.SetTECEntry( 0, 0, 3, 2, 470340744 );
76  detectorId.SetTECEntry( 0, 0, 3, 3, 470357128 );
77  detectorId.SetTECEntry( 0, 0, 3, 4, 470373512 );
78  detectorId.SetTECEntry( 0, 0, 3, 5, 470389896 );
79  detectorId.SetTECEntry( 0, 0, 3, 6, 470406280 );
80  detectorId.SetTECEntry( 0, 0, 3, 7, 470422664 );
81  detectorId.SetTECEntry( 0, 0, 3, 8, 470439048 );
82  detectorId.SetTECEntry( 0, 0, 4, 0, 470308232 );
83  detectorId.SetTECEntry( 0, 0, 4, 1, 470324616 );
84  detectorId.SetTECEntry( 0, 0, 4, 2, 470341000 );
85  detectorId.SetTECEntry( 0, 0, 4, 3, 470357384 );
86  detectorId.SetTECEntry( 0, 0, 4, 4, 470373768 );
87  detectorId.SetTECEntry( 0, 0, 4, 5, 470390152 );
88  detectorId.SetTECEntry( 0, 0, 4, 6, 470406536 );
89  detectorId.SetTECEntry( 0, 0, 4, 7, 470422920 );
90  detectorId.SetTECEntry( 0, 0, 4, 8, 470439304 );
91  detectorId.SetTECEntry( 0, 0, 5, 0, 470308488 );
92  detectorId.SetTECEntry( 0, 0, 5, 1, 470324872 );
93  detectorId.SetTECEntry( 0, 0, 5, 2, 470341256 );
94  detectorId.SetTECEntry( 0, 0, 5, 3, 470357640 );
95  detectorId.SetTECEntry( 0, 0, 5, 4, 470374024 );
96  detectorId.SetTECEntry( 0, 0, 5, 5, 470390408 );
97  detectorId.SetTECEntry( 0, 0, 5, 6, 470406792 );
98  detectorId.SetTECEntry( 0, 0, 5, 7, 470423176 );
99  detectorId.SetTECEntry( 0, 0, 5, 8, 470439560 );
100  detectorId.SetTECEntry( 0, 0, 6, 0, 470308744 );
101  detectorId.SetTECEntry( 0, 0, 6, 1, 470325128 );
102  detectorId.SetTECEntry( 0, 0, 6, 2, 470341512 );
103  detectorId.SetTECEntry( 0, 0, 6, 3, 470357896 );
104  detectorId.SetTECEntry( 0, 0, 6, 4, 470374280 );
105  detectorId.SetTECEntry( 0, 0, 6, 5, 470390664 );
106  detectorId.SetTECEntry( 0, 0, 6, 6, 470407048 );
107  detectorId.SetTECEntry( 0, 0, 6, 7, 470423432 );
108  detectorId.SetTECEntry( 0, 0, 6, 8, 470439816 );
109  detectorId.SetTECEntry( 0, 0, 7, 0, 470309000 );
110  detectorId.SetTECEntry( 0, 0, 7, 1, 470325384 );
111  detectorId.SetTECEntry( 0, 0, 7, 2, 470341768 );
112  detectorId.SetTECEntry( 0, 0, 7, 3, 470358152 );
113  detectorId.SetTECEntry( 0, 0, 7, 4, 470374536 );
114  detectorId.SetTECEntry( 0, 0, 7, 5, 470390920 );
115  detectorId.SetTECEntry( 0, 0, 7, 6, 470407304 );
116  detectorId.SetTECEntry( 0, 0, 7, 7, 470423688 );
117  detectorId.SetTECEntry( 0, 0, 7, 8, 470440072 );
118  detectorId.SetTECEntry( 0, 1, 0, 0, 470307272 );
119  detectorId.SetTECEntry( 0, 1, 0, 1, 470323656 );
120  detectorId.SetTECEntry( 0, 1, 0, 2, 470340040 );
121  detectorId.SetTECEntry( 0, 1, 0, 3, 470356424 );
122  detectorId.SetTECEntry( 0, 1, 0, 4, 470372808 );
123  detectorId.SetTECEntry( 0, 1, 0, 5, 470389192 );
124  detectorId.SetTECEntry( 0, 1, 0, 6, 470405576 );
125  detectorId.SetTECEntry( 0, 1, 0, 7, 470421960 );
126  detectorId.SetTECEntry( 0, 1, 0, 8, 470438344 );
127  detectorId.SetTECEntry( 0, 1, 1, 0, 470307528 );
128  detectorId.SetTECEntry( 0, 1, 1, 1, 470323912 );
129  detectorId.SetTECEntry( 0, 1, 1, 2, 470340296 );
130  detectorId.SetTECEntry( 0, 1, 1, 3, 470356680 );
131  detectorId.SetTECEntry( 0, 1, 1, 4, 470373064 );
132  detectorId.SetTECEntry( 0, 1, 1, 5, 470389448 );
133  detectorId.SetTECEntry( 0, 1, 1, 6, 470405832 );
134  detectorId.SetTECEntry( 0, 1, 1, 7, 470422216 );
135  detectorId.SetTECEntry( 0, 1, 1, 8, 470438600 );
136  detectorId.SetTECEntry( 0, 1, 2, 0, 470307784 );
137  detectorId.SetTECEntry( 0, 1, 2, 1, 470324168 );
138  detectorId.SetTECEntry( 0, 1, 2, 2, 470340552 );
139  detectorId.SetTECEntry( 0, 1, 2, 3, 470356936 );
140  detectorId.SetTECEntry( 0, 1, 2, 4, 470373320 );
141  detectorId.SetTECEntry( 0, 1, 2, 5, 470389704 );
142  detectorId.SetTECEntry( 0, 1, 2, 6, 470406088 );
143  detectorId.SetTECEntry( 0, 1, 2, 7, 470422472 );
144  detectorId.SetTECEntry( 0, 1, 2, 8, 470438856 );
145  detectorId.SetTECEntry( 0, 1, 3, 0, 470308040 );
146  detectorId.SetTECEntry( 0, 1, 3, 1, 470324424 );
147  detectorId.SetTECEntry( 0, 1, 3, 2, 470340808 );
148  detectorId.SetTECEntry( 0, 1, 3, 3, 470357192 );
149  detectorId.SetTECEntry( 0, 1, 3, 4, 470373576 );
150  detectorId.SetTECEntry( 0, 1, 3, 5, 470389960 );
151  detectorId.SetTECEntry( 0, 1, 3, 6, 470406344 );
152  detectorId.SetTECEntry( 0, 1, 3, 7, 470422728 );
153  detectorId.SetTECEntry( 0, 1, 3, 8, 470439112 );
154  detectorId.SetTECEntry( 0, 1, 4, 0, 470308296 );
155  detectorId.SetTECEntry( 0, 1, 4, 1, 470324680 );
156  detectorId.SetTECEntry( 0, 1, 4, 2, 470341064 );
157  detectorId.SetTECEntry( 0, 1, 4, 3, 470357448 );
158  detectorId.SetTECEntry( 0, 1, 4, 4, 470373832 );
159  detectorId.SetTECEntry( 0, 1, 4, 5, 470390216 );
160  detectorId.SetTECEntry( 0, 1, 4, 6, 470406600 );
161  detectorId.SetTECEntry( 0, 1, 4, 7, 470422984 );
162  detectorId.SetTECEntry( 0, 1, 4, 8, 470439368 );
163  detectorId.SetTECEntry( 0, 1, 5, 0, 470308552 );
164  detectorId.SetTECEntry( 0, 1, 5, 1, 470324936 );
165  detectorId.SetTECEntry( 0, 1, 5, 2, 470341320 );
166  detectorId.SetTECEntry( 0, 1, 5, 3, 470357704 );
167  detectorId.SetTECEntry( 0, 1, 5, 4, 470374088 );
168  detectorId.SetTECEntry( 0, 1, 5, 5, 470390472 );
169  detectorId.SetTECEntry( 0, 1, 5, 6, 470406856 );
170  detectorId.SetTECEntry( 0, 1, 5, 7, 470423240 );
171  detectorId.SetTECEntry( 0, 1, 5, 8, 470439624 );
172  detectorId.SetTECEntry( 0, 1, 6, 0, 470308808 );
173  detectorId.SetTECEntry( 0, 1, 6, 1, 470325192 );
174  detectorId.SetTECEntry( 0, 1, 6, 2, 470341576 );
175  detectorId.SetTECEntry( 0, 1, 6, 3, 470357960 );
176  detectorId.SetTECEntry( 0, 1, 6, 4, 470374344 );
177  detectorId.SetTECEntry( 0, 1, 6, 5, 470390728 );
178  detectorId.SetTECEntry( 0, 1, 6, 6, 470407112 );
179  detectorId.SetTECEntry( 0, 1, 6, 7, 470423496 );
180  detectorId.SetTECEntry( 0, 1, 6, 8, 470439880 );
181  detectorId.SetTECEntry( 0, 1, 7, 0, 470309064 );
182  detectorId.SetTECEntry( 0, 1, 7, 1, 470325448 );
183  detectorId.SetTECEntry( 0, 1, 7, 2, 470341832 );
184  detectorId.SetTECEntry( 0, 1, 7, 3, 470358216 );
185  detectorId.SetTECEntry( 0, 1, 7, 4, 470374600 );
186  detectorId.SetTECEntry( 0, 1, 7, 5, 470390984 );
187  detectorId.SetTECEntry( 0, 1, 7, 6, 470407368 );
188  detectorId.SetTECEntry( 0, 1, 7, 7, 470423752 );
189  detectorId.SetTECEntry( 0, 1, 7, 8, 470440136 );
190 
191  // TEC-
192  detectorId.SetTECEntry( 1, 0, 0, 0, 470045064 );
193  detectorId.SetTECEntry( 1, 0, 0, 1, 470061448 );
194  detectorId.SetTECEntry( 1, 0, 0, 2, 470077832 );
195  detectorId.SetTECEntry( 1, 0, 0, 3, 470094216 );
196  detectorId.SetTECEntry( 1, 0, 0, 4, 470110600 );
197  detectorId.SetTECEntry( 1, 0, 0, 5, 470126984 );
198  detectorId.SetTECEntry( 1, 0, 0, 6, 470143368 );
199  detectorId.SetTECEntry( 1, 0, 0, 7, 470159752 );
200  detectorId.SetTECEntry( 1, 0, 0, 8, 470176136 );
201  detectorId.SetTECEntry( 1, 0, 1, 0, 470045320 );
202  detectorId.SetTECEntry( 1, 0, 1, 1, 470061704 );
203  detectorId.SetTECEntry( 1, 0, 1, 2, 470078088 );
204  detectorId.SetTECEntry( 1, 0, 1, 3, 470094472 );
205  detectorId.SetTECEntry( 1, 0, 1, 4, 470110856 );
206  detectorId.SetTECEntry( 1, 0, 1, 5, 470127240 );
207  detectorId.SetTECEntry( 1, 0, 1, 6, 470143624 );
208  detectorId.SetTECEntry( 1, 0, 1, 7, 470160008 );
209  detectorId.SetTECEntry( 1, 0, 1, 8, 470176392 );
210  detectorId.SetTECEntry( 1, 0, 2, 0, 470045576 );
211  detectorId.SetTECEntry( 1, 0, 2, 1, 470061960 );
212  detectorId.SetTECEntry( 1, 0, 2, 2, 470078344 );
213  detectorId.SetTECEntry( 1, 0, 2, 3, 470094728 );
214  detectorId.SetTECEntry( 1, 0, 2, 4, 470111112 );
215  detectorId.SetTECEntry( 1, 0, 2, 5, 470127496 );
216  detectorId.SetTECEntry( 1, 0, 2, 6, 470143880 );
217  detectorId.SetTECEntry( 1, 0, 2, 7, 470160264 );
218  detectorId.SetTECEntry( 1, 0, 2, 8, 470176648 );
219  detectorId.SetTECEntry( 1, 0, 3, 0, 470045832 );
220  detectorId.SetTECEntry( 1, 0, 3, 1, 470062216 );
221  detectorId.SetTECEntry( 1, 0, 3, 2, 470078600 );
222  detectorId.SetTECEntry( 1, 0, 3, 3, 470094984 );
223  detectorId.SetTECEntry( 1, 0, 3, 4, 470111368 );
224  detectorId.SetTECEntry( 1, 0, 3, 5, 470127752 );
225  detectorId.SetTECEntry( 1, 0, 3, 6, 470144136 );
226  detectorId.SetTECEntry( 1, 0, 3, 7, 470160520 );
227  detectorId.SetTECEntry( 1, 0, 3, 8, 470176904 );
228  detectorId.SetTECEntry( 1, 0, 4, 0, 470046088 );
229  detectorId.SetTECEntry( 1, 0, 4, 1, 470062472 );
230  detectorId.SetTECEntry( 1, 0, 4, 2, 470078856 );
231  detectorId.SetTECEntry( 1, 0, 4, 3, 470095240 );
232  detectorId.SetTECEntry( 1, 0, 4, 4, 470111624 );
233  detectorId.SetTECEntry( 1, 0, 4, 5, 470128008 );
234  detectorId.SetTECEntry( 1, 0, 4, 6, 470144392 );
235  detectorId.SetTECEntry( 1, 0, 4, 7, 470160776 );
236  detectorId.SetTECEntry( 1, 0, 4, 8, 470177160 );
237  detectorId.SetTECEntry( 1, 0, 5, 0, 470046344 );
238  detectorId.SetTECEntry( 1, 0, 5, 1, 470062728 );
239  detectorId.SetTECEntry( 1, 0, 5, 2, 470079112 );
240  detectorId.SetTECEntry( 1, 0, 5, 3, 470095496 );
241  detectorId.SetTECEntry( 1, 0, 5, 4, 470111880 );
242  detectorId.SetTECEntry( 1, 0, 5, 5, 470128264 );
243  detectorId.SetTECEntry( 1, 0, 5, 6, 470144648 );
244  detectorId.SetTECEntry( 1, 0, 5, 7, 470161032 );
245  detectorId.SetTECEntry( 1, 0, 5, 8, 470177416 );
246  detectorId.SetTECEntry( 1, 0, 6, 0, 470046600 );
247  detectorId.SetTECEntry( 1, 0, 6, 1, 470062984 );
248  detectorId.SetTECEntry( 1, 0, 6, 2, 470079368 );
249  detectorId.SetTECEntry( 1, 0, 6, 3, 470095752 );
250  detectorId.SetTECEntry( 1, 0, 6, 4, 470112136 );
251  detectorId.SetTECEntry( 1, 0, 6, 5, 470128520 );
252  detectorId.SetTECEntry( 1, 0, 6, 6, 470144904 );
253  detectorId.SetTECEntry( 1, 0, 6, 7, 470161288 );
254  detectorId.SetTECEntry( 1, 0, 6, 8, 470177672 );
255  detectorId.SetTECEntry( 1, 0, 7, 0, 470046856 );
256  detectorId.SetTECEntry( 1, 0, 7, 1, 470063240 );
257  detectorId.SetTECEntry( 1, 0, 7, 2, 470079624 );
258  detectorId.SetTECEntry( 1, 0, 7, 3, 470096008 );
259  detectorId.SetTECEntry( 1, 0, 7, 4, 470112392 );
260  detectorId.SetTECEntry( 1, 0, 7, 5, 470128776 );
261  detectorId.SetTECEntry( 1, 0, 7, 6, 470145160 );
262  detectorId.SetTECEntry( 1, 0, 7, 7, 470161544 );
263  detectorId.SetTECEntry( 1, 0, 7, 8, 470177928 );
264  detectorId.SetTECEntry( 1, 1, 0, 0, 470045128 );
265  detectorId.SetTECEntry( 1, 1, 0, 1, 470061512 );
266  detectorId.SetTECEntry( 1, 1, 0, 2, 470077896 );
267  detectorId.SetTECEntry( 1, 1, 0, 3, 470094280 );
268  detectorId.SetTECEntry( 1, 1, 0, 4, 470110664 );
269  detectorId.SetTECEntry( 1, 1, 0, 5, 470127048 );
270  detectorId.SetTECEntry( 1, 1, 0, 6, 470143432 );
271  detectorId.SetTECEntry( 1, 1, 0, 7, 470159816 );
272  detectorId.SetTECEntry( 1, 1, 0, 8, 470176200 );
273  detectorId.SetTECEntry( 1, 1, 1, 0, 470045384 );
274  detectorId.SetTECEntry( 1, 1, 1, 1, 470061768 );
275  detectorId.SetTECEntry( 1, 1, 1, 2, 470078152 );
276  detectorId.SetTECEntry( 1, 1, 1, 3, 470094536 );
277  detectorId.SetTECEntry( 1, 1, 1, 4, 470110920 );
278  detectorId.SetTECEntry( 1, 1, 1, 5, 470127304 );
279  detectorId.SetTECEntry( 1, 1, 1, 6, 470143688 );
280  detectorId.SetTECEntry( 1, 1, 1, 7, 470160072 );
281  detectorId.SetTECEntry( 1, 1, 1, 8, 470176456 );
282  detectorId.SetTECEntry( 1, 1, 2, 0, 470045640 );
283  detectorId.SetTECEntry( 1, 1, 2, 1, 470062024 );
284  detectorId.SetTECEntry( 1, 1, 2, 2, 470078408 );
285  detectorId.SetTECEntry( 1, 1, 2, 3, 470094792 );
286  detectorId.SetTECEntry( 1, 1, 2, 4, 470111176 );
287  detectorId.SetTECEntry( 1, 1, 2, 5, 470127560 );
288  detectorId.SetTECEntry( 1, 1, 2, 6, 470143944 );
289  detectorId.SetTECEntry( 1, 1, 2, 7, 470160328 );
290  detectorId.SetTECEntry( 1, 1, 2, 8, 470176712 );
291  detectorId.SetTECEntry( 1, 1, 3, 0, 470045896 );
292  detectorId.SetTECEntry( 1, 1, 3, 1, 470062280 );
293  detectorId.SetTECEntry( 1, 1, 3, 2, 470078664 );
294  detectorId.SetTECEntry( 1, 1, 3, 3, 470095048 );
295  detectorId.SetTECEntry( 1, 1, 3, 4, 470111432 );
296  detectorId.SetTECEntry( 1, 1, 3, 5, 470127816 );
297  detectorId.SetTECEntry( 1, 1, 3, 6, 470144200 );
298  detectorId.SetTECEntry( 1, 1, 3, 7, 470160584 );
299  detectorId.SetTECEntry( 1, 1, 3, 8, 470176968 );
300  detectorId.SetTECEntry( 1, 1, 4, 0, 470046152 );
301  detectorId.SetTECEntry( 1, 1, 4, 1, 470062536 );
302  detectorId.SetTECEntry( 1, 1, 4, 2, 470078920 );
303  detectorId.SetTECEntry( 1, 1, 4, 3, 470095304 );
304  detectorId.SetTECEntry( 1, 1, 4, 4, 470111688 );
305  detectorId.SetTECEntry( 1, 1, 4, 5, 470128072 );
306  detectorId.SetTECEntry( 1, 1, 4, 6, 470144456 );
307  detectorId.SetTECEntry( 1, 1, 4, 7, 470160840 );
308  detectorId.SetTECEntry( 1, 1, 4, 8, 470177224 );
309  detectorId.SetTECEntry( 1, 1, 5, 0, 470046408 );
310  detectorId.SetTECEntry( 1, 1, 5, 1, 470062792 );
311  detectorId.SetTECEntry( 1, 1, 5, 2, 470079176 );
312  detectorId.SetTECEntry( 1, 1, 5, 3, 470095560 );
313  detectorId.SetTECEntry( 1, 1, 5, 4, 470111944 );
314  detectorId.SetTECEntry( 1, 1, 5, 5, 470128328 );
315  detectorId.SetTECEntry( 1, 1, 5, 6, 470144712 );
316  detectorId.SetTECEntry( 1, 1, 5, 7, 470161096 );
317  detectorId.SetTECEntry( 1, 1, 5, 8, 470177480 );
318  detectorId.SetTECEntry( 1, 1, 6, 0, 470046664 );
319  detectorId.SetTECEntry( 1, 1, 6, 1, 470063048 );
320  detectorId.SetTECEntry( 1, 1, 6, 2, 470079432 );
321  detectorId.SetTECEntry( 1, 1, 6, 3, 470095816 );
322  detectorId.SetTECEntry( 1, 1, 6, 4, 470112200 );
323  detectorId.SetTECEntry( 1, 1, 6, 5, 470128584 );
324  detectorId.SetTECEntry( 1, 1, 6, 6, 470144968 );
325  detectorId.SetTECEntry( 1, 1, 6, 7, 470161352 );
326  detectorId.SetTECEntry( 1, 1, 6, 8, 470177736 );
327  detectorId.SetTECEntry( 1, 1, 7, 0, 470046920 );
328  detectorId.SetTECEntry( 1, 1, 7, 1, 470063304 );
329  detectorId.SetTECEntry( 1, 1, 7, 2, 470079688 );
330  detectorId.SetTECEntry( 1, 1, 7, 3, 470096072 );
331  detectorId.SetTECEntry( 1, 1, 7, 4, 470112456 );
332  detectorId.SetTECEntry( 1, 1, 7, 5, 470128840 );
333  detectorId.SetTECEntry( 1, 1, 7, 6, 470145224 );
334  detectorId.SetTECEntry( 1, 1, 7, 7, 470161608 );
335  detectorId.SetTECEntry( 1, 1, 7, 8, 470177992 );
336 
337  // TIB
338  detectorId.SetTIBTOBEntry( 2, 0, 0, 369174604 );
339  detectorId.SetTIBTOBEntry( 2, 0, 1, 369174600 );
340  detectorId.SetTIBTOBEntry( 2, 0, 2, 369174596 );
341  detectorId.SetTIBTOBEntry( 2, 0, 3, 369170500 );
342  detectorId.SetTIBTOBEntry( 2, 0, 4, 369170504 );
343  detectorId.SetTIBTOBEntry( 2, 0, 5, 369170508 );
344  detectorId.SetTIBTOBEntry( 2, 1, 0, 369174732 );
345  detectorId.SetTIBTOBEntry( 2, 1, 1, 369174728 );
346  detectorId.SetTIBTOBEntry( 2, 1, 2, 369174724 );
347  detectorId.SetTIBTOBEntry( 2, 1, 3, 369170628 );
348  detectorId.SetTIBTOBEntry( 2, 1, 4, 369170632 );
349  detectorId.SetTIBTOBEntry( 2, 1, 5, 369170636 );
350  detectorId.SetTIBTOBEntry( 2, 2, 0, 369174812 );
351  detectorId.SetTIBTOBEntry( 2, 2, 1, 369174808 );
352  detectorId.SetTIBTOBEntry( 2, 2, 2, 369174804 );
353  detectorId.SetTIBTOBEntry( 2, 2, 3, 369170708 );
354  detectorId.SetTIBTOBEntry( 2, 2, 4, 369170712 );
355  detectorId.SetTIBTOBEntry( 2, 2, 5, 369170716 );
356  detectorId.SetTIBTOBEntry( 2, 3, 0, 369174940 );
357  detectorId.SetTIBTOBEntry( 2, 3, 1, 369174936 );
358  detectorId.SetTIBTOBEntry( 2, 3, 2, 369174932 );
359  detectorId.SetTIBTOBEntry( 2, 3, 3, 369170836 );
360  detectorId.SetTIBTOBEntry( 2, 3, 4, 369170840 );
361  detectorId.SetTIBTOBEntry( 2, 3, 5, 369170844 );
362  detectorId.SetTIBTOBEntry( 2, 4, 0, 369175068 );
363  detectorId.SetTIBTOBEntry( 2, 4, 1, 369175064 );
364  detectorId.SetTIBTOBEntry( 2, 4, 2, 369175060 );
365  detectorId.SetTIBTOBEntry( 2, 4, 3, 369170964 );
366  detectorId.SetTIBTOBEntry( 2, 4, 4, 369170968 );
367  detectorId.SetTIBTOBEntry( 2, 4, 5, 369170972 );
368  detectorId.SetTIBTOBEntry( 2, 5, 0, 369175164 );
369  detectorId.SetTIBTOBEntry( 2, 5, 1, 369175160 );
370  detectorId.SetTIBTOBEntry( 2, 5, 2, 369175156 );
371  detectorId.SetTIBTOBEntry( 2, 5, 3, 369171060 );
372  detectorId.SetTIBTOBEntry( 2, 5, 4, 369171064 );
373  detectorId.SetTIBTOBEntry( 2, 5, 5, 369171068 );
374  detectorId.SetTIBTOBEntry( 2, 6, 0, 369175292 );
375  detectorId.SetTIBTOBEntry( 2, 6, 1, 369175288 );
376  detectorId.SetTIBTOBEntry( 2, 6, 2, 369175284 );
377  detectorId.SetTIBTOBEntry( 2, 6, 3, 369171188 );
378  detectorId.SetTIBTOBEntry( 2, 6, 4, 369171192 );
379  detectorId.SetTIBTOBEntry( 2, 6, 5, 369171196 );
380  detectorId.SetTIBTOBEntry( 2, 7, 0, 369175372 );
381  detectorId.SetTIBTOBEntry( 2, 7, 1, 369175368 );
382  detectorId.SetTIBTOBEntry( 2, 7, 2, 369175364 );
383  detectorId.SetTIBTOBEntry( 2, 7, 3, 369171268 );
384  detectorId.SetTIBTOBEntry( 2, 7, 4, 369171272 );
385  detectorId.SetTIBTOBEntry( 2, 7, 5, 369171276 );
386 
387  // TOB
388  detectorId.SetTIBTOBEntry( 3, 0, 0, 436232314 );
389  detectorId.SetTIBTOBEntry( 3, 0, 1, 436232306 );
390  detectorId.SetTIBTOBEntry( 3, 0, 2, 436232298 );
391  detectorId.SetTIBTOBEntry( 3, 0, 3, 436228198 );
392  detectorId.SetTIBTOBEntry( 3, 0, 4, 436228206 );
393  detectorId.SetTIBTOBEntry( 3, 0, 5, 436228214 );
394  detectorId.SetTIBTOBEntry( 3, 1, 0, 436232506 );
395  detectorId.SetTIBTOBEntry( 3, 1, 1, 436232498 );
396  detectorId.SetTIBTOBEntry( 3, 1, 2, 436232490 );
397  detectorId.SetTIBTOBEntry( 3, 1, 3, 436228390 );
398  detectorId.SetTIBTOBEntry( 3, 1, 4, 436228398 );
399  detectorId.SetTIBTOBEntry( 3, 1, 5, 436228406 );
400  detectorId.SetTIBTOBEntry( 3, 2, 0, 436232634 );
401  detectorId.SetTIBTOBEntry( 3, 2, 1, 436232626 );
402  detectorId.SetTIBTOBEntry( 3, 2, 2, 436232618 );
403  detectorId.SetTIBTOBEntry( 3, 2, 3, 436228518 );
404  detectorId.SetTIBTOBEntry( 3, 2, 4, 436228526 );
405  detectorId.SetTIBTOBEntry( 3, 2, 5, 436228534 );
406  detectorId.SetTIBTOBEntry( 3, 3, 0, 436232826 );
407  detectorId.SetTIBTOBEntry( 3, 3, 1, 436232818 );
408  detectorId.SetTIBTOBEntry( 3, 3, 2, 436232810 );
409  detectorId.SetTIBTOBEntry( 3, 3, 3, 436228710 );
410  detectorId.SetTIBTOBEntry( 3, 3, 4, 436228718 );
411  detectorId.SetTIBTOBEntry( 3, 3, 5, 436228726 );
412  detectorId.SetTIBTOBEntry( 3, 4, 0, 436233018 );
413  detectorId.SetTIBTOBEntry( 3, 4, 1, 436233010 );
414  detectorId.SetTIBTOBEntry( 3, 4, 2, 436233002 );
415  detectorId.SetTIBTOBEntry( 3, 4, 3, 436228902 );
416  detectorId.SetTIBTOBEntry( 3, 4, 4, 436228910 );
417  detectorId.SetTIBTOBEntry( 3, 4, 5, 436228918 );
418  detectorId.SetTIBTOBEntry( 3, 5, 0, 436233146 );
419  detectorId.SetTIBTOBEntry( 3, 5, 1, 436233138 );
420  detectorId.SetTIBTOBEntry( 3, 5, 2, 436233130 );
421  detectorId.SetTIBTOBEntry( 3, 5, 3, 436229030 );
422  detectorId.SetTIBTOBEntry( 3, 5, 4, 436229038 );
423  detectorId.SetTIBTOBEntry( 3, 5, 5, 436229046 );
424  detectorId.SetTIBTOBEntry( 3, 6, 0, 436233338 );
425  detectorId.SetTIBTOBEntry( 3, 6, 1, 436233330 );
426  detectorId.SetTIBTOBEntry( 3, 6, 2, 436233322 );
427  detectorId.SetTIBTOBEntry( 3, 6, 3, 436229222 );
428  detectorId.SetTIBTOBEntry( 3, 6, 4, 436229230 );
429  detectorId.SetTIBTOBEntry( 3, 6, 5, 436229238 );
430  detectorId.SetTIBTOBEntry( 3, 7, 0, 436233466 );
431  detectorId.SetTIBTOBEntry( 3, 7, 1, 436233458 );
432  detectorId.SetTIBTOBEntry( 3, 7, 2, 436233450 );
433  detectorId.SetTIBTOBEntry( 3, 7, 3, 436229350 );
434  detectorId.SetTIBTOBEntry( 3, 7, 4, 436229358 );
435  detectorId.SetTIBTOBEntry( 3, 7, 5, 436229366 );
436 
437  // TEC+ AT
438  detectorId.SetTEC2TECEntry( 0, 0, 0, 470307208 );
439  detectorId.SetTEC2TECEntry( 0, 0, 1, 470323592 );
440  detectorId.SetTEC2TECEntry( 0, 0, 2, 470339976 );
441  detectorId.SetTEC2TECEntry( 0, 0, 3, 470356360 );
442  detectorId.SetTEC2TECEntry( 0, 0, 4, 470372744 );
443  detectorId.SetTEC2TECEntry( 0, 1, 0, 470307468 );
444  detectorId.SetTEC2TECEntry( 0, 1, 1, 470323852 );
445  detectorId.SetTEC2TECEntry( 0, 1, 2, 470340236 );
446  detectorId.SetTEC2TECEntry( 0, 1, 3, 470356620 );
447  detectorId.SetTEC2TECEntry( 0, 1, 4, 470373004 );
448  detectorId.SetTEC2TECEntry( 0, 2, 0, 470307716 );
449  detectorId.SetTEC2TECEntry( 0, 2, 1, 470324100 );
450  detectorId.SetTEC2TECEntry( 0, 2, 2, 470340484 );
451  detectorId.SetTEC2TECEntry( 0, 2, 3, 470356868 );
452  detectorId.SetTEC2TECEntry( 0, 2, 4, 470373252 );
453  detectorId.SetTEC2TECEntry( 0, 3, 0, 470307976 );
454  detectorId.SetTEC2TECEntry( 0, 3, 1, 470324360 );
455  detectorId.SetTEC2TECEntry( 0, 3, 2, 470340744 );
456  detectorId.SetTEC2TECEntry( 0, 3, 3, 470357128 );
457  detectorId.SetTEC2TECEntry( 0, 3, 4, 470373512 );
458  detectorId.SetTEC2TECEntry( 0, 4, 0, 470308236 );
459  detectorId.SetTEC2TECEntry( 0, 4, 1, 470324620 );
460  detectorId.SetTEC2TECEntry( 0, 4, 2, 470341004 );
461  detectorId.SetTEC2TECEntry( 0, 4, 3, 470357388 );
462  detectorId.SetTEC2TECEntry( 0, 4, 4, 470373772 );
463  detectorId.SetTEC2TECEntry( 0, 5, 0, 470308488 );
464  detectorId.SetTEC2TECEntry( 0, 5, 1, 470324872 );
465  detectorId.SetTEC2TECEntry( 0, 5, 2, 470341256 );
466  detectorId.SetTEC2TECEntry( 0, 5, 3, 470357640 );
467  detectorId.SetTEC2TECEntry( 0, 5, 4, 470374024 );
468  detectorId.SetTEC2TECEntry( 0, 6, 0, 470308748 );
469  detectorId.SetTEC2TECEntry( 0, 6, 1, 470325132 );
470  detectorId.SetTEC2TECEntry( 0, 6, 2, 470341516 );
471  detectorId.SetTEC2TECEntry( 0, 6, 3, 470357900 );
472  detectorId.SetTEC2TECEntry( 0, 6, 4, 470374284 );
473  detectorId.SetTEC2TECEntry( 0, 7, 0, 470308996 );
474  detectorId.SetTEC2TECEntry( 0, 7, 1, 470325380 );
475  detectorId.SetTEC2TECEntry( 0, 7, 2, 470341764 );
476  detectorId.SetTEC2TECEntry( 0, 7, 3, 470358148 );
477  detectorId.SetTEC2TECEntry( 0, 7, 4, 470374532 );
478 
479  // TEC- AT
480  detectorId.SetTEC2TECEntry( 1, 0, 0, 470045064 );
481  detectorId.SetTEC2TECEntry( 1, 0, 1, 470061448 );
482  detectorId.SetTEC2TECEntry( 1, 0, 2, 470077832 );
483  detectorId.SetTEC2TECEntry( 1, 0, 3, 470094216 );
484  detectorId.SetTEC2TECEntry( 1, 0, 4, 470110600 );
485  detectorId.SetTEC2TECEntry( 1, 1, 0, 470045316 );
486  detectorId.SetTEC2TECEntry( 1, 1, 1, 470061700 );
487  detectorId.SetTEC2TECEntry( 1, 1, 2, 470078084 );
488  detectorId.SetTEC2TECEntry( 1, 1, 3, 470094468 );
489  detectorId.SetTEC2TECEntry( 1, 1, 4, 470110852 );
490  detectorId.SetTEC2TECEntry( 1, 2, 0, 470045580 );
491  detectorId.SetTEC2TECEntry( 1, 2, 1, 470061964 );
492  detectorId.SetTEC2TECEntry( 1, 2, 2, 470078348 );
493  detectorId.SetTEC2TECEntry( 1, 2, 3, 470094732 );
494  detectorId.SetTEC2TECEntry( 1, 2, 4, 470111116 );
495  detectorId.SetTEC2TECEntry( 1, 3, 0, 470045832 );
496  detectorId.SetTEC2TECEntry( 1, 3, 1, 470062216 );
497  detectorId.SetTEC2TECEntry( 1, 3, 2, 470078600 );
498  detectorId.SetTEC2TECEntry( 1, 3, 3, 470094984 );
499  detectorId.SetTEC2TECEntry( 1, 3, 4, 470111368 );
500  detectorId.SetTEC2TECEntry( 1, 4, 0, 470046084 );
501  detectorId.SetTEC2TECEntry( 1, 4, 1, 470062468 );
502  detectorId.SetTEC2TECEntry( 1, 4, 2, 470078852 );
503  detectorId.SetTEC2TECEntry( 1, 4, 3, 470095236 );
504  detectorId.SetTEC2TECEntry( 1, 4, 4, 470111620 );
505  detectorId.SetTEC2TECEntry( 1, 5, 0, 470046344 );
506  detectorId.SetTEC2TECEntry( 1, 5, 1, 470062728 );
507  detectorId.SetTEC2TECEntry( 1, 5, 2, 470079112 );
508  detectorId.SetTEC2TECEntry( 1, 5, 3, 470095496 );
509  detectorId.SetTEC2TECEntry( 1, 5, 4, 470111880 );
510  detectorId.SetTEC2TECEntry( 1, 6, 0, 470046596 );
511  detectorId.SetTEC2TECEntry( 1, 6, 1, 470062980 );
512  detectorId.SetTEC2TECEntry( 1, 6, 2, 470079364 );
513  detectorId.SetTEC2TECEntry( 1, 6, 3, 470095748 );
514  detectorId.SetTEC2TECEntry( 1, 6, 4, 470112132 );
515  detectorId.SetTEC2TECEntry( 1, 7, 0, 470046860 );
516  detectorId.SetTEC2TECEntry( 1, 7, 1, 470063244 );
517  detectorId.SetTEC2TECEntry( 1, 7, 2, 470079628 );
518  detectorId.SetTEC2TECEntry( 1, 7, 3, 470096012 );
519  detectorId.SetTEC2TECEntry( 1, 7, 4, 470112396 );
520 
521 }
void SetTEC2TECEntry(int subdetector, int beam, int tecDisk, T)
std::vector< unsigned int > tecDoubleHitDetId
void SetTIBTOBEntry(int subdetector, int beam, int tibTobPosition, T)
LASGlobalData< unsigned int > detectorId
void SetTECEntry(int subdetector, int tecRing, int beam, int tecDisk, T)
void LaserAlignment::fillPedestalProfiles ( edm::ESHandle< SiStripPedestals > &  pedestalsHandle)
private

fill pedestals from dbase

This function fills the pedestal profiles (LASGlobalData<LASModuleProfiles> pedestalProfiles) from the ESHandle (from file or DB)

Argument: readily connected SiStripPedestals object (get() alredy called) The functionality inside the loops is basically taken from: CommonTools/SiStripZeroSuppression/src/SiStripPedestalsSubtractor.cc

Definition at line 1193 of file LaserAlignment.cc.

References EcalCondDBWriter_cfi::beam, detectorId, LASGlobalData< T >::GetTEC2TECEntry(), LASGlobalData< T >::GetTECEntry(), LASGlobalData< T >::GetTIBTOBEntry(), moduleLoop, pedestalProfiles, relativeConstraints::ring, LASModuleProfile::SetValue(), LASGlobalLoop::TEC2TECLoop(), LASGlobalLoop::TECLoop(), and LASGlobalLoop::TIBTOBLoop().

Referenced by produce().

1193  {
1194 
1195  int det, ring, beam, disk, pos;
1196 
1197  // loop TEC modules (yet without AT)
1198  det = 0; ring = 0; beam = 0; disk = 0;
1199  do { // loop using LASGlobalLoop functionality
1200  SiStripPedestals::Range pedRange = pedestalsHandle->getRange( detectorId.GetTECEntry( det, ring, beam, disk ) );
1201  for( int strip = 0; strip < 512; ++strip ) {
1202  int thePedestal = int( pedestalsHandle->getPed( strip, pedRange ) );
1203  if( thePedestal > 895 ) thePedestal -= 1024;
1204  pedestalProfiles.GetTECEntry( det, ring, beam, disk ).SetValue( strip, thePedestal );
1205  }
1206  } while ( moduleLoop.TECLoop( det, ring, beam, disk ) );
1207 
1208 
1209  // TIB & TOB section
1210  det = 2; beam = 0; pos = 0;
1211  do { // loop using LASGlobalLoop functionality
1212  SiStripPedestals::Range pedRange = pedestalsHandle->getRange( detectorId.GetTIBTOBEntry( det, beam, pos ) );
1213  for( int strip = 0; strip < 512; ++strip ) {
1214  int thePedestal = int( pedestalsHandle->getPed( strip, pedRange ) );
1215  if( thePedestal > 895 ) thePedestal -= 1024;
1216  pedestalProfiles.GetTIBTOBEntry( det, beam, pos ).SetValue( strip, thePedestal );
1217  }
1218  } while( moduleLoop.TIBTOBLoop( det, beam, pos ) );
1219 
1220 
1221  // TEC2TEC AT section
1222  det = 0; beam = 0; disk = 0;
1223  do { // loop using LASGlobalLoop functionality
1224  SiStripPedestals::Range pedRange = pedestalsHandle->getRange( detectorId.GetTEC2TECEntry( det, beam, disk ) );
1225  for( int strip = 0; strip < 512; ++strip ) {
1226  int thePedestal = int( pedestalsHandle->getPed( strip, pedRange ) );
1227  if( thePedestal > 895 ) thePedestal -= 1024;
1228  pedestalProfiles.GetTEC2TECEntry( det, beam, disk ).SetValue( strip, thePedestal );
1229  }
1230  } while( moduleLoop.TEC2TECLoop( det, beam, disk ) );
1231 
1232 }
std::pair< ContainerIterator, ContainerIterator > Range
bool TEC2TECLoop(int &, int &, int &) const
T & GetTIBTOBEntry(int subdetector, int beam, int tibTobPosition)
void SetValue(unsigned int theStripNumber, const double &theValue)
LASGlobalData< LASModuleProfile > pedestalProfiles
T & GetTEC2TECEntry(int subdetector, int beam, int tecDisk)
T & GetTECEntry(int subdetector, int tecRing, int beam, int tecDisk)
Definition: LASGlobalData.h:91
LASGlobalData< unsigned int > detectorId
bool TECLoop(int &, int &, int &, int &) const
bool TIBTOBLoop(int &, int &, int &) const
LASGlobalLoop moduleLoop
double LaserAlignment::getTEC2TECNominalBeamOffset ( unsigned int  det,
unsigned int  beam,
unsigned int  disk 
)
private

returns the nominal beam position (strips) in TEC (AT) for the profileJudge

not all TEC-AT modules are hit in the center; this func returns the nominal beam offset locally on a module (in strips) for the ProfileJudge and the LASPeakFinder in strips. (offset = middle of module - nominal position)

the hard coded numbers will later be supplied by a special geometry class..

Definition at line 1338 of file LaserAlignment.cc.

References EcalCondDBWriter_cfi::beam, and edm::hlt::Exception.

Referenced by endRunProduce().

1338  {
1339 
1340  if( det > 1 || beam > 7 || disk > 5 ) {
1341  throw cms::Exception( "[LaserAlignment::getTEC2TECNominalBeamOffset]" ) << " ERROR ** Called with nonexisting parameter set: det " << det << " beam " << beam << " disk " << disk << "." << std::endl;
1342  }
1343 
1344  const double nominalOffsets[8] = { 0., 2.220, -2.221, 0., 2.214, 0., 2.214, -2.217 };
1345 
1346  if( det == 0 ) return -1. * nominalOffsets[beam];
1347  else return nominalOffsets[beam];
1348 
1349 }
double LaserAlignment::getTIBTOBNominalBeamOffset ( unsigned int  det,
unsigned int  beam,
unsigned int  pos 
)
private

returns the nominal beam position (strips) in TOB for the profileJudge

not all TIB & TOB modules are hit in the center; this func returns the nominal beam offset locally on a module (in strips) for the ProfileJudge and the LASPeakFinder in strips. (offset = middle of module - nominal position)

the hard coded numbers will later be supplied by a special geometry class..

Definition at line 1303 of file LaserAlignment.cc.

References edm::hlt::Exception, and or.

Referenced by endRunProduce(), and produce().

1303  {
1304 
1305  if( det < 2 || det > 3 || beam > 7 || pos > 5 ) {
1306  throw cms::Exception( "[LaserAlignment::getTIBTOBNominalBeamOffset]" ) << " ERROR ** Called with nonexisting parameter set: det " << det << " beam " << beam << " pos " << pos << "." << std::endl;
1307  }
1308 
1309  const double nominalOffsetsTIB[8] = { 0.00035, 2.10687, -2.10827, -0.00173446, 2.10072, -0.00135114, 2.10105, -2.10401 };
1310 
1311  // in tob, modules have alternating orientations along the rods.
1312  // this is described by the following pattern.
1313  // (even more confusing, this pattern is inversed for beams 0, 5, 6, 7)
1314  const int orientationPattern[6] = { -1, 1, 1, -1, -1, 1 };
1315  const double nominalOffsetsTOB[8] = { 0.00217408, 1.58678, 117.733, 119.321, 120.906, 119.328, 117.743, 1.58947 };
1316 
1317 
1318  if( det == 2 ) return( -1. * nominalOffsetsTIB[beam] );
1319 
1320  else {
1321  if( beam == 0 or beam > 4 ) return( nominalOffsetsTOB[beam] * orientationPattern[pos] );
1322  else return( -1. * nominalOffsetsTOB[beam] * orientationPattern[pos] );
1323  }
1324 
1325 }
The Signals That Services Can Subscribe To This is based on ActivityRegistry and is current per Services can connect to the signals distributed by the ActivityRegistry in order to monitor the activity of the application Each possible callback has some defined which we here list in angle e< void, edm::EventIDconst &, edm::Timestampconst & > We also list in braces which AR_WATCH_USING_METHOD_ is used for those or
Definition: Activities.doc:12
bool LaserAlignment::isATBeam ( void  )
private

count useable profiles in TIBTOB, operates on LASGlobalData<bool> LaserAlignment::isAcceptedProfile to allow for more elaborate patterns in the future

Definition at line 1274 of file LaserAlignment.cc.

References EcalCondDBWriter_cfi::beam, gather_cfg::cout, LASGlobalData< T >::GetTIBTOBEntry(), isAcceptedProfile, LogDebug, moduleLoop, and LASGlobalLoop::TIBTOBLoop().

Referenced by produce().

1274  {
1275 
1276  int numberOfProfiles = 0;
1277 
1278  int det = 2; int beam = 0; int pos = 0; // search all TIB/TOB for signals
1279  do {
1280  if( isAcceptedProfile.GetTIBTOBEntry( det, beam, pos ) == 1 ) numberOfProfiles++;
1281  } while( moduleLoop.TIBTOBLoop( det, beam, pos ) );
1282 
1283  LogDebug( "[LaserAlignment::isATBeam]" ) << " Found: " << numberOfProfiles << "hits." << std::endl;
1284  std::cout << " [LaserAlignment::isATBeam] -- Found: " << numberOfProfiles << " hits." << std::endl;
1285 
1286  if( numberOfProfiles > 10 ) return( true );
1287  return( false );
1288 
1289 }
#define LogDebug(id)
LASGlobalData< int > isAcceptedProfile
T & GetTIBTOBEntry(int subdetector, int beam, int tibTobPosition)
bool TIBTOBLoop(int &, int &, int &) const
tuple cout
Definition: gather_cfg.py:121
LASGlobalLoop moduleLoop
bool LaserAlignment::isTECBeam ( void  )
private

decide whether TEC or AT beams have fired

count useable profiles in TEC, operates on LASGlobalData<int> LaserAlignment::isAcceptedProfile to allow for more elaborate patterns in the future

Definition at line 1243 of file LaserAlignment.cc.

References EcalCondDBWriter_cfi::beam, gather_cfg::cout, LASGlobalData< T >::GetTECEntry(), isAcceptedProfile, LogDebug, and relativeConstraints::ring.

Referenced by produce().

1243  {
1244 
1245  int numberOfProfiles = 0;
1246 
1247  int ring = 1; // search all ring6 modules for signals
1248  for( int det = 0; det < 2; ++det ) {
1249  for( int beam = 0; beam < 8; ++ beam ) {
1250  for( int disk = 0; disk < 9; ++disk ) {
1251  if( isAcceptedProfile.GetTECEntry( det, ring, beam, disk ) == 1 ) numberOfProfiles++;
1252  }
1253  }
1254  }
1255 
1256  LogDebug( "[LaserAlignment::isTECBeam]" ) << " Found: " << numberOfProfiles << "hits." << std::endl;
1257  std::cout << " [LaserAlignment::isTECBeam] -- Found: " << numberOfProfiles << " hits." << std::endl;
1258 
1259  if( numberOfProfiles > 10 ) return( true );
1260  return( false );
1261 
1262 }
#define LogDebug(id)
LASGlobalData< int > isAcceptedProfile
T & GetTECEntry(int subdetector, int tecRing, int beam, int tecDisk)
Definition: LASGlobalData.h:91
tuple cout
Definition: gather_cfg.py:121
void LaserAlignment::produce ( edm::Event theEvent,
edm::EventSetup const &  theSetup 
)
overridevirtual

Implements edm::one::EDProducerBase.

Definition at line 264 of file LaserAlignment.cc.

References EcalCondDBWriter_cfi::beam, TrackerGeomBuilderFromGeometricDet::build(), collectedDataProfiles, gather_cfg::cout, currentDataProfiles, detectorId, edm::EventID::event(), fillDataProfiles(), fillPedestalProfiles(), spr::find(), firstEvent_, gD, edm::EventSetup::get(), edm::eventsetup::EventSetupRecord::get(), LASGlobalData< T >::GetTEC2TECEntry(), LASGlobalData< T >::GetTECEntry(), LASGlobalData< T >::GetTIBTOBEntry(), getTIBTOBNominalBeamOffset(), edm::EventBase::id(), isAcceptedProfile, isATBeam(), LASProfileJudge::IsSignalIn(), isTECBeam(), judge, LASProfileJudge::JudgeProfile(), LogDebug, moduleLoop, numberOfAcceptedProfiles, pedestalProfiles, edm::ESHandle< class >::product(), relativeConstraints::ring, edm::EventID::run(), LASGlobalData< T >::SetTECEntry(), LASGlobalData< T >::SetTIBTOBEntry(), LASGlobalLoop::TEC2TECLoop(), tecDoubleHitDetId, LASGlobalLoop::TECLoop(), theAlignableTracker, theDoPedestalSubtraction, theEvents, theGlobalPositionRcd, theParameterSet, theProfileNames, theTrackerGeometry, LASGlobalLoop::TIBTOBLoop(), and updateFromInputGeometry.

Referenced by JSONExport.JsonExport::export(), HTMLExport.HTMLExport::export(), and HTMLExport.HTMLExportStatic::export().

264  {
265 
266  if (firstEvent_) {
267 
268  //Retrieve tracker topology from geometry
269  edm::ESHandle<TrackerTopology> tTopoHandle;
270  theSetup.get<IdealGeometryRecord>().get(tTopoHandle);
271  const TrackerTopology* const tTopo = tTopoHandle.product();
272 
273  // access the tracker
274  theSetup.get<TrackerDigiGeometryRecord>().get( theTrackerGeometry );
275  theSetup.get<IdealGeometryRecord>().get( gD );
276 
277  // access pedestals (from db..) if desired
278  edm::ESHandle<SiStripPedestals> pedestalsHandle;
280  theSetup.get<SiStripPedestalsRcd>().get( pedestalsHandle );
281  fillPedestalProfiles( pedestalsHandle );
282  }
283 
284  // global positions
285  // edm::ESHandle<Alignments> theGlobalPositionRcd;
286  theSetup.get<TrackerDigiGeometryRecord>().getRecord<GlobalPositionRcd>().get( theGlobalPositionRcd );
287 
288  // select the reference geometry
289  if( !updateFromInputGeometry ) {
290  // the AlignableTracker object is initialized with the ideal geometry
291  edm::ESHandle<GeometricDet> theGeometricDet;
292  theSetup.get<IdealGeometryRecord>().get(theGeometricDet);
293  TrackerGeomBuilderFromGeometricDet trackerBuilder;
294  TrackerGeometry* theRefTracker = trackerBuilder.build(&*theGeometricDet, theParameterSet);
295 
296  theAlignableTracker = new AlignableTracker(&(*theRefTracker), tTopo);
297  }
298  else {
299  // the AlignableTracker object is initialized with the input geometry from DB
301  }
302 
303  firstEvent_ = false;
304  }
305 
306  LogDebug("LaserAlignment") << "==========================================================="
307  << "\n Private analysis of event #"<< theEvent.id().event()
308  << " in run #" << theEvent.id().run();
309 
310 
311  // do the Tracker Statistics to retrieve the current profiles
312  fillDataProfiles( theEvent, theSetup );
313 
314  // index variables for the LASGlobalLoop object
315  int det, ring, beam, disk, pos;
316 
317  //
318  // first pre-loop on selected entries to find out
319  // whether the TEC or the AT beams have fired
320  // (pedestal profiles are left empty if false in cfg)
321  //
322 
323 
324  // TEC+- (only ring 6)
325  ring = 1;
326  for( det = 0; det < 2; ++det ) {
327  for( beam = 0; beam < 8; ++ beam ) {
328  for( disk = 0; disk < 9; ++disk ) {
329  if( judge.IsSignalIn( currentDataProfiles.GetTECEntry( det, ring, beam, disk ) - pedestalProfiles.GetTECEntry( det, ring, beam, disk ), 0 ) ) {
330  isAcceptedProfile.SetTECEntry( det, ring, beam, disk, 1 );
331  }
332  else { // assume no initialization
333  isAcceptedProfile.SetTECEntry( det, ring, beam, disk, 0 );
334  }
335  }
336  }
337  }
338 
339  // TIBTOB
340  det = 2; beam = 0; pos = 0;
341  do {
342  // add current event's data and subtract pedestals
343  if( judge.IsSignalIn( currentDataProfiles.GetTIBTOBEntry( det, beam, pos ) - pedestalProfiles.GetTIBTOBEntry( det, beam, pos ), getTIBTOBNominalBeamOffset( det, beam, pos ) ) ) {
344  isAcceptedProfile.SetTIBTOBEntry( det, beam, pos, 1 );
345  }
346  else { // dto.
347  isAcceptedProfile.SetTIBTOBEntry( det, beam, pos, 0 );
348  }
349 
350  } while( moduleLoop.TIBTOBLoop( det, beam, pos ) );
351 
352 
353 
354 
355  // now come the beam finders
356  bool isTECMode = isTECBeam();
357  // LogDebug( " [LaserAlignment::produce]" ) << "LaserAlignment::isTECBeam declares this event " << ( isTECMode ? "" : "NOT " ) << "a TEC event." << std::endl;
358  std::cout << " [LaserAlignment::produce] -- LaserAlignment::isTECBeam declares this event " << ( isTECMode ? "" : "NOT " ) << "a TEC event." << std::endl;
359 
360  bool isATMode = isATBeam();
361  // LogDebug( " [LaserAlignment::produce]" ) << "LaserAlignment::isATBeam declares this event " << ( isATMode ? "" : "NOT " ) << "an AT event." << std::endl;
362  std::cout << " [LaserAlignment::produce] -- LaserAlignment::isATBeam declares this event " << ( isATMode ? "" : "NOT " ) << "an AT event." << std::endl;
363 
364 
365 
366 
367  //
368  // now pass the pedestal subtracted profiles to the judge
369  // if they're accepted, add them on the collectedDataProfiles
370  // (pedestal profiles are left empty if false in cfg)
371  //
372 
373 
374  // loop TEC+- modules
375  det = 0; ring = 0; beam = 0; disk = 0;
376  do {
377 
378  LogDebug( "[LaserAlignment::produce]" ) << "Profile is: " << theProfileNames.GetTECEntry( det, ring, beam, disk ) << "." << std::endl;
379 
380  // this now depends on the AT/TEC mode, is this a doubly hit module? -> look for it in vector<int> tecDoubleHitDetId
381  // (ring == 0 not necessary but makes it a little faster)
382  if( ring == 0 && find( tecDoubleHitDetId.begin(), tecDoubleHitDetId.end(), detectorId.GetTECEntry( det, ring, beam, disk ) ) != tecDoubleHitDetId.end() ) {
383 
384  if( isTECMode ) { // add profile to TEC collection
385  // add current event's data and subtract pedestals
386  if( judge.JudgeProfile( currentDataProfiles.GetTECEntry( det, ring, beam, disk ) - pedestalProfiles.GetTECEntry( det, ring, beam, disk ), 0 ) ) {
387  collectedDataProfiles.GetTECEntry( det, ring, beam, disk ) += currentDataProfiles.GetTECEntry( det, ring, beam, disk ) - pedestalProfiles.GetTECEntry( det, ring, beam, disk );
388  numberOfAcceptedProfiles.GetTECEntry( det, ring, beam, disk )++;
389  }
390  }
391  }
392 
393  else { // not a doubly hit module, don't care about the mode
394  // add current event's data and subtract pedestals
395  if( judge.JudgeProfile( currentDataProfiles.GetTECEntry( det, ring, beam, disk ) - pedestalProfiles.GetTECEntry( det, ring, beam, disk ), 0 ) ) {
396  collectedDataProfiles.GetTECEntry( det, ring, beam, disk ) += currentDataProfiles.GetTECEntry( det, ring, beam, disk ) - pedestalProfiles.GetTECEntry( det, ring, beam, disk );
397  numberOfAcceptedProfiles.GetTECEntry( det, ring, beam, disk )++;
398  }
399  }
400 
401  } while( moduleLoop.TECLoop( det, ring, beam, disk ) );
402 
403 
404 
405 
406 
407  // loop TIB/TOB modules
408  det = 2; beam = 0; pos = 0;
409  do {
410 
411  LogDebug( "[LaserAlignment::produce]" ) << "Profile is: " << theProfileNames.GetTIBTOBEntry( det, beam, pos ) << "." << std::endl;
412 
413  // add current event's data and subtract pedestals
414  if( judge.JudgeProfile( currentDataProfiles.GetTIBTOBEntry( det, beam, pos ) - pedestalProfiles.GetTIBTOBEntry( det, beam, pos ), getTIBTOBNominalBeamOffset( det, beam, pos ) ) ) {
415  collectedDataProfiles.GetTIBTOBEntry( det, beam, pos ) += currentDataProfiles.GetTIBTOBEntry( det, beam, pos ) - pedestalProfiles.GetTIBTOBEntry( det, beam, pos );
416  numberOfAcceptedProfiles.GetTIBTOBEntry( det, beam, pos )++;
417  }
418 
419  } while( moduleLoop.TIBTOBLoop( det, beam, pos ) );
420 
421 
422 
423  // loop TEC2TEC modules
424  det = 0; beam = 0; disk = 0;
425  do {
426 
427  LogDebug( "[LaserAlignment::produce]" ) << "Profile is: " << theProfileNames.GetTEC2TECEntry( det, beam, disk ) << "." << std::endl;
428 
429  // this again depends on the AT/TEC mode, is this a doubly hit module?
430  // (ring == 0 not necessary but makes it a little faster)
431  if( ring == 0 && find( tecDoubleHitDetId.begin(), tecDoubleHitDetId.end(), detectorId.GetTECEntry( det, ring, beam, disk ) ) != tecDoubleHitDetId.end() ) {
432 
433  if( isATMode ) { // add profile to TEC2TEC collection
434  // add current event's data and subtract pedestals
435  if( judge.JudgeProfile( currentDataProfiles.GetTEC2TECEntry( det, beam, disk ) - pedestalProfiles.GetTEC2TECEntry( det, beam, disk ), 0 ) ) {
436  collectedDataProfiles.GetTEC2TECEntry( det, beam, disk ) += currentDataProfiles.GetTEC2TECEntry( det, beam, disk ) - pedestalProfiles.GetTEC2TECEntry( det, beam, disk );
437  numberOfAcceptedProfiles.GetTEC2TECEntry( det, beam, disk )++;
438  }
439  }
440 
441  }
442 
443  else { // not a doubly hit module, don't care about the mode
444  // add current event's data and subtract pedestals
445  if( judge.JudgeProfile( currentDataProfiles.GetTEC2TECEntry( det, beam, disk ) - pedestalProfiles.GetTEC2TECEntry( det, beam, disk ), 0 ) ) {
446  collectedDataProfiles.GetTEC2TECEntry( det, beam, disk ) += currentDataProfiles.GetTEC2TECEntry( det, beam, disk ) - pedestalProfiles.GetTEC2TECEntry( det, beam, disk );
447  numberOfAcceptedProfiles.GetTEC2TECEntry( det, beam, disk )++;
448  }
449  }
450 
451 
452  } while( moduleLoop.TEC2TECLoop( det, beam, disk ) );
453 
454 
455 
456  // total event number counter
457  theEvents++;
458 
459 }
#define LogDebug(id)
RunNumber_t run() const
Definition: EventID.h:42
bool IsSignalIn(const LASModuleProfile &, double)
bool isATBeam(void)
EventNumber_t event() const
Definition: EventID.h:44
void fillDataProfiles(edm::Event const &, edm::EventSetup const &)
fill profiles from SiStrip(Raw)Digi container
const edm::ParameterSet theParameterSet
bool isTECBeam(void)
decide whether TEC or AT beams have fired
TrackerGeometry * build(const GeometricDet *gd, const edm::ParameterSet &pSet)
double getTIBTOBNominalBeamOffset(unsigned int, unsigned int, unsigned int)
returns the nominal beam position (strips) in TOB for the profileJudge
edm::ESHandle< TrackerGeometry > theTrackerGeometry
LASGlobalData< int > numberOfAcceptedProfiles
bool theDoPedestalSubtraction
config switch
LASGlobalData< LASModuleProfile > currentDataProfiles
data profiles for the current event
void find(edm::Handle< EcalRecHitCollection > &hits, DetId thisDet, std::vector< EcalRecHitCollection::const_iterator > &hit, bool debug=false)
Definition: FindCaloHit.cc:7
LASGlobalData< int > isAcceptedProfile
void fillPedestalProfiles(edm::ESHandle< SiStripPedestals > &)
fill pedestals from dbase
edm::ESHandle< Alignments > theGlobalPositionRcd
bool TEC2TECLoop(int &, int &, int &) const
void get(HolderT &iHolder) const
std::vector< unsigned int > tecDoubleHitDetId
T & GetTIBTOBEntry(int subdetector, int beam, int tibTobPosition)
bool JudgeProfile(const LASModuleProfile &, double)
void SetTIBTOBEntry(int subdetector, int beam, int tibTobPosition, T)
LASGlobalData< LASModuleProfile > pedestalProfiles
T & GetTEC2TECEntry(int subdetector, int beam, int tecDisk)
AlignableTracker * theAlignableTracker
int theEvents
counter for the total number of events processed
T const * product() const
Definition: ESHandle.h:62
T & GetTECEntry(int subdetector, int tecRing, int beam, int tecDisk)
Definition: LASGlobalData.h:91
LASGlobalData< std::string > theProfileNames
LASGlobalData< LASModuleProfile > collectedDataProfiles
edm::EventID id() const
Definition: EventBase.h:56
LASGlobalData< unsigned int > detectorId
bool TECLoop(int &, int &, int &, int &) const
bool TIBTOBLoop(int &, int &, int &) const
tuple cout
Definition: gather_cfg.py:121
void SetTECEntry(int subdetector, int tecRing, int beam, int tecDisk, T)
edm::ESHandle< GeometricDet > gD
tracker geometry;
LASGlobalLoop moduleLoop
LASProfileJudge judge
bool updateFromInputGeometry
config switch
void LaserAlignment::testRoutine ( void  )

for debugging & testing only, will disappear..

this function is for debugging and testing only and will disappear..

Definition at line 1712 of file LaserAlignment.cc.

References EcalCondDBWriter_cfi::beam, gather_cfg::cout, detectorId, LASGlobalData< T >::GetTEC2TECEntry(), LASGlobalData< T >::GetTECEntry(), LASGlobalData< T >::GetTIBTOBEntry(), TrackerGeometry::idToDet(), moduleLoop, CosmicsPD_Skims::radius, relativeConstraints::ring, LASGlobalLoop::TEC2TECLoop(), LASGlobalLoop::TECLoop(), theTrackerGeometry, theZ, and LASGlobalLoop::TIBTOBLoop().

1712  {
1713 
1714 
1715  // tracker geom. object for calculating the global beam positions
1716  const TrackerGeometry& theTracker( *theTrackerGeometry );
1717 
1718  const double atPhiPositions[8] = { 0.392699, 1.289799, 1.851794, 2.748894, 3.645995, 4.319690, 5.216791, 5.778784 };
1719  const double tecPhiPositions[8] = { 0.392699, 1.178097, 1.963495, 2.748894, 3.534292, 4.319690, 5.105088, 5.890486 };
1720  const double zPositions[9] = { 125.0, 139.0, 153.0, 167.0, 181.0, 198.5, 217.5, 238.0, 259.5 };
1721  const double zPositionsTIB[6] = { 62.0, 38.0, 18.0, -10.0, -34.0, -54.0 };
1722  const double zPositionsTOB[6] = { 104.0, 58.0, 22.0, -14.0, -50.0, -86.0 };
1723 
1724  int det, beam, disk, pos, ring;
1725 
1726  // loop TEC+- internal
1727  det = 0; ring = 0; beam = 0; disk = 0;
1728  do {
1729 
1730  const double radius = ring?84.0:56.4;
1731 
1732  // access the tracker geometry for this module
1733  const DetId theDetId( detectorId.GetTECEntry( det, ring, beam, disk ) );
1734  const StripGeomDetUnit* const theStripDet = dynamic_cast<const StripGeomDetUnit*>( theTracker.idToDet( theDetId ) );
1735 
1736  if (theStripDet) {
1737  const GlobalPoint gp( GlobalPoint::Cylindrical( radius, tecPhiPositions[beam], zPositions[disk] ) );
1738 
1739  const LocalPoint lp( theStripDet->surface().toLocal( gp ) );
1740  std::cout << "__TEC: " << 256. - theStripDet->specificTopology().strip( lp ) << std::endl;
1741  }
1742 
1743  } while( moduleLoop.TECLoop( det, ring, beam, disk ) );
1744 
1745 
1746  // loop TIBTOB
1747  det = 2; beam = 0; pos = 0;
1748  do {
1749 
1750  const double radius = (det==2?51.4:58.4);
1751  const double theZ = (det==2?zPositionsTIB[pos]:zPositionsTOB[pos]);
1752 
1753  // access the tracker geometry for this module
1754  const DetId theDetId( detectorId.GetTIBTOBEntry( det, beam, pos ) );
1755  const StripGeomDetUnit* const theStripDet = dynamic_cast<const StripGeomDetUnit*>( theTracker.idToDet( theDetId ) );
1756 
1757  if (theStripDet) {
1758  const GlobalPoint gp( GlobalPoint::Cylindrical( radius, atPhiPositions[beam], theZ ) );
1759 
1760  const LocalPoint lp( theStripDet->surface().toLocal( gp ) );
1761  std::cout << "__TIBTOB det " << det << " beam " << beam << " pos " << pos << " " << 256. - theStripDet->specificTopology().strip( lp );
1762  std::cout << " " << theStripDet->position().perp()<< std::endl;
1763  }
1764 
1765  } while( moduleLoop.TIBTOBLoop( det, beam, pos ) );
1766 
1767 
1768  // loop TEC2TEC
1769  det = 0; beam = 0; disk = 0;
1770  do {
1771 
1772  const double radius = 56.4;
1773 
1774  // access the tracker geometry for this module
1775  const DetId theDetId( detectorId.GetTEC2TECEntry( det, beam, disk ) );
1776  const StripGeomDetUnit* const theStripDet = dynamic_cast<const StripGeomDetUnit*>( theTracker.idToDet( theDetId ) );
1777 
1778  if (theStripDet) {
1779  const GlobalPoint gp( GlobalPoint::Cylindrical( radius, atPhiPositions[beam], zPositions[disk] ) );
1780 
1781  const LocalPoint lp( theStripDet->surface().toLocal( gp ) );
1782  std::cout << "__TEC2TEC det " << det << " beam " << beam << " disk " << disk << " " << 256. - theStripDet->specificTopology().strip( lp ) << std::endl;
1783  }
1784 
1785  } while( moduleLoop.TEC2TECLoop( det, beam, disk ) );
1786 
1787 
1788 }
T theZ
edm::ESHandle< TrackerGeometry > theTrackerGeometry
bool TEC2TECLoop(int &, int &, int &) const
T & GetTIBTOBEntry(int subdetector, int beam, int tibTobPosition)
Definition: DetId.h:18
T & GetTEC2TECEntry(int subdetector, int beam, int tecDisk)
T & GetTECEntry(int subdetector, int tecRing, int beam, int tecDisk)
Definition: LASGlobalData.h:91
LASGlobalData< unsigned int > detectorId
bool TECLoop(int &, int &, int &, int &) const
bool TIBTOBLoop(int &, int &, int &) const
tuple cout
Definition: gather_cfg.py:121
LASGlobalLoop moduleLoop

Member Data Documentation

LASGlobalData<LASModuleProfile> LaserAlignment::collectedDataProfiles
private

Definition at line 209 of file LaserAlignment.h.

Referenced by beginJob(), endRunProduce(), and produce().

LASGlobalData<LASModuleProfile> LaserAlignment::currentDataProfiles
private

data profiles for the current event

Definition at line 206 of file LaserAlignment.h.

Referenced by beginJob(), fillDataProfiles(), and produce().

LASGlobalData<unsigned int> LaserAlignment::detectorId
private
bool LaserAlignment::enableJudgeZeroFilter
private

config switch

Definition at line 156 of file LaserAlignment.h.

Referenced by LaserAlignment().

bool LaserAlignment::firstEvent_
private

Definition at line 246 of file LaserAlignment.h.

Referenced by beginJob(), and produce().

edm::ESHandle<GeometricDet> LaserAlignment::gD
private

tracker geometry;

Definition at line 237 of file LaserAlignment.h.

Referenced by produce().

LASGlobalData<int> LaserAlignment::isAcceptedProfile
private

Definition at line 219 of file LaserAlignment.h.

Referenced by beginJob(), isATBeam(), isTECBeam(), and produce().

LASProfileJudge LaserAlignment::judge
private

Definition at line 191 of file LaserAlignment.h.

Referenced by LaserAlignment(), and produce().

unsigned int LaserAlignment::judgeOverdriveThreshold
private

config parameters for the LASProfileJudge

Definition at line 159 of file LaserAlignment.h.

Referenced by LaserAlignment().

bool LaserAlignment::misalignedByRefGeometry
private

config switch

Definition at line 165 of file LaserAlignment.h.

Referenced by endRunProduce(), and LaserAlignment().

LASGlobalLoop LaserAlignment::moduleLoop
private
LASGlobalData<LASCoordinateSet> LaserAlignment::nominalCoordinates
private

Definition at line 226 of file LaserAlignment.h.

Referenced by CalculateNominalCoordinates(), and endRunProduce().

LASGlobalData<int> LaserAlignment::numberOfAcceptedProfiles
private

Definition at line 215 of file LaserAlignment.h.

Referenced by beginJob(), endRunProduce(), and produce().

double LaserAlignment::peakFinderThreshold
private

config parameter

Definition at line 153 of file LaserAlignment.h.

Referenced by endRunProduce(), and LaserAlignment().

LASGlobalData<LASModuleProfile> LaserAlignment::pedestalProfiles
private

Definition at line 203 of file LaserAlignment.h.

Referenced by beginJob(), fillPedestalProfiles(), and produce().

TDirectory* LaserAlignment::singleModulesDir
private

Definition at line 234 of file LaserAlignment.h.

Referenced by beginJob().

LASGlobalData<TH1D*> LaserAlignment::summedHistograms
private

Definition at line 223 of file LaserAlignment.h.

Referenced by beginJob(), and endRunProduce().

std::vector<unsigned int> LaserAlignment::tecDoubleHitDetId
private

Definition at line 200 of file LaserAlignment.h.

Referenced by fillDetectorId(), and produce().

AlignableTracker* LaserAlignment::theAlignableTracker
private

Definition at line 242 of file LaserAlignment.h.

Referenced by endRunProduce(), produce(), and ~LaserAlignment().

std::string LaserAlignment::theAlignRecordName
private

Definition at line 244 of file LaserAlignment.h.

Referenced by endRunProduce().

bool LaserAlignment::theApplyBeamKinkCorrections
private

config switch

Definition at line 150 of file LaserAlignment.h.

Referenced by endRunProduce(), and LaserAlignment().

int LaserAlignment::theCompression
private

config parameter (histograms file compression level)

Definition at line 177 of file LaserAlignment.h.

Referenced by beginJob(), and LaserAlignment().

std::vector<edm::ParameterSet> LaserAlignment::theDigiProducersList
private

Definition at line 171 of file LaserAlignment.h.

Referenced by fillDataProfiles().

bool LaserAlignment::theDoPedestalSubtraction
private

config switch

Definition at line 144 of file LaserAlignment.h.

Referenced by LaserAlignment(), and produce().

std::string LaserAlignment::theErrorRecordName
private

Definition at line 244 of file LaserAlignment.h.

Referenced by endRunProduce().

int LaserAlignment::theEvents
private

counter for the total number of events processed

Definition at line 141 of file LaserAlignment.h.

Referenced by endRunProduce(), and produce().

TFile* LaserAlignment::theFile
private

Tree stuff.

Definition at line 233 of file LaserAlignment.h.

Referenced by beginJob(), and ~LaserAlignment().

std::string LaserAlignment::theFileName
private

config parameter (histograms file output name)

Definition at line 180 of file LaserAlignment.h.

Referenced by beginJob(), and LaserAlignment().

edm::ESHandle<Alignments> LaserAlignment::theGlobalPositionRcd
private

Definition at line 239 of file LaserAlignment.h.

Referenced by produce().

LASConstants LaserAlignment::theLasConstants
private

Definition at line 194 of file LaserAlignment.h.

Referenced by endRunProduce().

std::vector<unsigned int> LaserAlignment::theMaskAtModules
private

Definition at line 184 of file LaserAlignment.h.

Referenced by ApplyATMaskingCorrections(), endRunProduce(), and LaserAlignment().

std::vector<unsigned int> LaserAlignment::theMaskTecModules
private

config parameters

Definition at line 183 of file LaserAlignment.h.

Referenced by ApplyEndcapMaskingCorrections(), endRunProduce(), and LaserAlignment().

const edm::ParameterSet LaserAlignment::theParameterSet
private

Definition at line 248 of file LaserAlignment.h.

Referenced by produce().

LASGlobalData<std::string> LaserAlignment::theProfileNames
private

Definition at line 212 of file LaserAlignment.h.

Referenced by beginJob(), and produce().

bool LaserAlignment::theSaveHistograms
private

config switch

Definition at line 174 of file LaserAlignment.h.

Referenced by beginJob(), LaserAlignment(), and ~LaserAlignment().

bool LaserAlignment::theSetNominalStrips
private

config switch

Definition at line 187 of file LaserAlignment.h.

Referenced by endRunProduce(), and LaserAlignment().

bool LaserAlignment::theStoreToDB
private

config switch

Definition at line 168 of file LaserAlignment.h.

Referenced by endRunProduce(), and LaserAlignment().

edm::ESHandle<TrackerGeometry> LaserAlignment::theTrackerGeometry
private

Definition at line 238 of file LaserAlignment.h.

Referenced by endRunProduce(), produce(), and testRoutine().

bool LaserAlignment::theUseMinuitAlgorithm
private

config switch

Definition at line 147 of file LaserAlignment.h.

Referenced by endRunProduce(), and LaserAlignment().

bool LaserAlignment::updateFromInputGeometry
private

config switch

Definition at line 162 of file LaserAlignment.h.

Referenced by endRunProduce(), LaserAlignment(), and produce().