AlignableCSCEndcap.cc

CMSSW/Alignment/MuonAlignment/src/AlignableCSCEndcap.cc

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1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 51 52 53 54 55 56 57 58 59 60 61 62 63 64 65 66 67 68 69 70 71 72 73 74 75 76 77 78 79 80 81 82 83 84 85 86 87 88 89 90 91 92 93 94 95 96 97 98 99 100 101 102 103 104 105 106 107 108 109 110 111 112 113	`/** \file` `` ` $Date: 2008/04/10 16:36:41 $` `* $Revision: 1.7 $` `* \author Andre Sznajder - UERJ(Brazil)` `/` `#include <memory>` `#include "Alignment/MuonAlignment/interface/AlignableCSCEndcap.h"` `#include "CondFormats/Alignment/interface/Alignments.h"` `#include "CondFormats/Alignment/interface/AlignmentErrorsExtended.h"` `#include "FWCore/MessageLogger/interface/MessageLogger.h"` `/// The constructor simply copies the vector of stations and computes the surface from them` `AlignableCSCEndcap::AlignableCSCEndcap(const std::vector<AlignableCSCStation>& cscStations)` `: AlignableComposite(cscStations[0]->id(), align::AlignableCSCEndcap) {` `theCSCStations.insert(theCSCStations.end(), cscStations.begin(), cscStations.end());` `// maintain also list of components` `for (const auto& station : cscStations) {` `const auto mother = station->mother();` `this->addComponent(station); // components will be deleted by dtor of AlignableComposite` `station->setMother(mother); // restore previous behaviour where mother is not set` `}` `setSurface(computeSurface());` `compConstraintType_ = Alignable::CompConstraintType::POSITION_Z;` `}` `/// Return AlignableCSCEndcap station at given index` `AlignableCSCStation& AlignableCSCEndcap::station(int i) {` `if (i >= size())` `throw cms::Exception("LogicError") << "Station index (" << i << ") out of range";` `return theCSCStations[i];` `}` `/// Returns surface corresponding to current position` `/// and orientation, as given by average on all components` `AlignableSurface AlignableCSCEndcap::computeSurface() {` `return AlignableSurface(computePosition(), computeOrientation());` `}` `/// Compute average z position from all components (x and y forced to 0)` `AlignableCSCEndcap::PositionType AlignableCSCEndcap::computePosition() {` `float zz = 0.;` `for (std::vector<AlignableCSCStation>::iterator ilayer = theCSCStations.begin(); ilayer != theCSCStations.end();` `ilayer++)` `zz += (ilayer)->globalPosition().z();` `zz /= static_cast<float>(theCSCStations.size());` `return PositionType(0.0, 0.0, zz);` `}` `/// Just initialize to default given by default constructor of a RotationType` `AlignableCSCEndcap::RotationType AlignableCSCEndcap::computeOrientation() { return RotationType(); }` `/// Output Half Barrel information` `std::ostream& operator<<(std::ostream& os, const AlignableCSCEndcap& b) {` `os << "This EndCap contains " << b.theCSCStations.size() << " CSC stations" << std::endl;` `os << "(phi, r, z) = (" << b.globalPosition().phi() << "," << b.globalPosition().perp() << ","` `<< b.globalPosition().z();` `os << "), orientation:" << std::endl << b.globalRotation() << std::endl;` `return os;` `}` `/// Recursive printout of whole Half Barrel structure` `void AlignableCSCEndcap::dump(void) const {` `edm::LogInfo("AlignableDump") << (this);` `for (std::vector<AlignableCSCStation>::const_iterator iLayer = theCSCStations.begin();` `iLayer != theCSCStations.end();` `iLayer++)` `(iLayer)->dump();` `}` `//__________________________________________________________________________________________________` `Alignments* AlignableCSCEndcap::alignments(void) const {` `Alignments* m_alignments = new Alignments();` `// Add components recursively` `for (const auto& i : this->components()) {` `std::unique_ptr<Alignments> tmpAlignments{i->alignments()};` `std::copy(tmpAlignments->m_align.begin(), tmpAlignments->m_align.end(), std::back_inserter(m_alignments->m_align));` `}` `// sort by rawId` `std::sort(m_alignments->m_align.begin(), m_alignments->m_align.end());` `return m_alignments;` `}` `//__________________________________________________________________________________________________` `AlignmentErrorsExtended* AlignableCSCEndcap::alignmentErrors(void) const {` `AlignmentErrorsExtended* m_alignmentErrors = new AlignmentErrorsExtended();` `// Add components recursively` `for (const auto& i : this->components()) {` `std::unique_ptr<AlignmentErrorsExtended> tmpAlignmentErrorsExtended{i->alignmentErrors()};` `std::copy(tmpAlignmentErrorsExtended->m_alignError.begin(),` `tmpAlignmentErrorsExtended->m_alignError.end(),` `std::back_inserter(m_alignmentErrors->m_alignError));` `}` `// sort by rawId` `std::sort(m_alignmentErrors->m_alignError.begin(), m_alignmentErrors->m_alignError.end());` `return m_alignmentErrors;` `}`

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/** \file
 *
 *  $Date: 2008/04/10 16:36:41 $
 *  $Revision: 1.7 $
 *  \author Andre Sznajder - UERJ(Brazil)
 */

#include <memory>

#include "Alignment/MuonAlignment/interface/AlignableCSCEndcap.h"
#include "CondFormats/Alignment/interface/Alignments.h"
#include "CondFormats/Alignment/interface/AlignmentErrorsExtended.h"
#include "FWCore/MessageLogger/interface/MessageLogger.h"

/// The constructor simply copies the vector of stations and computes the surface from them
AlignableCSCEndcap::AlignableCSCEndcap(const std::vector<AlignableCSCStation*>& cscStations)
    : AlignableComposite(cscStations[0]->id(), align::AlignableCSCEndcap) {
  theCSCStations.insert(theCSCStations.end(), cscStations.begin(), cscStations.end());

  // maintain also list of components
  for (const auto& station : cscStations) {
    const auto mother = station->mother();
    this->addComponent(station);  // components will be deleted by dtor of AlignableComposite
    station->setMother(mother);   // restore previous behaviour where mother is not set
  }

  setSurface(computeSurface());
  compConstraintType_ = Alignable::CompConstraintType::POSITION_Z;
}

/// Return AlignableCSCEndcap station at given index
AlignableCSCStation& AlignableCSCEndcap::station(int i) {
  if (i >= size())
    throw cms::Exception("LogicError") << "Station index (" << i << ") out of range";

  return *theCSCStations[i];
}

/// Returns surface corresponding to current position
/// and orientation, as given by average on all components
AlignableSurface AlignableCSCEndcap::computeSurface() {
  return AlignableSurface(computePosition(), computeOrientation());
}

/// Compute average z position from all components (x and y forced to 0)
AlignableCSCEndcap::PositionType AlignableCSCEndcap::computePosition() {
  float zz = 0.;

  for (std::vector<AlignableCSCStation*>::iterator ilayer = theCSCStations.begin(); ilayer != theCSCStations.end();
       ilayer++)
    zz += (*ilayer)->globalPosition().z();

  zz /= static_cast<float>(theCSCStations.size());

  return PositionType(0.0, 0.0, zz);
}

/// Just initialize to default given by default constructor of a RotationType
AlignableCSCEndcap::RotationType AlignableCSCEndcap::computeOrientation() { return RotationType(); }

/// Output Half Barrel information
std::ostream& operator<<(std::ostream& os, const AlignableCSCEndcap& b) {
  os << "This EndCap contains " << b.theCSCStations.size() << " CSC stations" << std::endl;
  os << "(phi, r, z) =  (" << b.globalPosition().phi() << "," << b.globalPosition().perp() << ","
     << b.globalPosition().z();
  os << "),  orientation:" << std::endl << b.globalRotation() << std::endl;
  return os;
}

/// Recursive printout of whole Half Barrel structure
void AlignableCSCEndcap::dump(void) const {
  edm::LogInfo("AlignableDump") << (*this);
  for (std::vector<AlignableCSCStation*>::const_iterator iLayer = theCSCStations.begin();
       iLayer != theCSCStations.end();
       iLayer++)
    (*iLayer)->dump();
}

//__________________________________________________________________________________________________

Alignments* AlignableCSCEndcap::alignments(void) const {
  Alignments* m_alignments = new Alignments();

  // Add components recursively
  for (const auto& i : this->components()) {
    std::unique_ptr<Alignments> tmpAlignments{i->alignments()};
    std::copy(tmpAlignments->m_align.begin(), tmpAlignments->m_align.end(), std::back_inserter(m_alignments->m_align));
  }

  // sort by rawId
  std::sort(m_alignments->m_align.begin(), m_alignments->m_align.end());

  return m_alignments;
}

//__________________________________________________________________________________________________

AlignmentErrorsExtended* AlignableCSCEndcap::alignmentErrors(void) const {
  AlignmentErrorsExtended* m_alignmentErrors = new AlignmentErrorsExtended();

  // Add components recursively
  for (const auto& i : this->components()) {
    std::unique_ptr<AlignmentErrorsExtended> tmpAlignmentErrorsExtended{i->alignmentErrors()};
    std::copy(tmpAlignmentErrorsExtended->m_alignError.begin(),
              tmpAlignmentErrorsExtended->m_alignError.end(),
              std::back_inserter(m_alignmentErrors->m_alignError));
  }

  // sort by rawId
  std::sort(m_alignmentErrors->m_alignError.begin(), m_alignmentErrors->m_alignError.end());

  return m_alignmentErrors;
}