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WriteESAlignments.cc
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17 
19  const WEA::DVec& alphaVec ,
20  const WEA::DVec& betaVec ,
21  const WEA::DVec& gammaVec ,
22  const WEA::DVec& xtranslVec ,
23  const WEA::DVec& ytranslVec ,
24  const WEA::DVec& ztranslVec )
25 {
26  assert( alphaVec.size() == k_nA ) ;
27  assert( betaVec.size() == k_nA ) ;
28  assert( gammaVec.size() == k_nA ) ;
29  assert( xtranslVec.size() == k_nA ) ;
30  assert( ytranslVec.size() == k_nA ) ;
31  assert( ztranslVec.size() == k_nA ) ;
32 
33  AliPtr aliPtr ( new Alignments ) ;// writeOne will take ownership!
34  AliVec& vali ( aliPtr->m_align ) ;
35 
36  convert( eventSetup ,
37  alphaVec ,
38  betaVec ,
39  gammaVec ,
40  xtranslVec ,
41  ytranslVec ,
42  ztranslVec ,
43  vali ) ;
44 
45  write( aliPtr ) ;
46 }
47 
48 void
50 {
51  std::cout << "Uploading ES alignments to the database" << std::endl ;
52 
54 
55  if (!poolDbService.isAvailable()) throw cms::Exception("NotAvailable")
56  << "PoolDBOutputService not available";
57 
58  poolDbService->writeOne<Alignments>(&(*aliPtr),
59  poolDbService->currentTime(),
60  "ESAlignmentRcd" ) ;
61 }
62 
63 void
65  const WEA::DVec& a ,
66  const WEA::DVec& b ,
67  const WEA::DVec& g ,
68  const WEA::DVec& x ,
69  const WEA::DVec& y ,
70  const WEA::DVec& z ,
71  WEA::AliVec& va )
72 {
74  eS.get<CaloGeometryRecord>().get( pG ) ;
75 
77  pG->getSubdetectorGeometry( DetId::Ecal, EcalPreshower ) ) ;
78 
80  eS.get<ESAlignmentRcd>().get( pA ) ;
81  const AliVec& vaPrev ( pA->m_align ) ;
82 
83  va.reserve( k_nA ) ;
84  for( unsigned int i ( 0 ) ; i != k_nA ; ++i )
85  {
86  // ordering of i is: left, right, left, right,...
87  // starting at ES- rear, then ES- front,
88  // then ES+ front, then ES+ rear
89 
91 
92  const double zPlanePrev ( geom->getGeometry( id )->getPosition().z() ) ;
93  const double zAlignPrev ( vaPrev[i].translation().z() ) ;
94  const Trl q_I ( 0, 0, zPlanePrev - zAlignPrev ) ;
95  const Trl& s_p ( vaPrev[i].translation() ) ;
96  const Trl t_n ( x[i], y[i], z[i] ) ;
97  const Rot G_p ( vaPrev[i].rotation() ) ;
98  const double gamma ( g[i] ) ;
99  const double alpha ( a[i] ) ;
100  const double beta ( b[i] ) ;
101 
102  const Rot L_n ( // New rotation in local frame!
103  Rot( Rot( Rot().rotateZ( -gamma ) ).rotateX( -alpha ) ).rotateY( -beta ) ) ;
104 
105  const Rot InvL_n ( L_n.inverse() ) ;
106 
107  const Rot G_n ( InvL_n * G_p ) ;
108 
109  const Trl s_n ( t_n + s_p + q_I - InvL_n*q_I ) ;
110 
111  std::cout<<"For i = "<<i<<", q_I="<<q_I<<std::endl ;
112  std::cout<<"For i = "<<i<<", s_p="<<s_p<<std::endl ;
113  std::cout<<"For i = "<<i<<", alpha = "<<1000.*alpha<<" mr"<<std::endl;
114  std::cout<<"For i = "<<i<<", beta = "<<1000.*beta <<" mr"<<std::endl;
115  std::cout<<"For i = "<<i<<", gamma = "<<1000.*gamma<<" mr"<<std::endl;
116  std::cout<<" For i = "<<i<<", L_n = "<< L_n
117  <<" Euler angles="<<InvL_n.eulerAngles()<<"\n"<<std::endl;
118  std::cout<<"For i = "<<i<<", t_n="<<t_n<<std::endl ;
119  std::cout<<"For i = "<<i<<", G_p="<<G_p
120  <<" Euler angles="<<G_p.eulerAngles()<<"\n"<<std::endl ;
121  std::cout<<" For i = "<<i<<", InvL_n = "<< InvL_n
122  <<" Euler angles="<<InvL_n.eulerAngles()<<"\n"<<std::endl;
123  std::cout<<" For i ="<<i<<", G_n = "<< G_n
124  <<" Euler angles="<<G_n.eulerAngles()<<"\n"<<std::endl;
125  std::cout<<" For i ="<<i<<", s_n = "<< s_n<<std::endl;
126  std::cout<<"++++++++++++++++++++++++++\n\n"<<std::endl;
127 
128  va.push_back( AlignTransform( s_n, G_n, id ) ) ;
129  }
130 }
AlignTransform::Rotation Rot
const double beta
int i
Definition: DBlmapReader.cc:9
AlignTransform::Translation Trl
float alpha
Definition: AMPTWrapper.h:95
std::vector< AlignTransform > AliVec
void write(AliPtr aliPtr)
WriteESAlignments WEA
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 g
Definition: Activities.doc:4
float float float z
WriteESAlignments(const edm::EventSetup &eventSetup, const DVec &alphaVec, const DVec &betaVec, const DVec &gammaVec, const DVec &xtranslVec, const DVec &ytranslVec, const DVec &ztranslVec)
static DetId detIdFromLocalAlignmentIndex(unsigned int iLoc)
bool isAvailable() const
Definition: Service.h:47
void writeOne(T *payload, Time_t time, const std::string &recordName, bool withlogging=false)
static unsigned int numberOfAlignments()
const T & get() const
Definition: EventSetup.h:55
double b
Definition: hdecay.h:120
static const unsigned int k_nA
double a
Definition: hdecay.h:121
tuple cout
Definition: gather_cfg.py:121
Definition: DDAxes.h:10
std::vector< double > DVec
void convert(const edm::EventSetup &eS, const DVec &a, const DVec &b, const DVec &g, const DVec &x, const DVec &y, const DVec &z, AliVec &va)