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 ) ;
34 AliVec& vali ( aliPtr->m_align ) ;
51 std::cout <<
"Uploading ES alignments to the database" << std::endl ;
56 <<
"PoolDBOutputService not available";
81 const AliVec& vaPrev ( pA->m_align ) ;
84 for(
unsigned int i ( 0 ) ;
i !=
k_nA ; ++
i )
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] ) ;
98 const double gamma ( g[i] ) ;
99 const double alpha ( a[i] ) ;
100 const double beta ( b[i] ) ;
103 Rot(
Rot(
Rot().rotateZ( -gamma ) ).rotateX( -alpha ) ).rotateY( -beta ) ) ;
105 const Rot InvL_n ( L_n.inverse() ) ;
107 const Rot G_n ( InvL_n * G_p ) ;
109 const Trl s_n ( t_n + s_p + q_I - InvL_n*q_I ) ;
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 ;
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;
AlignTransform::Rotation Rot
AlignTransform::Translation Trl
std::vector< AlignTransform > AliVec
void write(AliPtr aliPtr)
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
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)
void writeOne(T *payload, Time_t time, const std::string &recordName, bool withlogging=false)
static unsigned int numberOfAlignments()
static const unsigned int k_nA
cond::Time_t currentTime() const
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)