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LHCInterpolatedOpticalFunctionsSet.cc
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1 // Original Author: Jan Kašpar
2 
4 
5 //----------------------------------------------------------------------------------------------------
6 
8  const unsigned int num_xi_vals = m_xi_values.size();
9 
10  m_splines.resize(m_fcn_values.size());
11  for (unsigned int i = 0; i < m_fcn_values.size(); ++i)
12  m_splines[i] = std::make_shared<TSpline3>("", m_xi_values.data(), m_fcn_values[i].data(), num_xi_vals);
13 }
14 
15 //----------------------------------------------------------------------------------------------------
16 
19  bool calculateAngles) const {
20  const double xi = input.xi;
21 
22  output.x = m_splines[exd]->Eval(xi) + m_splines[evx]->Eval(xi) * input.x + m_splines[eLx]->Eval(xi) * input.th_x +
23  m_splines[e14]->Eval(xi) * input.th_y;
24 
25  output.th_x = (!calculateAngles) ? 0.
26  : m_splines[expd]->Eval(xi) + m_splines[evpx]->Eval(xi) * input.x +
27  m_splines[eLpx]->Eval(xi) * input.th_x + m_splines[e24]->Eval(xi) * input.th_y;
28 
29  output.y = m_splines[eyd]->Eval(xi) + m_splines[evy]->Eval(xi) * input.y + m_splines[eLy]->Eval(xi) * input.th_y +
30  m_splines[e32]->Eval(xi) * input.th_x;
31 
32  output.th_y = (!calculateAngles) ? 0.
33  : m_splines[eypd]->Eval(xi) + m_splines[evpy]->Eval(xi) * input.y +
34  m_splines[eLpy]->Eval(xi) * input.th_y + m_splines[e42]->Eval(xi) * input.th_x;
35 
36  output.xi = input.xi;
37 }
static std::string const input
Definition: EdmProvDump.cc:47
std::vector< std::shared_ptr< const TSpline3 > > m_splines
std::vector< double > m_xi_values
void initializeSplines()
builds splines from m_*_values fields
void transport(const Kinematics &input, Kinematics &output, bool calculateAngles=false) const
transports proton according to the splines
std::vector< std::vector< double > > m_fcn_values
length unit cm