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Mask/include/QQQDetector.h

57 lines
1.9 KiB
C++

/*
QQQDetector.h
Class implementing geometry for QQQDetector where the detector is perpendicular to the beam axis.
Detector is first generated centered on the x-axis (phi=0)
Coordinate convention : +z is downstream, -z is upstream. +y is vertically up in the lab.
*/
#ifndef QQQDETECTOR_H
#define QQQDETECTOR_H
#include <cmath>
#include <vector>
#include <random>
#include "Vec3.h"
#include "Rotation.h"
#include "RandomGenerator.h"
class QQQDetector {
public:
QQQDetector(double R_in, double R_out, double deltaPhi, double phiCentral, double z, double x=0, double y=0);
~QQQDetector();
inline Mask::Vec3 GetRingCoordinates(int ringch, int corner) { return m_ringCoords[ringch][corner]; }
inline Mask::Vec3 GetWedgeCoordinates(int wedgech, int corner) { return m_wedgeCoords[wedgech][corner]; }
inline Mask::Vec3 GetNorm() { return m_norm; }
Mask::Vec3 GetTrajectoryCoordinates(double theta, double phi);
std::pair<int, int> GetTrajectoryRingWedge(double theta, double phi);
Mask::Vec3 GetHitCoordinates(int ringch, int wedgech);
inline void TurnOnRandomizedCoordinates() { rndmFlag = true; }
inline void TurnOffRandomizedCoordinates() { rndmFlag = false; }
inline int GetNumberOfRings() { return nrings; }
inline int GetNumberOfWedges() { return nwedges; }
private:
inline bool CheckChannel(int ch) { return (ch >=0 && ch < nrings); }
inline bool CheckCorner(int corner) { return (corner >=0 && corner < 4); }
void CalculateCorners();
Mask::Vec3 TransformCoordinates(Mask::Vec3& vector) { return m_ZRot*vector + m_translation; }
double m_Rinner, m_Router, m_deltaR, m_deltaPhi, m_deltaPhi_per_wedge, m_phiCentral;
std::vector<std::vector<Mask::Vec3>> m_ringCoords, m_wedgeCoords;
Mask::Vec3 m_translation;
Mask::Vec3 m_norm;
Mask::ZRotation m_ZRot;
std::uniform_real_distribution<double> m_uniform_fraction;
bool rndmFlag;
static constexpr int nrings = 16;
static constexpr int nwedges = 16;
static constexpr double deg2rad = M_PI/180.0;
};
#endif