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RegionalMuonCand.h
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1 #ifndef __l1t_regional_muon_candidate_h__
2 #define __l1t_regional_muon_candidate_h__
3 
4 #include "RegionalMuonCandFwd.h"
5 #include <map>
6 
7 namespace l1t {
9  public:
12  enum bmtfAddress {
14  };
17  enum emtfAddress {
19  };
20 
21 
23 
26  {
28  };
29 
30  RegionalMuonCand(int pt, int phi, int eta, int sign, int signvalid, int quality, int processor, tftype trackFinder) :
31  m_hwPt(pt), m_hwPhi(phi), m_hwEta(eta), m_hwHF(false), m_hwSign(sign), m_hwSignValid(signvalid), m_hwQuality(quality),
32  m_dataword(0)
33  {
34  setTFIdentifiers(processor, trackFinder);
35  };
36 
37  virtual ~RegionalMuonCand() {};
38 
40  void setHwPt(int bits) { m_hwPt = bits; };
42  void setHwPhi(int bits) { m_hwPhi = bits; };
44  void setHwEta(int bits) { m_hwEta = bits; };
46  void setHwSign(int bits) { m_hwSign = bits; };
50  void setHwQual(int bits) { m_hwQuality = bits; };
52  void setHwHF(bool bit) { m_hwHF = bit; };
54  void setTFIdentifiers(int processor, tftype trackFinder);
55  // this is left to still be compatible with OMTF
56  void setLink(int link) {m_link = link; };
57  // Set the 64 bit word from two 32 words. bits 0-31->lsbs, bits 32-63->msbs
58  void setDataword(uint32_t msbs, uint32_t lsbs) { m_dataword = (((uint64_t)msbs) << 32) + lsbs; };
59  // Set the 64 bit word coming from HW directly
62  void setTrackSubAddress(bmtfAddress subAddress, int value) {
63  m_trackAddress[subAddress] = value;
64  }
66  void setTrackSubAddress(emtfAddress subAddress, int value) {
67  m_trackAddress[subAddress] = value;
68  }
70  void setTrackAddress(const std::map<int, int>& address) {
71  m_trackAddress = address;
72  }
73 
74 
76  const int hwPt() const { return m_hwPt; };
78  const int hwPhi() const { return m_hwPhi; };
80  const int hwEta() const { return m_hwEta; };
82  const int hwSign() const { return m_hwSign; };
84  const int hwSignValid() const { return m_hwSignValid; };
86  const int hwQual() const { return m_hwQuality; };
88  const int link() const { return m_link; };
90  const int processor() const { return m_processor; };
92  const tftype trackFinderType() const { return m_trackFinder; };
94  const int hwHF() const { return m_hwHF; };
96  const uint64_t dataword() const { return m_dataword; };
98  const uint32_t dataword32Msb() const { return (uint32_t)((m_dataword >> 32) & 0xFFFFFFFF); };
100  const uint32_t dataword32Lsb() const { return (uint32_t)(m_dataword & 0xFFFFFFFF); };
102  const std::map<int, int>& trackAddress() const {
103  return m_trackAddress;
104  }
106  int trackSubAddress(bmtfAddress subAddress) const {
107  return m_trackAddress.at(subAddress);
108  }
110  int trackSubAddress(emtfAddress subAddress) const {
111  return m_trackAddress.at(subAddress);
112  }
113 
114 
115  private:
116  int m_hwPt;
117  int m_hwPhi;
118  int m_hwEta;
119  bool m_hwHF;
120  int m_hwSign;
123  int m_link;
126  std::map<int, int> m_trackAddress;
127 
130 
131 };
132 
133 }
134 
135 #endif /* define __l1t_regional_muon_candidate_h__ */
void setLink(int link)
void setHwPhi(int bits)
Set compressed relative phi as transmitted by hardware LSB = 2*pi/576 (8 bits)
const uint32_t dataword32Msb() const
Get 32 MSBs of data word.
const int hwSignValid() const
Get charge sign valid bit (0 - not valid (high pT muon); 1 - valid)
void setTrackSubAddress(emtfAddress subAddress, int value)
Set a part of the muon candidates track address; specialised for EMTF.
How EventSelector::AcceptEvent() decides whether to accept an event for output otherwise it is excluding the probing of A single or multiple positive and the trigger will pass if any such matching triggers are PASS or EXCEPTION[A criterion thatmatches no triggers at all is detected and causes a throw.] A single negative with an expectation of appropriate bit checking in the decision bits
std::map< int, int > m_trackAddress
delete x;
Definition: CaloConfig.h:22
void setTrackAddress(const std::map< int, int > &address)
Set the whole track address.
const int hwQual() const
Get quality code.
int trackSubAddress(emtfAddress subAddress) const
Get part of track address (identifies track primitives used for reconstruction)
void setTFIdentifiers(int processor, tftype trackFinder)
Set the processor ID, track-finder type. From these two, the link is set.
void setTrackSubAddress(bmtfAddress subAddress, int value)
Set a part of the muon candidates track address; specialised for BMTF.
const int hwHF() const
Get HF (halo / fine eta) bit (EMTF: halo -> 1; BMTF: fine eta -> 1)
void setDataword(uint32_t msbs, uint32_t lsbs)
void setHwHF(bool bit)
Set HF (halo / fine eta) bit (EMTF: halo -> 1; BMTF: fine eta -> 1)
void setDataword(uint64_t bits)
const int hwEta() const
Get compressed eta (returned int * 0.010875 = eta)
Definition: value.py:1
const std::map< int, int > & trackAddress() const
Get the track address (identifies track primitives used for reconstruction)
const int hwPhi() const
Get compressed local phi (returned int * 2*pi/576 = local phi in rad)
RegionalMuonCand(int pt, int phi, int eta, int sign, int signvalid, int quality, int processor, tftype trackFinder)
const int link() const
Get link on which the MicroGMT receives the candidate.
const tftype trackFinderType() const
Get track-finder which found the muon (bmtf, emtf_pos/emtf_neg or omtf_pos/omtf_neg) ...
void setHwQual(int bits)
Set compressed quality code as transmitted by hardware (4 bits)
void setHwPt(int bits)
Set compressed pT as transmitted by hardware LSB = 0.5 (9 bits)
void setHwEta(int bits)
Set compressed eta as transmitted by hardware LSB = 0.010875 (9 bits)
const int processor() const
Get processor ID on which the candidate was found (0..5 for OMTF/EMTF; 0..11 for BMTF) ...
unsigned long long uint64_t
Definition: Time.h:15
int trackSubAddress(bmtfAddress subAddress) const
Get part of track address (identifies track primitives used for reconstruction)
const int hwPt() const
Get compressed pT (returned int * 0.5 = pT (GeV))
const uint64_t dataword() const
Get 64 bit data word.
const int hwSign() const
Get charge sign bit (charge = (-1)^(sign))
void setHwSignValid(int bits)
Set whether charge measurement is valid (0 for high pT muons)
uint64_t m_dataword
This is the 64 bit word as transmitted in HW.
const uint32_t dataword32Lsb() const
Get 32 LSBs of data word.
void setHwSign(int bits)
Set charge sign bit (charge = (-1)^(sign))