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PrimitiveSelection Class Reference

#include <PrimitiveSelection.h>

Public Member Functions

void configure (int verbose, int endcap, int sector, int bx, int bxShiftCSC, int bxShiftRPC, int bxShiftGEM, int bxShiftME0, bool includeNeighbor, bool duplicateTheta, bool bugME11Dupes, bool useRun3CCLUT_OTMB, bool useRun3CCLUT_TMB)
 
int get_index_csc (int tp_endcap, int tp_sector, int tp_subsector, int tp_station, int tp_csc_ID, int tp_bx) const
 
int get_index_dt (int tp_endcap, int csc_tp_sector, int tp_subsector, int tp_station, int tp_csc_ID, int tp_bx) const
 
int get_index_gem (int tp_endcap, int tp_sector, int tp_subsector, int tp_station, int tp_csc_ID, int tp_bx) const
 
int get_index_me0 (int tp_endcap, int tp_sector, int tp_subsector, int tp_station, int tp_csc_ID, int tp_pad, int tp_bx) const
 
int get_index_rpc (int tp_endcap, int tp_station, int tp_ring, int tp_sector, int tp_subsector, int tp_bx) const
 
bool is_in_bx_csc (int tp_bx) const
 
bool is_in_bx_dt (int tp_bx) const
 
bool is_in_bx_gem (int tp_bx) const
 
bool is_in_bx_me0 (int tp_bx) const
 
bool is_in_bx_rpc (int tp_bx) const
 
bool is_in_neighbor_sector_csc (int tp_endcap, int tp_sector, int tp_subsector, int tp_station, int tp_csc_ID) const
 
bool is_in_neighbor_sector_dt (int tp_endcap, int tp_sector, int tp_csc_ID) const
 
bool is_in_neighbor_sector_gem (int tp_endcap, int tp_sector, int tp_subsector, int tp_station, int tp_csc_ID) const
 
bool is_in_neighbor_sector_me0 (int tp_endcap, int tp_sector, int tp_csc_ID, int tp_pad) const
 
bool is_in_neighbor_sector_rpc (int tp_endcap, int tp_station, int tp_ring, int tp_sector, int tp_subsector) const
 
bool is_in_sector_csc (int tp_endcap, int tp_sector) const
 
bool is_in_sector_dt (int tp_endcap, int tp_sector) const
 
bool is_in_sector_gem (int tp_endcap, int tp_sector) const
 
bool is_in_sector_me0 (int tp_endcap, int tp_sector, int tp_csc_ID, int tp_pad) const
 
bool is_in_sector_rpc (int tp_endcap, int tp_station, int tp_ring, int tp_sector, int tp_subsector) const
 
void merge (const std::map< int, TriggerPrimitiveCollection > &selected_dt_map, const std::map< int, TriggerPrimitiveCollection > &selected_csc_map, const std::map< int, TriggerPrimitiveCollection > &selected_rpc_map, const std::map< int, TriggerPrimitiveCollection > &selected_gem_map, const std::map< int, TriggerPrimitiveCollection > &selected_me0_map, std::map< int, TriggerPrimitiveCollection > &selected_prim_map) const
 
void merge_no_truncate (const std::map< int, TriggerPrimitiveCollection > &selected_dt_map, const std::map< int, TriggerPrimitiveCollection > &selected_csc_map, const std::map< int, TriggerPrimitiveCollection > &selected_rpc_map, const std::map< int, TriggerPrimitiveCollection > &selected_gem_map, const std::map< int, TriggerPrimitiveCollection > &selected_me0_map, std::map< int, TriggerPrimitiveCollection > &selected_prim_map) const
 
template<typename T >
void process (T tag, const TriggerPrimitiveCollection &muon_primitives, std::map< int, TriggerPrimitiveCollection > &selected_prim_map) const
 
template<>
void process (emtf::CSCTag tag, const TriggerPrimitiveCollection &muon_primitives, std::map< int, TriggerPrimitiveCollection > &selected_csc_map) const
 
template<>
void process (emtf::RPCTag tag, const TriggerPrimitiveCollection &muon_primitives, std::map< int, TriggerPrimitiveCollection > &selected_rpc_map) const
 
template<>
void process (emtf::GEMTag tag, const TriggerPrimitiveCollection &muon_primitives, std::map< int, TriggerPrimitiveCollection > &selected_gem_map) const
 
template<>
void process (emtf::ME0Tag tag, const TriggerPrimitiveCollection &muon_primitives, std::map< int, TriggerPrimitiveCollection > &selected_me0_map) const
 
template<>
void process (emtf::DTTag tag, const TriggerPrimitiveCollection &muon_primitives, std::map< int, TriggerPrimitiveCollection > &selected_dt_map) const
 
int select_csc (const TriggerPrimitive &muon_primitive) const
 
int select_dt (const TriggerPrimitive &muon_primitive) const
 
int select_gem (const TriggerPrimitive &muon_primitive) const
 
int select_me0 (const TriggerPrimitive &muon_primitive) const
 
int select_rpc (const TriggerPrimitive &muon_primitive) const
 

Private Attributes

bool bugME11Dupes_
 
int bx_
 
int bxShiftCSC_
 
int bxShiftGEM_
 
int bxShiftME0_
 
int bxShiftRPC_
 
bool duplicateTheta_
 
int endcap_
 
bool includeNeighbor_
 
int sector_
 
bool useRun3CCLUT_OTMB_
 
bool useRun3CCLUT_TMB_
 
int verbose_
 

Detailed Description

Definition at line 6 of file PrimitiveSelection.h.

Member Function Documentation

◆ configure()

void PrimitiveSelection::configure ( int  verbose,
int  endcap,
int  sector,
int  bx,
int  bxShiftCSC,
int  bxShiftRPC,
int  bxShiftGEM,
int  bxShiftME0,
bool  includeNeighbor,
bool  duplicateTheta,
bool  bugME11Dupes,
bool  useRun3CCLUT_OTMB,
bool  useRun3CCLUT_TMB 
)

Definition at line 18 of file PrimitiveSelection.cc.

References bugME11Dupes_, nano_mu_digi_cff::bx, bx_, bxShiftCSC_, bxShiftGEM_, bxShiftME0_, bxShiftRPC_, duplicateTheta_, makeMuonMisalignmentScenario::endcap, endcap_, includeNeighbor_, nano_mu_digi_cff::sector, sector_, useRun3CCLUT_OTMB_, useRun3CCLUT_TMB_, verbose, and verbose_.

Referenced by SectorProcessor::process_single_bx().

30  {
31  verbose_ = verbose;
32  endcap_ = endcap;
33  sector_ = sector;
34  bx_ = bx;
35 
36  bxShiftCSC_ = bxShiftCSC;
37  bxShiftRPC_ = bxShiftRPC;
38  bxShiftGEM_ = bxShiftGEM;
39  bxShiftME0_ = bxShiftME0;
40 
41  includeNeighbor_ = includeNeighbor;
42  duplicateTheta_ = duplicateTheta;
43  bugME11Dupes_ = bugME11Dupes;
44 
45  // Run 3 CCLUT algorithm
46  useRun3CCLUT_OTMB_ = useRun3CCLUT_OTMB;
47  useRun3CCLUT_TMB_ = useRun3CCLUT_TMB;
48 }
bool verbose

◆ get_index_csc()

int PrimitiveSelection::get_index_csc ( int  tp_endcap,
int  tp_sector,
int  tp_subsector,
int  tp_station,
int  tp_csc_ID,
int  tp_bx 
) const

Definition at line 726 of file PrimitiveSelection.cc.

References emtf_assert, is_in_bx_csc(), is_in_neighbor_sector_csc(), and is_in_sector_csc().

Referenced by select_csc().

727  {
728  int selected = -1;
729 
730  bool is_native = false;
731  bool is_neighbor = false;
732  if (is_in_bx_csc(tp_bx)) {
733  if (is_in_sector_csc(tp_endcap, tp_sector)) {
734  is_native = true;
735  } else if (is_in_neighbor_sector_csc(tp_endcap, tp_sector, tp_subsector, tp_station, tp_csc_ID)) {
736  is_neighbor = true;
737  }
738  }
739  if (!is_native && !is_neighbor)
740  return selected;
741 
742  if (!is_neighbor) {
743  if (tp_station == 1) { // ME1: 0 - 8, 9 - 17
744  selected = (tp_subsector - 1) * 9 + (tp_csc_ID - 1);
745  } else { // ME2,3,4: 18 - 26, 27 - 35, 36 - 44
746  selected = (tp_station)*9 + (tp_csc_ID - 1);
747  }
748 
749  } else {
750  if (tp_station == 1) { // ME1n: 45 - 47
751  selected = (5) * 9 + (tp_csc_ID - 1) / 3;
752  } else { // ME2n,3n,4n: 48 - 53
753  selected = (5) * 9 + (tp_station)*2 - 1 + (tp_csc_ID - 1 < 3 ? 0 : 1);
754  }
755  }
756  emtf_assert(selected != -1);
757  return selected;
758 }
bool is_in_neighbor_sector_csc(int tp_endcap, int tp_sector, int tp_subsector, int tp_station, int tp_csc_ID) const
bool is_in_sector_csc(int tp_endcap, int tp_sector) const
bool is_in_bx_csc(int tp_bx) const
#define emtf_assert(expr)
Definition: DebugTools.h:18

◆ get_index_dt()

int PrimitiveSelection::get_index_dt ( int  tp_endcap,
int  csc_tp_sector,
int  tp_subsector,
int  tp_station,
int  tp_csc_ID,
int  tp_bx 
) const

Definition at line 1221 of file PrimitiveSelection.cc.

References emtf_assert, is_in_bx_dt(), is_in_neighbor_sector_dt(), and is_in_sector_dt().

Referenced by select_dt().

1222  {
1223  int selected = -1;
1224 
1225  bool is_native = false;
1226  bool is_neighbor = false;
1227  if (is_in_bx_dt(tp_bx)) {
1228  if (is_in_sector_dt(tp_endcap, csc_tp_sector)) {
1229  is_native = true;
1230  } else if (is_in_neighbor_sector_dt(tp_endcap, csc_tp_sector, tp_csc_ID)) {
1231  is_neighbor = true;
1232  }
1233  }
1234  if (!is_native && !is_neighbor)
1235  return selected;
1236 
1237  if (!is_neighbor) { // MB1,2,3,4: 0-7
1238  selected = (tp_station - 1) * 2 + (tp_csc_ID - 6) / 3; // tp_csc_ID should be either 6 or 9
1239  } else { // ME1,2,3,4n: 8-11
1240  selected = 8 + (tp_station - 1);
1241  }
1242  emtf_assert(selected != -1);
1243  return selected;
1244 }
bool is_in_neighbor_sector_dt(int tp_endcap, int tp_sector, int tp_csc_ID) const
#define emtf_assert(expr)
Definition: DebugTools.h:18
bool is_in_sector_dt(int tp_endcap, int tp_sector) const
bool is_in_bx_dt(int tp_bx) const

◆ get_index_gem()

int PrimitiveSelection::get_index_gem ( int  tp_endcap,
int  tp_sector,
int  tp_subsector,
int  tp_station,
int  tp_csc_ID,
int  tp_bx 
) const

Definition at line 974 of file PrimitiveSelection.cc.

References emtf_assert, is_in_bx_gem(), is_in_neighbor_sector_gem(), and is_in_sector_gem().

Referenced by select_gem().

975  {
976  int selected = -1;
977 
978  bool is_native = false;
979  bool is_neighbor = false;
980  if (is_in_bx_gem(tp_bx)) {
981  if (is_in_sector_gem(tp_endcap, tp_sector)) {
982  is_native = true;
983  } else if (is_in_neighbor_sector_gem(tp_endcap, tp_sector, tp_subsector, tp_station, tp_csc_ID)) {
984  is_neighbor = true;
985  }
986  }
987  if (!is_native && !is_neighbor)
988  return selected;
989 
990  if (!is_neighbor) {
991  if (tp_station == 1) { // GE1/1: 0 - 5
992  selected = (tp_subsector - 1) * 3 + (tp_csc_ID - 1);
993  } else { // GE2/1: 6 - 8
994  selected = 6 + (tp_csc_ID - 1);
995  }
996 
997  } else {
998  if (tp_station == 1) { // GE1/1n: 12
999  selected = 12;
1000  } else { // GE2/1n: 13
1001  selected = 13;
1002  }
1003  }
1004  emtf_assert(selected != -1);
1005  return selected;
1006 }
bool is_in_bx_gem(int tp_bx) const
bool is_in_sector_gem(int tp_endcap, int tp_sector) const
bool is_in_neighbor_sector_gem(int tp_endcap, int tp_sector, int tp_subsector, int tp_station, int tp_csc_ID) const
#define emtf_assert(expr)
Definition: DebugTools.h:18

◆ get_index_me0()

int PrimitiveSelection::get_index_me0 ( int  tp_endcap,
int  tp_sector,
int  tp_subsector,
int  tp_station,
int  tp_csc_ID,
int  tp_pad,
int  tp_bx 
) const

Definition at line 1124 of file PrimitiveSelection.cc.

References emtf_assert, is_in_bx_me0(), is_in_neighbor_sector_me0(), and is_in_sector_me0().

Referenced by select_me0().

1125  {
1126  int selected = -1;
1127 
1128  bool is_native = false;
1129  bool is_neighbor = false;
1130  if (is_in_bx_me0(tp_bx)) {
1131  if (is_in_sector_me0(tp_endcap, tp_sector, tp_csc_ID, tp_pad)) {
1132  is_native = true;
1133  } else if (is_in_neighbor_sector_me0(tp_endcap, tp_sector, tp_csc_ID, tp_pad)) {
1134  is_neighbor = true;
1135  }
1136  }
1137  if (!is_native && !is_neighbor)
1138  return selected;
1139 
1140  if (!is_neighbor) { // ME0: 9 - 11
1141  selected = 9 + (tp_csc_ID - 1);
1142  } else { // ME0n: 14
1143  selected = 14;
1144  }
1145  emtf_assert(selected != -1);
1146  return selected;
1147 }
bool is_in_bx_me0(int tp_bx) const
#define emtf_assert(expr)
Definition: DebugTools.h:18
bool is_in_sector_me0(int tp_endcap, int tp_sector, int tp_csc_ID, int tp_pad) const
bool is_in_neighbor_sector_me0(int tp_endcap, int tp_sector, int tp_csc_ID, int tp_pad) const

◆ get_index_rpc()

int PrimitiveSelection::get_index_rpc ( int  tp_endcap,
int  tp_station,
int  tp_ring,
int  tp_sector,
int  tp_subsector,
int  tp_bx 
) const

Definition at line 852 of file PrimitiveSelection.cc.

References emtf_assert, is_in_bx_rpc(), is_in_neighbor_sector_rpc(), and is_in_sector_rpc().

Referenced by select_rpc().

853  {
854  int selected = -1;
855 
856  bool is_native = false;
857  bool is_neighbor = false;
858  if (is_in_bx_rpc(tp_bx)) {
859  if (is_in_sector_rpc(tp_endcap, tp_station, tp_ring, tp_sector, tp_subsector)) {
860  is_native = true;
861  } else if (is_in_neighbor_sector_rpc(tp_endcap, tp_station, tp_ring, tp_sector, tp_subsector)) {
862  is_neighbor = true;
863  }
864  }
865  if (!is_native && !is_neighbor)
866  return selected;
867 
868  // CPPF RX data come in 3 frames x 64 bits, for 7 links. Each 64-bit data
869  // carry 2 words of 32 bits. Each word carries phi (11 bits) and theta (5 bits)
870  // of 2 segments (x2).
871  //
872  // Firmware uses 'rpc_sub' as RPC subsector index and 'rpc_chm' as RPC chamber index
873  // rpc_sub [0,6] = RPC subsector 3, 4, 5, 6, 1 from neighbor, 2 from neighbor, 2. They correspond to
874  // CSC sector phi 0-10 deg, 10-20, 20-30, 30-40, 40-50, 50-60, 50-60 from neighbor
875  // rpc_chm [0,5] = RPC chamber RE1/2, RE2/2, RE3/2, RE3/3, RE4/2, RE4/3
876  // For Phase 2, add RE1/3, RE2/3, RE3/1, RE4/1 -> rpc_chm [0,9]
877  //
878  int rpc_sub = -1;
879  int rpc_chm = -1;
880 
881  const bool is_irpc = (tp_station == 3 || tp_station == 4) && (tp_ring == 1);
882 
883  if (!is_neighbor) {
884  if (!is_irpc) {
885  rpc_sub = ((tp_subsector + 3) % 6);
886  } else {
887  rpc_sub = ((tp_subsector + 1) % 3);
888  }
889  } else {
890  rpc_sub = 6;
891  }
892 
893  if (tp_station <= 2 && tp_ring == 2) { // RE1/2, RE2/2
894  rpc_chm = (tp_station - 1);
895  } else if (tp_station >= 3 && tp_ring >= 2) { // RE3/2, RE3/3, RE4/2, RE4/3
896  rpc_chm = 2 + (tp_station - 3) * 2 + (tp_ring - 2);
897  } else if (tp_station <= 2 && tp_ring == 3) { // RE1/3, RE2/3
898  rpc_chm = 6 + (tp_station - 1);
899  } else if (tp_station >= 3 && tp_ring == 1) { // RE3/1, RE4/1
900  rpc_chm = 8 + (tp_station - 3);
901  }
902 
903  selected = (rpc_sub * 10) + rpc_chm;
904  emtf_assert(selected != -1);
905  return selected;
906 }
bool is_in_sector_rpc(int tp_endcap, int tp_station, int tp_ring, int tp_sector, int tp_subsector) const
bool is_in_neighbor_sector_rpc(int tp_endcap, int tp_station, int tp_ring, int tp_sector, int tp_subsector) const
#define emtf_assert(expr)
Definition: DebugTools.h:18
bool is_in_bx_rpc(int tp_bx) const

◆ is_in_bx_csc()

bool PrimitiveSelection::is_in_bx_csc ( int  tp_bx) const

Definition at line 720 of file PrimitiveSelection.cc.

References bx_, and bxShiftCSC_.

Referenced by get_index_csc().

720  {
721  tp_bx += bxShiftCSC_;
722  return (bx_ == tp_bx);
723 }

◆ is_in_bx_dt()

bool PrimitiveSelection::is_in_bx_dt ( int  tp_bx) const

Definition at line 1216 of file PrimitiveSelection.cc.

References bx_.

Referenced by get_index_dt().

1216  {
1217  //tp_bx += bxShiftDT_;
1218  return (bx_ == tp_bx);
1219 }

◆ is_in_bx_gem()

bool PrimitiveSelection::is_in_bx_gem ( int  tp_bx) const

Definition at line 969 of file PrimitiveSelection.cc.

References bx_, and bxShiftGEM_.

Referenced by get_index_gem().

969  {
970  tp_bx += bxShiftGEM_;
971  return (bx_ == tp_bx);
972 }

◆ is_in_bx_me0()

bool PrimitiveSelection::is_in_bx_me0 ( int  tp_bx) const

Definition at line 1119 of file PrimitiveSelection.cc.

References bx_, and bxShiftME0_.

Referenced by get_index_me0().

1119  {
1120  tp_bx += bxShiftME0_;
1121  return (bx_ == tp_bx);
1122 }

◆ is_in_bx_rpc()

bool PrimitiveSelection::is_in_bx_rpc ( int  tp_bx) const

Definition at line 847 of file PrimitiveSelection.cc.

References bx_, and bxShiftRPC_.

Referenced by get_index_rpc().

847  {
848  tp_bx += bxShiftRPC_;
849  return (bx_ == tp_bx);
850 }

◆ is_in_neighbor_sector_csc()

bool PrimitiveSelection::is_in_neighbor_sector_csc ( int  tp_endcap,
int  tp_sector,
int  tp_subsector,
int  tp_station,
int  tp_csc_ID 
) const

Definition at line 701 of file PrimitiveSelection.cc.

References endcap_, includeNeighbor_, nano_mu_digi_cff::sector, and sector_.

Referenced by get_index_csc(), is_in_neighbor_sector_dt(), is_in_neighbor_sector_gem(), and is_in_neighbor_sector_me0().

702  {
703  auto get_neighbor = [](int sector) { return (sector == 1) ? 6 : sector - 1; };
704 
705  if (includeNeighbor_) {
706  if ((endcap_ == tp_endcap) && (get_neighbor(sector_) == tp_sector)) {
707  if (tp_station == 1) {
708  if ((tp_subsector == 2) && (tp_csc_ID == 3 || tp_csc_ID == 6 || tp_csc_ID == 9))
709  return true;
710 
711  } else {
712  if (tp_csc_ID == 3 || tp_csc_ID == 9)
713  return true;
714  }
715  }
716  }
717  return false;
718 }

◆ is_in_neighbor_sector_dt()

bool PrimitiveSelection::is_in_neighbor_sector_dt ( int  tp_endcap,
int  tp_sector,
int  tp_csc_ID 
) const

Definition at line 1210 of file PrimitiveSelection.cc.

References is_in_neighbor_sector_csc().

Referenced by get_index_dt().

1210  {
1211  // Identical to the corresponding CSC function
1212  // (Note: use tp_subsector = 0, tp_station = 2)
1213  return is_in_neighbor_sector_csc(tp_endcap, tp_sector, 0, 2, tp_csc_ID);
1214 }
bool is_in_neighbor_sector_csc(int tp_endcap, int tp_sector, int tp_subsector, int tp_station, int tp_csc_ID) const

◆ is_in_neighbor_sector_gem()

bool PrimitiveSelection::is_in_neighbor_sector_gem ( int  tp_endcap,
int  tp_sector,
int  tp_subsector,
int  tp_station,
int  tp_csc_ID 
) const

Definition at line 963 of file PrimitiveSelection.cc.

References is_in_neighbor_sector_csc().

Referenced by get_index_gem().

964  {
965  // Identical to the corresponding CSC function
966  return is_in_neighbor_sector_csc(tp_endcap, tp_sector, tp_subsector, tp_station, tp_csc_ID);
967 }
bool is_in_neighbor_sector_csc(int tp_endcap, int tp_sector, int tp_subsector, int tp_station, int tp_csc_ID) const

◆ is_in_neighbor_sector_me0()

bool PrimitiveSelection::is_in_neighbor_sector_me0 ( int  tp_endcap,
int  tp_sector,
int  tp_csc_ID,
int  tp_pad 
) const

Definition at line 1087 of file PrimitiveSelection.cc.

References endcap_, includeNeighbor_, is_in_neighbor_sector_csc(), nano_mu_digi_cff::sector, and sector_.

Referenced by get_index_me0().

1087  {
1088  // Similar to the corresponding CSC function, but requires a 5 deg shift
1089  // because the CSC chamber 1 starts at -5 deg, but the ME0 chamber 1 starts
1090  // at -10 deg.
1091  // This means that in sector 1, CSC chamber from the neighbor sector
1092  // covers -5 to 15 deg, but ME0 chamber from the neighbor sector covers
1093  // -10 to 10 deg. 5 deg (1/4 of chamber) needs to be subtracted from
1094  // -10 to -5 deg, and 5 deg needs to be added to cover 10 to 15 deg.
1095  auto get_neighbor = [](int sector) { return (sector == 1) ? 6 : sector - 1; };
1096 
1097  bool add5deg = false;
1098  bool sub5deg = false;
1099  if (includeNeighbor_) {
1100  if ((endcap_ == tp_endcap) && (get_neighbor(sector_) == tp_sector)) {
1101  if (tp_csc_ID == 3 && tp_endcap == 1 && tp_pad >= (767 - 192)) { // higher 1/4 of chamber
1102  sub5deg = true;
1103  } else if (tp_csc_ID == 3 && tp_endcap == 2 && tp_pad <= 191) { // lower 1/4 of chamber
1104  sub5deg = true;
1105  }
1106  }
1107  if ((endcap_ == tp_endcap) && (sector_ == tp_sector)) {
1108  if (tp_csc_ID == 1 && tp_endcap == 1 && tp_pad >= (767 - 192)) { // higher 1/4 of chamber
1109  add5deg = true;
1110  } else if (tp_csc_ID == 1 && tp_endcap == 2 && tp_pad <= 191) { // lower 1/4 of chamber
1111  add5deg = true;
1112  }
1113  }
1114  }
1115  // (Note: use tp_subsector = 0, tp_station = 2)
1116  return (is_in_neighbor_sector_csc(tp_endcap, tp_sector, 0, 2, tp_csc_ID) && !sub5deg) || add5deg;
1117 }
bool is_in_neighbor_sector_csc(int tp_endcap, int tp_sector, int tp_subsector, int tp_station, int tp_csc_ID) const

◆ is_in_neighbor_sector_rpc()

bool PrimitiveSelection::is_in_neighbor_sector_rpc ( int  tp_endcap,
int  tp_station,
int  tp_ring,
int  tp_sector,
int  tp_subsector 
) const

Definition at line 831 of file PrimitiveSelection.cc.

References endcap_, includeNeighbor_, and sector_.

Referenced by get_index_rpc().

832  {
833  auto get_neighbor_subsector = [](int tp_station, int tp_ring) {
834  const bool is_irpc = (tp_station == 3 || tp_station == 4) && (tp_ring == 1);
835  if (is_irpc) {
836  // 20 degree chamber
837  return 1;
838  } else {
839  // 10 degree chamber
840  return 2;
841  }
842  };
843  return (includeNeighbor_ && (endcap_ == tp_endcap) && (sector_ == tp_sector) &&
844  (tp_subsector == get_neighbor_subsector(tp_station, tp_ring)));
845 }

◆ is_in_sector_csc()

bool PrimitiveSelection::is_in_sector_csc ( int  tp_endcap,
int  tp_sector 
) const

Definition at line 697 of file PrimitiveSelection.cc.

References endcap_, and sector_.

Referenced by get_index_csc(), is_in_sector_dt(), is_in_sector_gem(), and is_in_sector_me0().

697  {
698  return ((endcap_ == tp_endcap) && (sector_ == tp_sector));
699 }

◆ is_in_sector_dt()

bool PrimitiveSelection::is_in_sector_dt ( int  tp_endcap,
int  tp_sector 
) const

Definition at line 1205 of file PrimitiveSelection.cc.

References is_in_sector_csc().

Referenced by get_index_dt().

1205  {
1206  // Identical to the corresponding CSC function
1207  return is_in_sector_csc(tp_endcap, tp_sector);
1208 }
bool is_in_sector_csc(int tp_endcap, int tp_sector) const

◆ is_in_sector_gem()

bool PrimitiveSelection::is_in_sector_gem ( int  tp_endcap,
int  tp_sector 
) const

Definition at line 958 of file PrimitiveSelection.cc.

References is_in_sector_csc().

Referenced by get_index_gem().

958  {
959  // Identical to the corresponding CSC function
960  return is_in_sector_csc(tp_endcap, tp_sector);
961 }
bool is_in_sector_csc(int tp_endcap, int tp_sector) const

◆ is_in_sector_me0()

bool PrimitiveSelection::is_in_sector_me0 ( int  tp_endcap,
int  tp_sector,
int  tp_csc_ID,
int  tp_pad 
) const

Definition at line 1057 of file PrimitiveSelection.cc.

References endcap_, includeNeighbor_, is_in_sector_csc(), nano_mu_digi_cff::sector, and sector_.

Referenced by get_index_me0().

1057  {
1058  // Similar to the corresponding CSC function, but requires a 5 deg shift
1059  // because the CSC chamber 1 starts at -5 deg, but the ME0 chamber 1 starts
1060  // at -10 deg.
1061  // This means that in sector 1, CSC chambers cover 15 to 75 deg, but ME0
1062  // chambers cover 10 to 70 deg. 5 deg (1/4 of chamber) needs to be added
1063  // to cover 70 to 75 deg, and 5 deg needs to be subtracted from 10 to 15 deg.
1064  auto get_other_neighbor = [](int sector) { return (sector == 6) ? 1 : sector + 1; };
1065 
1066  bool add5deg = false;
1067  bool sub5deg = false;
1068  if (includeNeighbor_) {
1069  if ((endcap_ == tp_endcap) && (get_other_neighbor(sector_) == tp_sector)) {
1070  if (tp_csc_ID == 1 && tp_endcap == 1 && tp_pad >= (767 - 192)) { // higher 1/4 of chamber
1071  add5deg = true;
1072  } else if (tp_csc_ID == 1 && tp_endcap == 2 && tp_pad <= 191) { // lower 1/4 of chamber
1073  add5deg = true;
1074  }
1075  }
1076  if ((endcap_ == tp_endcap) && (sector_ == tp_sector)) {
1077  if (tp_csc_ID == 1 && tp_endcap == 1 && tp_pad >= (767 - 192)) { // higher 1/4 of chamber
1078  sub5deg = true;
1079  } else if (tp_csc_ID == 1 && tp_endcap == 2 && tp_pad <= 191) { // lower 1/4 of chamber
1080  sub5deg = true;
1081  }
1082  }
1083  }
1084  return (is_in_sector_csc(tp_endcap, tp_sector) && !sub5deg) || add5deg;
1085 }
bool is_in_sector_csc(int tp_endcap, int tp_sector) const

◆ is_in_sector_rpc()

bool PrimitiveSelection::is_in_sector_rpc ( int  tp_endcap,
int  tp_station,
int  tp_ring,
int  tp_sector,
int  tp_subsector 
) const

Definition at line 810 of file PrimitiveSelection.cc.

References alignCSCRings::corr, endcap_, and sector_.

Referenced by get_index_rpc().

811  {
812  // RPC sector X, subsectors 1-2 correspond to CSC sector X-1
813  // RPC sector X, subsectors 3-6 correspond to CSC sector X
814  // iRPC sector X, subsectors 1 correspond to CSC sector X-1
815  // iRPC sector X, subsectors 2-3 correspind to CSC sector X
816  auto get_csc_sector = [](int tp_station, int tp_ring, int tp_sector, int tp_subsector) {
817  const bool is_irpc = (tp_station == 3 || tp_station == 4) && (tp_ring == 1);
818  if (is_irpc) {
819  // 20 degree chamber
820  int corr = (tp_subsector < 2) ? (tp_sector == 1 ? +5 : -1) : 0;
821  return tp_sector + corr;
822  } else {
823  // 10 degree chamber
824  int corr = (tp_subsector < 3) ? (tp_sector == 1 ? +5 : -1) : 0;
825  return tp_sector + corr;
826  }
827  };
828  return ((endcap_ == tp_endcap) && (sector_ == get_csc_sector(tp_station, tp_ring, tp_sector, tp_subsector)));
829 }
dictionary corr

◆ merge()

void PrimitiveSelection::merge ( const std::map< int, TriggerPrimitiveCollection > &  selected_dt_map,
const std::map< int, TriggerPrimitiveCollection > &  selected_csc_map,
const std::map< int, TriggerPrimitiveCollection > &  selected_rpc_map,
const std::map< int, TriggerPrimitiveCollection > &  selected_gem_map,
const std::map< int, TriggerPrimitiveCollection > &  selected_me0_map,
std::map< int, TriggerPrimitiveCollection > &  selected_prim_map 
) const

Definition at line 489 of file PrimitiveSelection.cc.

References emtf_assert, newFWLiteAna::found, and cmsswSequenceInfo::tp.

Referenced by SectorProcessor::process_single_bx().

494  {
495  // First, put CSC hits
496  std::map<int, TriggerPrimitiveCollection>::const_iterator map_tp_it = selected_csc_map.begin();
497  std::map<int, TriggerPrimitiveCollection>::const_iterator map_tp_end = selected_csc_map.end();
498 
499  for (; map_tp_it != map_tp_end; ++map_tp_it) {
500  int selected_csc = map_tp_it->first;
501  const TriggerPrimitiveCollection& csc_primitives = map_tp_it->second;
502  emtf_assert(csc_primitives.size() <= 4); // at most 4 hits, including duplicated hits
503 
504  // Insert all CSC hits
505  selected_prim_map[selected_csc] = csc_primitives;
506  }
507 
508  // Second, insert GEM stubs if there is no CSC hits
509  map_tp_it = selected_gem_map.begin();
510  map_tp_end = selected_gem_map.end();
511 
512  for (; map_tp_it != map_tp_end; ++map_tp_it) {
513  int selected_gem = map_tp_it->first;
514  const TriggerPrimitiveCollection& gem_primitives = map_tp_it->second;
515  if (gem_primitives.empty())
516  continue;
517  emtf_assert(gem_primitives.size() <= 8); // at most 8 hits
518 
519  bool found = (selected_prim_map.find(selected_gem) != selected_prim_map.end());
520  if (!found) {
521  // No CSC hits, insert all GEM hits
522  selected_prim_map[selected_gem] = gem_primitives;
523 
524  } else {
525  // Do nothing
526  }
527  }
528 
529  // Third, insert RPC stubs if there is no CSC/GEM hits
530  map_tp_it = selected_rpc_map.begin();
531  map_tp_end = selected_rpc_map.end();
532 
533  for (; map_tp_it != map_tp_end; ++map_tp_it) {
534  int selected_rpc = map_tp_it->first;
535  const TriggerPrimitiveCollection& rpc_primitives = map_tp_it->second;
536  if (rpc_primitives.empty())
537  continue;
538  emtf_assert(rpc_primitives.size() <= 4); // at most 4 hits
539 
540  bool found = (selected_prim_map.find(selected_rpc) != selected_prim_map.end());
541  if (!found) {
542  // No CSC/GEM hits, insert all RPC hits
543  //selected_prim_map[selected_rpc] = rpc_primitives;
544 
545  // No CSC/GEM hits, insert the valid RPC hits
546  TriggerPrimitiveCollection tmp_rpc_primitives;
547  for (const auto& tp : rpc_primitives) {
548  if (tp.getRPCData().valid != 0) {
549  tmp_rpc_primitives.push_back(tp);
550  }
551  }
552  emtf_assert(tmp_rpc_primitives.size() <= 2); // at most 2 hits
553 
554  selected_prim_map[selected_rpc] = tmp_rpc_primitives;
555 
556  } else {
557  // Initial FW in 2017; was disabled on June 7.
558  // If only one CSC/GEM hit, insert the first RPC hit
559  //TriggerPrimitiveCollection& tmp_primitives = selected_prim_map[selected_rpc]; // pass by reference
560 
561  //if (tmp_primitives.size() < 2) {
562  // tmp_primitives.push_back(rpc_primitives.front());
563  //}
564  }
565  }
566 }
#define emtf_assert(expr)
Definition: DebugTools.h:18
L1TMuon::TriggerPrimitiveCollection TriggerPrimitiveCollection
Definition: Common.h:32

◆ merge_no_truncate()

void PrimitiveSelection::merge_no_truncate ( const std::map< int, TriggerPrimitiveCollection > &  selected_dt_map,
const std::map< int, TriggerPrimitiveCollection > &  selected_csc_map,
const std::map< int, TriggerPrimitiveCollection > &  selected_rpc_map,
const std::map< int, TriggerPrimitiveCollection > &  selected_gem_map,
const std::map< int, TriggerPrimitiveCollection > &  selected_me0_map,
std::map< int, TriggerPrimitiveCollection > &  selected_prim_map 
) const

Definition at line 568 of file PrimitiveSelection.cc.

Referenced by SectorProcessor::process_single_bx().

573  {
574  // First, put CSC hits
575  merge_map_into_map(selected_csc_map, selected_prim_map);
576 
577  // Second, insert ME0 hits
578  merge_map_into_map(selected_me0_map, selected_prim_map);
579 
580  // Third, insert GEM hits
581  merge_map_into_map(selected_gem_map, selected_prim_map);
582 
583  // Fourth, insert RPC hits
584  merge_map_into_map(selected_rpc_map, selected_prim_map);
585 
586  // Fifth, insert DT hits
587  merge_map_into_map(selected_dt_map, selected_prim_map);
588 }

◆ process() [1/6]

template<typename T >
void PrimitiveSelection::process ( T  tag,
const TriggerPrimitiveCollection muon_primitives,
std::map< int, TriggerPrimitiveCollection > &  selected_prim_map 
) const

◆ process() [2/6]

template<>
void PrimitiveSelection::process ( emtf::CSCTag  tag,
const TriggerPrimitiveCollection muon_primitives,
std::map< int, TriggerPrimitiveCollection > &  selected_csc_map 
) const

Definition at line 53 of file PrimitiveSelection.cc.

References L1TMuon::TriggerPrimitive::accessCSCData(), bugME11Dupes_, relativeConstraints::chamber, L1TMuon::TriggerPrimitive::CSCData::cscID, L1TMuon::TriggerPrimitive::detId(), duplicateTheta_, emtf_assert, makeMuonMisalignmentScenario::endcap, L1TMuon::TriggerPrimitive::getBX(), L1TMuon::TriggerPrimitive::getCSCData(), L1TMuon::TriggerPrimitive::getStrip(), L1TMuon::TriggerPrimitive::getWire(), cuy::ii, L1TMuon::TriggerPrimitive::CSCData::keywire, NUM_CSC_CHAMBERS, relativeConstraints::ring, select_csc(), findQualityFiles::size, relativeConstraints::station, and triggerSector().

55  {
56  TriggerPrimitiveCollection::const_iterator tp_it = muon_primitives.begin();
57  TriggerPrimitiveCollection::const_iterator tp_end = muon_primitives.end();
58 
59  for (; tp_it != tp_end; ++tp_it) {
60  int selected_csc = select_csc(*tp_it); // Returns CSC "link" index (0 - 53)
61 
62  if (selected_csc >= 0) {
63  emtf_assert(selected_csc < NUM_CSC_CHAMBERS);
64 
65  //FIXME
66  if (selected_csc_map[selected_csc].size() < 2) {
67  selected_csc_map[selected_csc].push_back(*tp_it);
68  } else {
69  edm::LogWarning("L1T") << "\n******************* EMTF EMULATOR: SUPER-BIZZARE CASE *******************";
70  edm::LogWarning("L1T") << "Found 3 CSC trigger primitives in the same chamber";
71  for (int ii = 0; ii < 3; ii++) {
72  TriggerPrimitive tp_err = (ii < 2 ? selected_csc_map[selected_csc].at(ii) : *tp_it);
73  edm::LogWarning("L1T") << "LCT #" << ii + 1 << ": BX " << tp_err.getBX() << ", endcap "
74  << tp_err.detId<CSCDetId>().endcap() << ", sector "
75  << tp_err.detId<CSCDetId>().triggerSector() << ", station "
76  << tp_err.detId<CSCDetId>().station() << ", ring " << tp_err.detId<CSCDetId>().ring()
77  << ", chamber " << tp_err.detId<CSCDetId>().chamber() << ", CSC ID "
78  << tp_err.getCSCData().cscID << ": strip " << tp_err.getStrip() << ", wire "
79  << tp_err.getWire();
80  }
81  edm::LogWarning("L1T") << "************************* ONLY KEEP FIRST TWO *************************\n\n";
82  }
83 
84  } // End conditional: if (selected_csc >= 0)
85  } // End loop: for (; tp_it != tp_end; ++tp_it)
86 
87  // Duplicate CSC muon primitives
88  // If there are 2 LCTs in the same chamber with (strip, wire) = (s1, w1) and (s2, w2)
89  // make all combinations with (s1, w1), (s2, w1), (s1, w2), (s2, w2)
90  if (duplicateTheta_) {
91  std::map<int, TriggerPrimitiveCollection>::iterator map_tp_it = selected_csc_map.begin();
92  std::map<int, TriggerPrimitiveCollection>::iterator map_tp_end = selected_csc_map.end();
93 
94  for (; map_tp_it != map_tp_end; ++map_tp_it) {
95  int selected = map_tp_it->first;
96  TriggerPrimitiveCollection& tmp_primitives = map_tp_it->second; // pass by reference
97 
98  if (tmp_primitives.size() >= 4) {
99  edm::LogWarning("L1T") << "EMTF found 4 or more CSC LCTs in one chamber: keeping only two";
100  tmp_primitives.erase(tmp_primitives.begin() + 4, tmp_primitives.end()); // erase 5th element++
101  tmp_primitives.erase(tmp_primitives.begin() + 2); // erase 3rd element
102  tmp_primitives.erase(tmp_primitives.begin() + 1); // erase 2nd element
103  } else if (tmp_primitives.size() == 3) {
104  edm::LogWarning("L1T") << "EMTF found 3 CSC LCTs in one chamber: keeping only two";
105  tmp_primitives.erase(tmp_primitives.begin() + 2); // erase 3rd element
106  }
107  emtf_assert(tmp_primitives.size() <= 2); // at most 2 hits
108 
109  if (tmp_primitives.size() == 2) {
110  if ((tmp_primitives.at(0).getStrip() != tmp_primitives.at(1).getStrip()) &&
111  (tmp_primitives.at(0).getWire() != tmp_primitives.at(1).getWire())) {
112  // Swap wire numbers
113  TriggerPrimitive tp0 = tmp_primitives.at(0); // (s1,w1)
114  TriggerPrimitive tp1 = tmp_primitives.at(1); // (s2,w2)
115  uint16_t tmp_keywire = tp0.accessCSCData().keywire;
116  tp0.accessCSCData().keywire = tp1.accessCSCData().keywire; // (s1,w2)
117  tp1.accessCSCData().keywire = tmp_keywire; // (s2,w1)
118 
119  tmp_primitives.insert(tmp_primitives.begin() + 1, tp1); // (s2,w1) at 2nd pos
120  tmp_primitives.insert(tmp_primitives.begin() + 2, tp0); // (s1,w2) at 3rd pos
121  }
122 
123  const bool is_csc_me11 = (0 <= selected && selected <= 2) || (9 <= selected && selected <= 11) ||
124  (selected == 45); // ME1/1 sub 1 or ME1/1 sub 2 or ME1/1 from neighbor
125 
126  if (bugME11Dupes_ && is_csc_me11) {
127  // For ME1/1, always make 4 LCTs without checking strip & wire combination
128  if (tmp_primitives.size() == 2) {
129  // Swap wire numbers
130  TriggerPrimitive tp0 = tmp_primitives.at(0); // (s1,w1)
131  TriggerPrimitive tp1 = tmp_primitives.at(1); // (s2,w2)
132  uint16_t tmp_keywire = tp0.accessCSCData().keywire;
133  tp0.accessCSCData().keywire = tp1.accessCSCData().keywire; // (s1,w2)
134  tp1.accessCSCData().keywire = tmp_keywire; // (s2,w1)
135 
136  tmp_primitives.insert(tmp_primitives.begin() + 1, tp1); // (s2,w1) at 2nd pos
137  tmp_primitives.insert(tmp_primitives.begin() + 2, tp0); // (s1,w2) at 3rd pos
138  }
139  emtf_assert(tmp_primitives.size() == 1 || tmp_primitives.size() == 4);
140  }
141 
142  } // end if tmp_primitives.size() == 2
143  } // end loop over selected_csc_map
144  } // end if duplicate theta
145 }
size
Write out results.
int select_csc(const TriggerPrimitive &muon_primitive) const
ii
Definition: cuy.py:589
#define emtf_assert(expr)
Definition: DebugTools.h:18
Log< level::Warning, false > LogWarning
#define NUM_CSC_CHAMBERS
L1TMuon::TriggerPrimitiveCollection TriggerPrimitiveCollection
Definition: Common.h:32
Int_t triggerSector(Int_t station, Int_t ring, Int_t chamber) const

◆ process() [3/6]

template<>
void PrimitiveSelection::process ( emtf::RPCTag  tag,
const TriggerPrimitiveCollection muon_primitives,
std::map< int, TriggerPrimitiveCollection > &  selected_rpc_map 
) const

Definition at line 150 of file PrimitiveSelection.cc.

References gather_cfg::cout, emtf_assert, mps_fire::end, NUM_RPC_CHAMBERS, RPCDetId::ring(), select_rpc(), RPCDetId::station(), edm::swap(), cmsswSequenceInfo::tp, and x.

152  {
153  TriggerPrimitiveCollection::const_iterator tp_it = muon_primitives.begin();
154  TriggerPrimitiveCollection::const_iterator tp_end = muon_primitives.end();
155 
156  for (; tp_it != tp_end; ++tp_it) {
157  int selected_rpc = select_rpc(*tp_it); // Returns RPC "link" index
158 
159  if (selected_rpc >= 0) {
160  emtf_assert(selected_rpc < NUM_RPC_CHAMBERS);
161  selected_rpc_map[selected_rpc].push_back(*tp_it);
162  }
163  }
164 
165  // Apply truncation as in firmware: keep first 2 clusters, max cluster
166  // size = 3 strips.
167  // According to Karol Bunkowski, for one chamber (so 3 eta rolls) only up
168  // to 2 hits (cluster centres) are produced. First two 'first' clusters are
169  // chosen, and only after the cut on the cluster size is applied. So if
170  // there are 1 large cluster and 2 small clusters, it is possible that
171  // one of the two small clusters is discarded first, and the large cluster
172  // then is removed by the cluster size cut, leaving only one cluster.
173  // Note: this needs to be modified for Phase 2 with additional iRPC chambers.
174  bool apply_truncation = true;
175  if (apply_truncation) {
176  struct {
178  bool operator()(const value_type& x) const {
179  // Skip cluster size cut if primitives are from CPPF emulator or EMTF unpacker (already clustered)
180  if (x.getRPCData().isCPPF)
181  return false;
182 
183  int sz = x.getRPCData().strip_hi - x.getRPCData().strip_low + 1;
184 
185  const RPCDetId& tp_detId = x.detId<RPCDetId>();
186  int tp_station = tp_detId.station();
187  int tp_ring = tp_detId.ring();
188  const bool is_irpc = (tp_station == 3 || tp_station == 4) && (tp_ring == 1);
189  if (is_irpc)
190  return sz > 6; // iRPC strip pitch is 1.5 times smaller than traditional RPC
191  return sz > 3;
192  }
193  } cluster_size_cut;
194 
195  std::map<int, TriggerPrimitiveCollection>::iterator map_tp_it = selected_rpc_map.begin();
196  std::map<int, TriggerPrimitiveCollection>::iterator map_tp_end = selected_rpc_map.end();
197 
198  for (; map_tp_it != map_tp_end; ++map_tp_it) {
199  int selected = map_tp_it->first;
200  TriggerPrimitiveCollection& tmp_primitives = map_tp_it->second; // pass by reference
201 
202  //FIXME
203  // Check to see if unpacked CPPF digis have <= 2 digis per chamber, as expected
204  if (tmp_primitives.size() > 2 && tmp_primitives.at(0).getRPCData().isCPPF) {
205  edm::LogWarning("L1T") << "\n******************* EMTF EMULATOR: SUPER-BIZZARE CASE *******************";
206  edm::LogWarning("L1T") << "Found " << tmp_primitives.size() << " CPPF digis in the same chamber";
207  for (const auto& tp : tmp_primitives)
208  tp.print(std::cout);
209  edm::LogWarning("L1T") << "************************* ONLY KEEP FIRST TWO *************************\n\n";
210  }
211 
212  if ((selected % 10) == 8 || (selected % 10) == 9) { // RE3/1 or RE4/1 (iRPC)
213  // Keep the first 4 clusters
214  if (tmp_primitives.size() > 4)
215  tmp_primitives.erase(tmp_primitives.begin() + 4, tmp_primitives.end());
216  } else {
217  // Keep the first 2 clusters
218  if (tmp_primitives.size() > 2)
219  tmp_primitives.erase(tmp_primitives.begin() + 2, tmp_primitives.end());
220  }
221 
222  // Apply cluster size cut
223  tmp_primitives.erase(std::remove_if(tmp_primitives.begin(), tmp_primitives.end(), cluster_size_cut),
224  tmp_primitives.end());
225  }
226  } // end if apply_truncation
227 
228  // Map RPC subsector and chamber to CSC chambers
229  // Note: RE3/2 & RE3/3 are considered as one chamber; RE4/2 & RE4/3 too.
230  bool map_rpc_to_csc = true;
231  if (map_rpc_to_csc) {
232  std::map<int, TriggerPrimitiveCollection> tmp_selected_rpc_map;
233 
234  std::map<int, TriggerPrimitiveCollection>::iterator map_tp_it = selected_rpc_map.begin();
235  std::map<int, TriggerPrimitiveCollection>::iterator map_tp_end = selected_rpc_map.end();
236 
237  for (; map_tp_it != map_tp_end; ++map_tp_it) {
238  int selected = map_tp_it->first;
239  TriggerPrimitiveCollection& tmp_primitives = map_tp_it->second; // pass by reference
240 
241  int rpc_sub = selected / 10;
242  int rpc_chm = selected % 10;
243 
244  int pc_station = -1;
245  int pc_chamber = -1;
246 
247  if (rpc_sub != 6) { // native
248  if (rpc_chm == 0) { // RE1/2: 3-5, 12-14
249  if (0 <= rpc_sub && rpc_sub < 3) {
250  pc_station = 0;
251  pc_chamber = 3 + rpc_sub;
252  } else if (3 <= rpc_sub && rpc_sub < 6) {
253  pc_station = 1;
254  pc_chamber = 3 + (rpc_sub - 3);
255  }
256  } else if (rpc_chm == 6) { // RE1/3: 6-8, 15-17
257  if (0 <= rpc_sub && rpc_sub < 3) {
258  pc_station = 0;
259  pc_chamber = 6 + rpc_sub;
260  } else if (3 <= rpc_sub && rpc_sub < 6) {
261  pc_station = 1;
262  pc_chamber = 6 + (rpc_sub - 3);
263  }
264  } else if (rpc_chm == 1 || rpc_chm == 7) { // RE2/2, RE2/3: 21-26
265  pc_station = 2;
266  pc_chamber = 3 + rpc_sub;
267  } else if (2 <= rpc_chm && rpc_chm <= 3) { // RE3/2, RE3/3: 30-35
268  pc_station = 3;
269  pc_chamber = 3 + rpc_sub;
270  } else if (4 <= rpc_chm && rpc_chm <= 5) { // RE4/2, RE4/3: 39-44
271  pc_station = 4;
272  pc_chamber = 3 + rpc_sub;
273  } else if (rpc_chm == 8) { // RE3/1: 27-29
274  pc_station = 3;
275  pc_chamber = rpc_sub;
276  } else if (rpc_chm == 9) { // RE4/1: 36-38
277  pc_station = 4;
278  pc_chamber = rpc_sub;
279  }
280 
281  } else { // neighbor
282  pc_station = 5;
283  if (rpc_chm == 0) { // RE1/2: 46
284  pc_chamber = 1;
285  } else if (rpc_chm == 6) { // RE1/3: 47
286  pc_chamber = 2;
287  } else if (rpc_chm == 1 || rpc_chm == 7) { // RE2/2, RE2/3: 49
288  pc_chamber = 4;
289  } else if (2 <= rpc_chm && rpc_chm <= 3) { // RE3/2, RE3/3: 51
290  pc_chamber = 6;
291  } else if (4 <= rpc_chm && rpc_chm <= 5) { // RE4/2, RE4/3: 53
292  pc_chamber = 8;
293  } else if (rpc_chm == 8) { // RE3/1: 50
294  pc_chamber = 5;
295  } else if (rpc_chm == 9) { // RE4/1: 52
296  pc_chamber = 7;
297  }
298  }
299  emtf_assert(pc_station != -1 && pc_chamber != -1);
300  emtf_assert(pc_station < 6 && pc_chamber < 9);
301 
302  selected = (pc_station * 9) + pc_chamber;
303 
304  bool ignore_this_rpc_chm = false;
305  if (rpc_chm == 3 || rpc_chm == 5) { // special case of RE3,4/2 and RE3,4/3 chambers
306  // if RE3,4/2 exists, ignore RE3,4/3. In C++, this assumes that the loop
307  // over selected_rpc_map will always find RE3,4/2 before RE3,4/3
308  if (tmp_selected_rpc_map.find(selected) != tmp_selected_rpc_map.end())
309  ignore_this_rpc_chm = true;
310  }
311 
312  if (rpc_chm == 6 || rpc_chm == 7) { // RE1/3 and RE2/3 chambers are not part of EMTF
313  ignore_this_rpc_chm = true;
314  }
315 
316  if (rpc_chm == 8 || rpc_chm == 9) { // RE3/1 and RE4/1 chambers are not available until Phase-2
317  ignore_this_rpc_chm = true;
318  }
319 
320  if (ignore_this_rpc_chm) {
321  // Set RPC stubs as invalid, but we keep them
322  for (auto&& tp : tmp_primitives) {
323  tp.accessRPCData().valid = 0;
324  }
325  }
326 
327  // Keep the stubs in the temporary map
328  if (tmp_selected_rpc_map.find(selected) == tmp_selected_rpc_map.end()) {
329  tmp_selected_rpc_map[selected] = tmp_primitives;
330  } else {
331  tmp_selected_rpc_map[selected].insert(
332  tmp_selected_rpc_map[selected].end(), tmp_primitives.begin(), tmp_primitives.end());
333  }
334  } // end loop over selected_rpc_map
335 
336  std::swap(selected_rpc_map, tmp_selected_rpc_map); // replace the original map
337  } // end if map_rpc_to_csc
338 }
int select_rpc(const TriggerPrimitive &muon_primitive) const
#define NUM_RPC_CHAMBERS
int ring() const
Definition: RPCDetId.h:59
void swap(Association< C > &lhs, Association< C > &rhs)
Definition: Association.h:112
#define emtf_assert(expr)
Definition: DebugTools.h:18
int station() const
Definition: RPCDetId.h:78
Log< level::Warning, false > LogWarning
L1TMuon::TriggerPrimitiveCollection TriggerPrimitiveCollection
Definition: Common.h:32

◆ process() [4/6]

template<>
void PrimitiveSelection::process ( emtf::GEMTag  tag,
const TriggerPrimitiveCollection muon_primitives,
std::map< int, TriggerPrimitiveCollection > &  selected_gem_map 
) const

Definition at line 343 of file PrimitiveSelection.cc.

References emtf_assert, NUM_GEM_CHAMBERS, select_gem(), and x.

345  {
346  TriggerPrimitiveCollection::const_iterator tp_it = muon_primitives.begin();
347  TriggerPrimitiveCollection::const_iterator tp_end = muon_primitives.end();
348 
349  for (; tp_it != tp_end; ++tp_it) {
350  int selected_gem = select_gem(*tp_it); // Returns GEM "link" index
351 
352  if (selected_gem >= 0) {
353  emtf_assert(selected_gem < NUM_GEM_CHAMBERS);
354  selected_gem_map[selected_gem].push_back(*tp_it);
355  }
356  }
357 
358  // Apply truncation: max cluster size = 8 pads, keep first 8 clusters.
359  bool apply_truncation = true;
360  if (apply_truncation) {
361  struct {
363  bool operator()(const value_type& x) const {
364  int sz = x.getGEMData().pad_hi - x.getGEMData().pad_low + 1;
365  return sz > 8;
366  }
367  } cluster_size_cut;
368 
369  std::map<int, TriggerPrimitiveCollection>::iterator map_tp_it = selected_gem_map.begin();
370  std::map<int, TriggerPrimitiveCollection>::iterator map_tp_end = selected_gem_map.end();
371 
372  for (; map_tp_it != map_tp_end; ++map_tp_it) {
373  //int selected = map_tp_it->first;
374  TriggerPrimitiveCollection& tmp_primitives = map_tp_it->second; // pass by reference
375 
376  // Apply cluster size cut
377  tmp_primitives.erase(std::remove_if(tmp_primitives.begin(), tmp_primitives.end(), cluster_size_cut),
378  tmp_primitives.end());
379 
380  // Keep the first 8 clusters
381  if (tmp_primitives.size() > 8)
382  tmp_primitives.erase(tmp_primitives.begin() + 8, tmp_primitives.end());
383  }
384  } // end if apply_truncation
385 }
#define NUM_GEM_CHAMBERS
int select_gem(const TriggerPrimitive &muon_primitive) const
#define emtf_assert(expr)
Definition: DebugTools.h:18
L1TMuon::TriggerPrimitiveCollection TriggerPrimitiveCollection
Definition: Common.h:32

◆ process() [5/6]

template<>
void PrimitiveSelection::process ( emtf::ME0Tag  tag,
const TriggerPrimitiveCollection muon_primitives,
std::map< int, TriggerPrimitiveCollection > &  selected_me0_map 
) const

Definition at line 390 of file PrimitiveSelection.cc.

References emtf_assert, NUM_GEM_CHAMBERS, and select_me0().

392  {
393  TriggerPrimitiveCollection::const_iterator tp_it = muon_primitives.begin();
394  TriggerPrimitiveCollection::const_iterator tp_end = muon_primitives.end();
395 
396  for (; tp_it != tp_end; ++tp_it) {
397  int selected_me0 = select_me0(*tp_it); // Returns ME0 "link" index
398 
399  if (selected_me0 >= 0) {
400  emtf_assert(selected_me0 < NUM_GEM_CHAMBERS);
401  selected_me0_map[selected_me0].push_back(*tp_it);
402  }
403  }
404 
405  // Apply truncation
406  bool apply_truncation = true;
407  if (apply_truncation) {
408  std::map<int, TriggerPrimitiveCollection>::iterator map_tp_it = selected_me0_map.begin();
409  std::map<int, TriggerPrimitiveCollection>::iterator map_tp_end = selected_me0_map.end();
410 
411  for (; map_tp_it != map_tp_end; ++map_tp_it) {
412  //int selected = map_tp_it->first;
413  TriggerPrimitiveCollection& tmp_primitives = map_tp_it->second; // pass by reference
414 
415  // Keep the first 20 clusters
416  if (tmp_primitives.size() > 20)
417  tmp_primitives.erase(tmp_primitives.begin() + 20, tmp_primitives.end());
418  }
419  }
420 }
#define NUM_GEM_CHAMBERS
#define emtf_assert(expr)
Definition: DebugTools.h:18
int select_me0(const TriggerPrimitive &muon_primitive) const
L1TMuon::TriggerPrimitiveCollection TriggerPrimitiveCollection
Definition: Common.h:32

◆ process() [6/6]

template<>
void PrimitiveSelection::process ( emtf::DTTag  tag,
const TriggerPrimitiveCollection muon_primitives,
std::map< int, TriggerPrimitiveCollection > &  selected_dt_map 
) const

Definition at line 425 of file PrimitiveSelection.cc.

References L1TMuon::TriggerPrimitive::accessDTData(), duplicateTheta_, emtf_assert, NUM_DT_CHAMBERS, select_dt(), and L1TMuon::TriggerPrimitive::DTData::theta_bti_group.

427  {
428  TriggerPrimitiveCollection::const_iterator tp_it = muon_primitives.begin();
429  TriggerPrimitiveCollection::const_iterator tp_end = muon_primitives.end();
430 
431  for (; tp_it != tp_end; ++tp_it) {
432  int selected_dt = select_dt(*tp_it); // Returns DT "link" index
433 
434  if (selected_dt >= 0) {
435  emtf_assert(selected_dt < NUM_DT_CHAMBERS);
436  selected_dt_map[selected_dt].push_back(*tp_it);
437  }
438  }
439 
440  // Duplicate DT muon primitives
441  if (duplicateTheta_) {
442  std::map<int, TriggerPrimitiveCollection>::iterator map_tp_it = selected_dt_map.begin();
443  std::map<int, TriggerPrimitiveCollection>::iterator map_tp_end = selected_dt_map.end();
444 
445  for (; map_tp_it != map_tp_end; ++map_tp_it) {
446  //int selected = map_tp_it->first;
447  TriggerPrimitiveCollection& tmp_primitives = map_tp_it->second; // pass by reference
448 
449  emtf_assert(tmp_primitives.size() <= 2); // at most 2 hits
450 
451  if (tmp_primitives.size() == 2) {
452  if ((tmp_primitives.at(0).getStrip() != tmp_primitives.at(1).getStrip()) &&
453  (tmp_primitives.at(0).getWire() != tmp_primitives.at(1).getWire())) {
454  // Swap wire numbers
455  TriggerPrimitive tp0 = tmp_primitives.at(0); // (s1,w1)
456  TriggerPrimitive tp1 = tmp_primitives.at(1); // (s2,w2)
457  uint16_t tmp_keywire = tp0.accessDTData().theta_bti_group;
458  tp0.accessDTData().theta_bti_group = tp1.accessDTData().theta_bti_group; // (s1,w2)
459  tp1.accessDTData().theta_bti_group = tmp_keywire; // (s2,w1)
460 
461  tmp_primitives.insert(tmp_primitives.begin() + 1, tp1); // (s2,w1) at 2nd pos
462  tmp_primitives.insert(tmp_primitives.begin() + 2, tp0); // (s1,w2) at 3rd pos
463  }
464  } // end if tmp_primitives.size() == 2
465  } // end loop over selected_dt_map
466  } // end if duplicate theta
467 }
#define NUM_DT_CHAMBERS
int select_dt(const TriggerPrimitive &muon_primitive) const
#define emtf_assert(expr)
Definition: DebugTools.h:18
L1TMuon::TriggerPrimitiveCollection TriggerPrimitiveCollection
Definition: Common.h:32

◆ select_csc()

int PrimitiveSelection::select_csc ( const TriggerPrimitive muon_primitive) const

Definition at line 592 of file PrimitiveSelection.cc.

References bx_, CSCDetId::chamber(), L1TMuon::TriggerPrimitive::detId(), emtf_assert, CSCDetId::endcap(), endcap_, emtf::get_csc_max_pattern_and_quality(), emtf::get_csc_max_slope(), emtf::get_csc_max_strip_and_wire(), get_index_csc(), L1TMuon::TriggerPrimitive::getCSCData(), L1TMuon::kCSC, emtf::MAX_ENDCAP, emtf::MAX_TRIGSECTOR, emtf::MIN_ENDCAP, emtf::MIN_TRIGSECTOR, CSCDetId::ring(), sector_, CSCDetId::station(), L1TMuon::TriggerPrimitive::subsystem(), CSCDetId::triggerSector(), useRun3CCLUT_OTMB_, and useRun3CCLUT_TMB_.

Referenced by process().

592  {
593  int selected = -1;
594 
595  if (muon_primitive.subsystem() == L1TMuon::kCSC) {
596  const CSCDetId& tp_detId = muon_primitive.detId<CSCDetId>();
597  const CSCData& tp_data = muon_primitive.getCSCData();
598 
599  int tp_endcap = tp_detId.endcap();
600  int tp_sector = tp_detId.triggerSector();
601  int tp_station = tp_detId.station();
602  int tp_ring = tp_detId.ring();
603  int tp_chamber = tp_detId.chamber();
604 
605  int tp_bx = tp_data.bx;
606  int tp_csc_ID = tp_data.cscID;
607 
608  const auto& [max_strip, max_wire] = emtf::get_csc_max_strip_and_wire(tp_station, tp_ring);
609  const auto& [max_pattern, max_quality] = emtf::get_csc_max_pattern_and_quality(tp_station, tp_ring);
610  const auto max_slope = emtf::get_csc_max_slope(tp_station, tp_ring, useRun3CCLUT_OTMB_, useRun3CCLUT_TMB_);
611 
612  if (endcap_ == 1 && sector_ == 1 && bx_ == -3) { // do assertion checks only once
613  emtf_assert(emtf::MIN_ENDCAP <= tp_endcap && tp_endcap <= emtf::MAX_ENDCAP);
614  emtf_assert(emtf::MIN_TRIGSECTOR <= tp_sector && tp_sector <= emtf::MAX_TRIGSECTOR);
615  emtf_assert(1 <= tp_station && tp_station <= 4);
616  emtf_assert(1 <= tp_csc_ID && tp_csc_ID <= 9);
617  emtf_assert(tp_data.strip < max_strip);
618  emtf_assert(tp_data.keywire < max_wire);
619  emtf_assert(tp_data.valid == true);
620  emtf_assert(tp_data.pattern < max_pattern);
621  emtf_assert(0 < tp_data.quality && tp_data.quality < max_quality);
622  }
623 
624  // Check for corrupted LCT data. Data corruption could occur due to software or hardware issues, If corrupted, reject the LCT.
625  // Note that the checks are performed in every sector processor for every BX. As a result, the same LCT may be reported multiple times by all 12 sector processors from BX=-3 to BX=+3.
626  {
627  if (!(tp_data.strip < max_strip)) {
628  edm::LogWarning("L1T") << "Found error in LCT strip: " << tp_data.strip << " (allowed range: 0-"
629  << max_strip - 1 << ").";
630  edm::LogWarning("L1T")
631  << "From endcap " << tp_endcap << ", sector " << tp_sector << ", station " << tp_station << ", ring "
632  << tp_ring << ", cscid " << tp_csc_ID
633  << ". (Note that this LCT may be reported multiple times. See source code for explanations.)";
634  return selected;
635  }
636 
637  if (!(tp_data.keywire < max_wire)) {
638  edm::LogWarning("L1T") << "Found error in LCT wire: " << tp_data.keywire << " (allowed range: 0-"
639  << max_wire - 1 << ").";
640  edm::LogWarning("L1T")
641  << "From endcap " << tp_endcap << ", sector " << tp_sector << ", station " << tp_station << ", ring "
642  << tp_ring << ", cscid " << tp_csc_ID
643  << ". (Note that this LCT may be reported multiple times. See source code for explanations.)";
644  return selected;
645  }
646 
647  if (!(tp_data.valid == true)) {
648  edm::LogWarning("L1T") << "Found error in LCT valid: " << tp_data.valid << " (allowed value: 1).";
649  edm::LogWarning("L1T")
650  << "From endcap " << tp_endcap << ", sector " << tp_sector << ", station " << tp_station << ", ring "
651  << tp_ring << ", cscid " << tp_csc_ID
652  << ". (Note that this LCT may be reported multiple times. See source code for explanations.)";
653  return selected;
654  }
655 
656  if (!(tp_data.pattern < max_pattern)) {
657  edm::LogWarning("L1T") << "Found error in LCT pattern: " << tp_data.pattern << " (allowed range: 0-"
658  << max_pattern - 1 << ").";
659  edm::LogWarning("L1T")
660  << "From endcap " << tp_endcap << ", sector " << tp_sector << ", station " << tp_station << ", ring "
661  << tp_ring << ", cscid " << tp_csc_ID
662  << ". (Note that this LCT may be reported multiple times. See source code for explanations.)";
663  return selected;
664  }
665 
666  if (!(0 < tp_data.quality && tp_data.quality < max_quality)) {
667  edm::LogWarning("L1T") << "Found error in LCT quality: " << tp_data.quality << " (allowed range: 1-"
668  << max_quality - 1 << ").";
669  edm::LogWarning("L1T")
670  << "From endcap " << tp_endcap << ", sector " << tp_sector << ", station " << tp_station << ", ring "
671  << tp_ring << ", cscid " << tp_csc_ID
672  << ". (Note that this LCT may be reported multiple times. See source code for explanations.)";
673  return selected;
674  }
675 
676  if (!(tp_data.slope < max_slope)) {
677  edm::LogWarning("L1T") << "Found error in LCT slope: " << tp_data.slope << " (allowed range: 0-"
678  << max_slope - 1 << ").";
679  edm::LogWarning("L1T")
680  << "From endcap " << tp_endcap << ", sector " << tp_sector << ", station " << tp_station << ", ring "
681  << tp_ring << ", cscid " << tp_csc_ID
682  << ". (Note that this LCT may be reported multiple times. See source code for explanations.)";
683  return selected;
684  }
685  } // end check for corrupted LCT data
686 
687  // station 1 --> subsector 1 or 2
688  // station 2,3,4 --> subsector 0
689  int tp_subsector = (tp_station != 1) ? 0 : ((tp_chamber % 6 > 2) ? 1 : 2);
690 
691  // Check if the chamber belongs to this sector processor at this BX.
692  selected = get_index_csc(tp_endcap, tp_sector, tp_subsector, tp_station, tp_csc_ID, tp_bx);
693  }
694  return selected;
695 }
constexpr int MIN_ENDCAP
Definition: Common.h:45
int get_index_csc(int tp_endcap, int tp_sector, int tp_subsector, int tp_station, int tp_csc_ID, int tp_bx) const
std::pair< int, int > get_csc_max_pattern_and_quality(int station, int ring)
Definition: TrackTools.cc:169
constexpr int MIN_TRIGSECTOR
Definition: Common.h:49
int get_csc_max_slope(int station, int ring, bool useRun3CCLUT_OTMB, bool useRun3CCLUT_TMB)
Definition: TrackTools.cc:175
int chamber() const
Definition: CSCDetId.h:62
int station() const
Definition: CSCDetId.h:79
#define emtf_assert(expr)
Definition: DebugTools.h:18
int endcap() const
Definition: CSCDetId.h:85
std::pair< int, int > get_csc_max_strip_and_wire(int station, int ring)
Definition: TrackTools.cc:141
constexpr int MAX_ENDCAP
Definition: Common.h:46
subsystem_type subsystem() const
constexpr int MAX_TRIGSECTOR
Definition: Common.h:50
int triggerSector() const
Definition: CSCDetId.cc:3
int ring() const
Definition: CSCDetId.h:68
Log< level::Warning, false > LogWarning

◆ select_dt()

int PrimitiveSelection::select_dt ( const TriggerPrimitive muon_primitive) const

Definition at line 1151 of file PrimitiveSelection.cc.

References bx_, L1TMuon::TriggerPrimitive::detId(), emtf_assert, endcap_, get_index_dt(), emtf::get_trigger_csc_ID(), emtf::get_trigger_sector(), L1TMuon::TriggerPrimitive::getDTData(), L1TMuon::kDT, emtf::MAX_ENDCAP, emtf::MAX_TRIGSECTOR, emtf::MIN_ENDCAP, emtf::MIN_TRIGSECTOR, DTChamberId::sector(), sector_, DTChamberId::station(), L1TMuon::TriggerPrimitive::subsystem(), and DTChamberId::wheel().

Referenced by process().

1151  {
1152  int selected = -1;
1153 
1154  if (muon_primitive.subsystem() == L1TMuon::kDT) {
1155  const DTChamberId& tp_detId = muon_primitive.detId<DTChamberId>();
1156  const DTData& tp_data = muon_primitive.getDTData();
1157 
1158  int tp_wheel = tp_detId.wheel();
1159  int tp_station = tp_detId.station();
1160  int tp_sector = tp_detId.sector(); // sectors are 1-12, starting at phi=0 and increasing with phi
1161 
1162  // In station 4, where the top and bottom sectors are made of two chambers,
1163  // two additional sector numbers are used, 13 (after sector 4, top)
1164  // and 14 (after sector 10, bottom).
1165  if (tp_station == 4) {
1166  if (tp_sector == 13)
1167  tp_sector = 4;
1168  else if (tp_sector == 14)
1169  tp_sector = 10;
1170  }
1171 
1172  int tp_bx = tp_data.bx;
1173  int tp_phi = tp_data.radialAngle;
1174  //int tp_phiB = tp_data.bendingAngle;
1175 
1176  // Mimic 10 deg CSC chamber. I use tp_station = 2, tp_ring = 2
1177  // when calling get_trigger_sector() and get_trigger_csc_ID()
1178  int tp_chamber =
1179  tp_sector * 3 - 1; // DT chambers are 30 deg. Multiply sector number by 3 to mimic 10 deg CSC chamber number
1180  int tp_endcap = (tp_wheel > 0) ? 1 : ((tp_wheel < 0) ? 2 : 0);
1181  int csc_tp_sector = emtf::get_trigger_sector(2, 2, tp_chamber);
1182  int tp_csc_ID = emtf::get_trigger_csc_ID(2, 2, tp_chamber);
1183  int tp_subsector = 0;
1184 
1185  if (endcap_ == 1 && sector_ == 1 && bx_ == -3) { // do assertion checks only once
1186  //emtf_assert(-2 <= tp_wheel && tp_wheel <= +2);
1187  emtf_assert(tp_wheel == -2 || tp_wheel == +2); // do not include wheels -1, 0, +1
1188  //emtf_assert(1 <= tp_station && tp_station <= 4);
1189  emtf_assert(1 <= tp_station && tp_station <= 3); // do not include MB4
1190  emtf_assert(1 <= tp_sector && tp_sector <= 12);
1191  emtf_assert(emtf::MIN_ENDCAP <= tp_endcap && tp_endcap <= emtf::MAX_ENDCAP);
1192  emtf_assert(emtf::MIN_TRIGSECTOR <= csc_tp_sector && csc_tp_sector <= emtf::MAX_TRIGSECTOR);
1193  //emtf_assert(4 <= tp_csc_ID && tp_csc_ID <= 9);
1194  emtf_assert(tp_csc_ID == 6 || tp_csc_ID == 9);
1195  emtf_assert(-2048 <= tp_phi && tp_phi <= 2047); // 12-bit
1196  //emtf_assert(-512 <= tp_phiB && tp_phiB <= 511); // 10-bit
1197  }
1198 
1199  // Check if the chamber belongs to this sector processor at this BX.
1200  selected = get_index_dt(tp_endcap, csc_tp_sector, tp_subsector, tp_station, tp_csc_ID, tp_bx);
1201  }
1202  return selected;
1203 }
int get_index_dt(int tp_endcap, int csc_tp_sector, int tp_subsector, int tp_station, int tp_csc_ID, int tp_bx) const
int station() const
Return the station number.
Definition: DTChamberId.h:45
constexpr int MIN_ENDCAP
Definition: Common.h:45
int get_trigger_sector(int ring, int station, int chamber)
Definition: TrackTools.cc:85
int get_trigger_csc_ID(int ring, int station, int chamber)
Definition: TrackTools.cc:100
constexpr int MIN_TRIGSECTOR
Definition: Common.h:49
#define emtf_assert(expr)
Definition: DebugTools.h:18
int wheel() const
Return the wheel number.
Definition: DTChamberId.h:42
constexpr int MAX_ENDCAP
Definition: Common.h:46
int sector() const
Definition: DTChamberId.h:52
subsystem_type subsystem() const
constexpr int MAX_TRIGSECTOR
Definition: Common.h:50

◆ select_gem()

int PrimitiveSelection::select_gem ( const TriggerPrimitive muon_primitive) const

Definition at line 914 of file PrimitiveSelection.cc.

References bx_, GEMDetId::chamber(), L1TMuon::TriggerPrimitive::detId(), emtf_assert, endcap_, get_index_gem(), emtf::get_trigger_csc_ID(), emtf::get_trigger_sector(), L1TMuon::TriggerPrimitive::getGEMData(), L1TMuon::kGEM, GEMDetId::layer(), emtf::MAX_ENDCAP, emtf::MAX_TRIGSECTOR, emtf::MIN_ENDCAP, emtf::MIN_TRIGSECTOR, GEMDetId::region(), GEMDetId::ring(), GEMDetId::roll(), sector_, GEMDetId::station(), and L1TMuon::TriggerPrimitive::subsystem().

Referenced by process().

914  {
915  int selected = -1;
916 
917  if (muon_primitive.subsystem() == L1TMuon::kGEM) {
918  const GEMDetId& tp_detId = muon_primitive.detId<GEMDetId>();
919  const GEMData& tp_data = muon_primitive.getGEMData();
920 
921  int tp_region = tp_detId.region(); // 0 for Barrel, +/-1 for +/- Endcap
922  int tp_endcap = (tp_region == -1) ? 2 : tp_region;
923  int tp_station = tp_detId.station();
924  int tp_ring = tp_detId.ring();
925  int tp_roll = tp_detId.roll();
926  int tp_layer = tp_detId.layer();
927  int tp_chamber = tp_detId.chamber();
928 
929  int tp_bx = tp_data.bx;
930  int tp_pad = ((tp_data.pad_low + tp_data.pad_hi) / 2);
931 
932  int tp_sector = emtf::get_trigger_sector(tp_ring, tp_station, tp_chamber);
933  int tp_csc_ID = emtf::get_trigger_csc_ID(tp_ring, tp_station, tp_chamber);
934 
935  // station 1 --> subsector 1 or 2
936  // station 2,3,4 --> subsector 0
937  int tp_subsector = (tp_station != 1) ? 0 : ((tp_chamber % 6 > 2) ? 1 : 2);
938 
939  if (endcap_ == 1 && sector_ == 1 && bx_ == -3) { // do assertion checks only once
940  emtf_assert(tp_region != 0);
941  emtf_assert(emtf::MIN_ENDCAP <= tp_endcap && tp_endcap <= emtf::MAX_ENDCAP);
942  emtf_assert(emtf::MIN_TRIGSECTOR <= tp_sector && tp_sector <= emtf::MAX_TRIGSECTOR);
943  emtf_assert(1 <= tp_station && tp_station <= 2);
944  emtf_assert(tp_ring == 1);
945  emtf_assert(1 <= tp_roll && tp_roll <= 8);
946  emtf_assert(1 <= tp_layer && tp_layer <= 2);
947  emtf_assert(1 <= tp_csc_ID && tp_csc_ID <= 3);
948  emtf_assert((tp_station == 1 && 0 <= tp_pad && tp_pad <= 191) || (tp_station != 1));
949  emtf_assert((tp_station == 2 && 0 <= tp_pad && tp_pad <= 383) || (tp_station != 2));
950  }
951 
952  // Check if the chamber belongs to this sector processor at this BX.
953  selected = get_index_gem(tp_endcap, tp_sector, tp_subsector, tp_station, tp_csc_ID, tp_bx);
954  }
955  return selected;
956 }
constexpr int MIN_ENDCAP
Definition: Common.h:45
constexpr int station() const
Definition: GEMDetId.h:179
constexpr int region() const
Definition: GEMDetId.h:171
int get_trigger_sector(int ring, int station, int chamber)
Definition: TrackTools.cc:85
constexpr int layer() const
Definition: GEMDetId.h:190
constexpr int chamber() const
Definition: GEMDetId.h:183
int get_trigger_csc_ID(int ring, int station, int chamber)
Definition: TrackTools.cc:100
constexpr int MIN_TRIGSECTOR
Definition: Common.h:49
int get_index_gem(int tp_endcap, int tp_sector, int tp_subsector, int tp_station, int tp_csc_ID, int tp_bx) const
constexpr int ring() const
Definition: GEMDetId.h:176
#define emtf_assert(expr)
Definition: DebugTools.h:18
constexpr int MAX_ENDCAP
Definition: Common.h:46
constexpr int roll() const
Definition: GEMDetId.h:194
subsystem_type subsystem() const
constexpr int MAX_TRIGSECTOR
Definition: Common.h:50

◆ select_me0()

int PrimitiveSelection::select_me0 ( const TriggerPrimitive muon_primitive) const

Definition at line 1013 of file PrimitiveSelection.cc.

References bx_, ME0DetId::chamber(), L1TMuon::TriggerPrimitive::detId(), emtf_assert, endcap_, get_index_me0(), emtf::get_trigger_csc_ID(), emtf::get_trigger_sector(), L1TMuon::TriggerPrimitive::getME0Data(), L1TMuon::kME0, emtf::MAX_ENDCAP, emtf::MAX_TRIGSECTOR, emtf::MIN_ENDCAP, emtf::MIN_TRIGSECTOR, ME0DetId::region(), sector_, ME0DetId::station(), and L1TMuon::TriggerPrimitive::subsystem().

Referenced by process().

1013  {
1014  int selected = -1;
1015 
1016  if (muon_primitive.subsystem() == L1TMuon::kME0) {
1017  const ME0DetId& tp_detId = muon_primitive.detId<ME0DetId>();
1018  const ME0Data& tp_data = muon_primitive.getME0Data();
1019 
1020  int tp_region = tp_detId.region(); // 0 for Barrel, +/-1 for +/- Endcap
1021  int tp_endcap = (tp_region == -1) ? 2 : tp_region;
1022  int tp_station = tp_detId.station();
1023  int tp_ring = 1; // tp_detId.ring() does not exist
1024  //int tp_roll = tp_detId.roll();
1025  //int tp_layer = tp_detId.layer();
1026  int tp_chamber = tp_detId.chamber();
1027 
1028  int tp_bx = tp_data.bx;
1029  int tp_pad = tp_data.phiposition;
1030  int tp_partition = tp_data.partition;
1031 
1032  // The ME0 geometry is similar to ME2/1, so I use tp_station = 2, tp_ring = 1
1033  // when calling get_trigger_sector() and get_trigger_csc_ID()
1034  int tp_sector = emtf::get_trigger_sector(1, 2, tp_chamber);
1035  int tp_csc_ID = emtf::get_trigger_csc_ID(1, 2, tp_chamber);
1036  int tp_subsector = 0;
1037 
1038  if (endcap_ == 1 && sector_ == 1 && bx_ == -3) { // do assertion checks only once
1039  emtf_assert(tp_region != 0);
1040  emtf_assert(emtf::MIN_ENDCAP <= tp_endcap && tp_endcap <= emtf::MAX_ENDCAP);
1041  emtf_assert(emtf::MIN_TRIGSECTOR <= tp_sector && tp_sector <= emtf::MAX_TRIGSECTOR);
1042  emtf_assert(tp_station == 1);
1043  emtf_assert(tp_ring == 1);
1044  //emtf_assert(1 <= tp_roll && tp_roll <= 8); // not set
1045  //emtf_assert(1 <= tp_layer && tp_layer <= 6); // not set
1046  emtf_assert(1 <= tp_csc_ID && tp_csc_ID <= 3);
1047  emtf_assert(0 <= tp_pad && tp_pad <= 767);
1048  emtf_assert(0 <= tp_partition && tp_partition <= 15);
1049  }
1050 
1051  // Check if the chamber belongs to this sector processor at this BX.
1052  selected = get_index_me0(tp_endcap, tp_sector, tp_subsector, tp_station, tp_csc_ID, tp_pad, tp_bx);
1053  }
1054  return selected;
1055 }
constexpr int MIN_ENDCAP
Definition: Common.h:45
int get_trigger_sector(int ring, int station, int chamber)
Definition: TrackTools.cc:85
int get_index_me0(int tp_endcap, int tp_sector, int tp_subsector, int tp_station, int tp_csc_ID, int tp_pad, int tp_bx) const
int station() const
Definition: ME0DetId.h:58
int get_trigger_csc_ID(int ring, int station, int chamber)
Definition: TrackTools.cc:100
constexpr int MIN_TRIGSECTOR
Definition: Common.h:49
int region() const
Region id: 0 for Barrel Not in use, +/-1 For +/- Endcap.
Definition: ME0DetId.h:38
int chamber() const
Chamber id: it identifies a chamber in a ring it goes from 1 to 36.
Definition: ME0DetId.h:41
#define emtf_assert(expr)
Definition: DebugTools.h:18
constexpr int MAX_ENDCAP
Definition: Common.h:46
subsystem_type subsystem() const
constexpr int MAX_TRIGSECTOR
Definition: Common.h:50

◆ select_rpc()

int PrimitiveSelection::select_rpc ( const TriggerPrimitive muon_primitive) const

Definition at line 762 of file PrimitiveSelection.cc.

References bx_, L1TMuon::TriggerPrimitive::detId(), emtf_assert, endcap_, get_index_rpc(), L1TMuon::TriggerPrimitive::getRPCData(), L1TMuon::kRPC, emtf::MAX_ENDCAP, emtf::MAX_TRIGSECTOR, emtf::MIN_ENDCAP, emtf::MIN_TRIGSECTOR, RPCDetId::region(), RPCDetId::ring(), RPCDetId::roll(), RPCDetId::sector(), sector_, RPCDetId::station(), RPCDetId::subsector(), and L1TMuon::TriggerPrimitive::subsystem().

Referenced by process().

762  {
763  int selected = -1;
764 
765  if (muon_primitive.subsystem() == L1TMuon::kRPC) {
766  const RPCDetId& tp_detId = muon_primitive.detId<RPCDetId>();
767  const RPCData& tp_data = muon_primitive.getRPCData();
768 
769  int tp_region = tp_detId.region(); // 0 for Barrel, +/-1 for +/- Endcap
770  int tp_endcap = (tp_region == -1) ? 2 : tp_region;
771  int tp_sector = tp_detId.sector(); // 1 - 6 (60 degrees in phi, sector 1 begins at -5 deg)
772  int tp_subsector = tp_detId.subsector(); // 1 - 6 (10 degrees in phi; staggered in z)
773  int tp_station = tp_detId.station(); // 1 - 4
774  int tp_ring = tp_detId.ring(); // 2 - 3 (increasing theta)
775  int tp_roll = tp_detId.roll(); // 1 - 3 (decreasing theta; aka A - C; space between rolls is 9 - 15 in theta_fp)
776  //int tp_layer = tp_detId.layer();
777 
778  int tp_bx = tp_data.bx;
779  int tp_strip = tp_data.strip;
780  int tp_emtf_sect = tp_data.emtf_sector;
781  bool tp_CPPF = tp_data.isCPPF;
782 
783  // In neighbor chambers, have two separate CPPFDigis for the two EMTF sectors
784  if (tp_CPPF && (tp_emtf_sect != sector_))
785  return selected;
786 
787  const bool is_irpc = (tp_station == 3 || tp_station == 4) && (tp_ring == 1);
788 
789  if (endcap_ == 1 && sector_ == 1 && bx_ == -3) { // do assertion checks only once
790  emtf_assert(tp_region != 0);
791  emtf_assert(emtf::MIN_ENDCAP <= tp_endcap && tp_endcap <= emtf::MAX_ENDCAP);
792  emtf_assert(emtf::MIN_TRIGSECTOR <= tp_sector && tp_sector <= emtf::MAX_TRIGSECTOR);
793  emtf_assert(1 <= tp_subsector && tp_subsector <= 6);
794  emtf_assert(1 <= tp_station && tp_station <= 4);
795  emtf_assert((!is_irpc && 2 <= tp_ring && tp_ring <= 3) || (is_irpc && tp_ring == 1));
796  emtf_assert((!is_irpc && 1 <= tp_roll && tp_roll <= 3) || (is_irpc && 1 <= tp_roll && tp_roll <= 5));
797  //emtf_assert((!is_irpc && (tp_CPPF || (1 <= tp_strip && tp_strip <= 32))) || (is_irpc && 1 <= tp_strip && tp_strip <= 96));
798  emtf_assert((!is_irpc && (tp_CPPF || (1 <= tp_strip && tp_strip <= 32))) ||
799  (is_irpc && 1 <= tp_strip && tp_strip <= 96 * 2)); // in CMSSW, the iRPC chamber has 192 strips
800  //emtf_assert(tp_station > 2 || tp_ring != 3); // stations 1 and 2 do not receive RPCs from ring 3
801  emtf_assert(tp_data.valid == true);
802  }
803 
804  // Check if the chamber belongs to this sector processor at this BX.
805  selected = get_index_rpc(tp_endcap, tp_station, tp_ring, tp_sector, tp_subsector, tp_bx);
806  }
807  return selected;
808 }
int sector() const
Sector id: the group of chambers at same phi (and increasing r)
Definition: RPCDetId.h:81
constexpr int MIN_ENDCAP
Definition: Common.h:45
int ring() const
Definition: RPCDetId.h:59
constexpr int MIN_TRIGSECTOR
Definition: Common.h:49
int get_index_rpc(int tp_endcap, int tp_station, int tp_ring, int tp_sector, int tp_subsector, int tp_bx) const
int roll() const
Definition: RPCDetId.h:92
int subsector() const
SubSector id : some sectors are divided along the phi direction in subsectors (from 1 to 4 in Barrel...
Definition: RPCDetId.h:88
#define emtf_assert(expr)
Definition: DebugTools.h:18
int station() const
Definition: RPCDetId.h:78
int region() const
Region id: 0 for Barrel, +/-1 For +/- Endcap.
Definition: RPCDetId.h:53
constexpr int MAX_ENDCAP
Definition: Common.h:46
subsystem_type subsystem() const
constexpr int MAX_TRIGSECTOR
Definition: Common.h:50

Member Data Documentation

◆ bugME11Dupes_

bool PrimitiveSelection::bugME11Dupes_
private

Definition at line 118 of file PrimitiveSelection.h.

Referenced by configure(), and process().

◆ bx_

int PrimitiveSelection::bx_
private

◆ bxShiftCSC_

int PrimitiveSelection::bxShiftCSC_
private

Definition at line 114 of file PrimitiveSelection.h.

Referenced by configure(), and is_in_bx_csc().

◆ bxShiftGEM_

int PrimitiveSelection::bxShiftGEM_
private

Definition at line 114 of file PrimitiveSelection.h.

Referenced by configure(), and is_in_bx_gem().

◆ bxShiftME0_

int PrimitiveSelection::bxShiftME0_
private

Definition at line 114 of file PrimitiveSelection.h.

Referenced by configure(), and is_in_bx_me0().

◆ bxShiftRPC_

int PrimitiveSelection::bxShiftRPC_
private

Definition at line 114 of file PrimitiveSelection.h.

Referenced by configure(), and is_in_bx_rpc().

◆ duplicateTheta_

bool PrimitiveSelection::duplicateTheta_
private

Definition at line 116 of file PrimitiveSelection.h.

Referenced by configure(), and process().

◆ endcap_

int PrimitiveSelection::endcap_
private

◆ includeNeighbor_

bool PrimitiveSelection::includeNeighbor_
private

◆ sector_

int PrimitiveSelection::sector_
private

◆ useRun3CCLUT_OTMB_

bool PrimitiveSelection::useRun3CCLUT_OTMB_
private

Definition at line 120 of file PrimitiveSelection.h.

Referenced by configure(), and select_csc().

◆ useRun3CCLUT_TMB_

bool PrimitiveSelection::useRun3CCLUT_TMB_
private

Definition at line 121 of file PrimitiveSelection.h.

Referenced by configure(), and select_csc().

◆ verbose_

int PrimitiveSelection::verbose_
private

Definition at line 112 of file PrimitiveSelection.h.

Referenced by configure().