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CSCDQM_Detector.h
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1 /*
2  * =====================================================================================
3  *
4  * Filename: CSCDQM_Detector.h
5  *
6  * Description: CSC detector functions.
7  *
8  * Version: 1.0
9  * Created: 05/19/2008 10:52:21 AM
10  * Revision: none
11  * Compiler: gcc
12  *
13  * Author: Valdas Rapsevicius (VR), Valdas.Rapsevicius@cern.ch
14  * Company: CERN, CH
15  *
16  * =====================================================================================
17  */
18 
19 #ifndef CSCDQM_Detector_H
20 #define CSCDQM_Detector_H
21 
22 #include <math.h>
23 #include <float.h>
24 #include <map>
25 #include <vector>
26 #include <iostream>
27 #include <sstream>
28 #include <iomanip>
29 
30 #ifdef CSC_RENDER_PLUGIN
31 #include "CSCDQM_Utility.h"
32 #else
33 #include "CSCDQM_Utility.h"
34 #endif
35 
36 namespace cscdqm {
37 
42 #define N_SIDES 2
43 #define N_STATIONS 4
44 #define N_RINGS 3
45 #define N_CHAMBERS 36
46 #define N_LAYERS 6
47 #define N_CFEBS 5
48 #define N_HVS 5
49 
51 #define ADDR_SIZE 7
52 
54 #define N_ELEMENTS 9540
55 //(7740 + 1800)
56 
61 #define PARTITION_INDEX(x,y) (x * partitions_y + y)
62 #define PARTITION_STEP_X (5.0 / partitions_x)
63 #define PARTITION_STEP_Y ((2.0 * 3.14159) / partitions_y)
64 
68 struct AddressMask {
69  bool side;
70  bool station;
71  bool ring;
72  bool chamber;
73  bool layer;
74  bool cfeb;
75  bool hv;
76 };
77 
82 struct Address {
83 
84  unsigned int side;
85  unsigned int station;
86  unsigned int ring;
87  unsigned int chamber;
88  unsigned int layer;
89  unsigned int cfeb;
90  unsigned int hv;
91 
93 
94  const bool operator== (const Address& a) const {
95  if (mask.side == a.mask.side && mask.side == true && side != a.side) return false;
96  if (mask.station == a.mask.station && mask.station == true && station != a.station) return false;
97  if (mask.ring == a.mask.ring && mask.ring == true && ring != a.ring) return false;
98  if (mask.chamber == a.mask.chamber && mask.chamber == true && chamber != a.chamber) return false;
99  if (mask.layer == a.mask.layer && mask.layer == true && layer != a.layer) return false;
100  if (mask.cfeb == a.mask.cfeb && mask.cfeb == true && cfeb != a.cfeb) return false;
101  if (mask.hv == a.mask.hv && mask.hv == true && hv != a.hv) return false;
102  return true;
103  };
104 
105  const Address* operator= (const Address& a) {
106  mask.side = a.mask.side;
107  side = a.side;
108  mask.station = a.mask.station;
109  station = a.station;
110  mask.ring = a.mask.ring;
111  ring = a.ring;
112  mask.chamber = a.mask.chamber;
113  chamber = a.chamber;
114  mask.layer = a.mask.layer;
115  layer = a.layer;
116  mask.cfeb = a.mask.cfeb;
117  cfeb = a.cfeb;
118  mask.hv = a.mask.hv;
119  hv = a.hv;
120  return this;
121  };
122 
123  friend std::ostream& operator<<(std::ostream& out, const Address& adr) {
124  out << adr.name();
125  return out;
126  }
127 
132  const std::string name() const {
133  std::ostringstream oss;
134  oss << "CSC";
135  if (mask.side) {
136  oss << "_Side" << (side == 1 ? "Plus" : "Minus");
137  if (mask.station) {
138  oss << "_Station" << std::setfill('0') << std::setw(2) << station;
139  if (mask.ring) {
140  oss << "_Ring" << std::setfill('0') << std::setw(2) << ring;
141  if (mask.chamber) {
142  oss << "_Chamber" << std::setfill('0') << std::setw(2) << chamber;
143  if (mask.layer) {
144  oss << "_Layer" << std::setfill('0') << std::setw(2) << layer;
145  if (mask.cfeb) {
146  oss << "_CFEB" << std::setfill('0') << std::setw(2) << cfeb;
147  if (mask.hv) {
148  oss << "_HV" << std::setfill('0') << std::setw(2) << hv;
149  }
150  }
151  }
152  }
153  }
154  }
155  }
156  return oss.str();
157  }
158 
159 };
160 
164 struct AddressBox {
166  float xmin;
167  float xmax;
168  float ymin;
169  float ymax;
170 };
171 
172 
174 typedef std::map<const unsigned int, std::vector<unsigned int> > PartitionMap;
175 
177 typedef PartitionMap::iterator PartitionMapIterator;
178 
183 class Detector {
184 
185  public:
186 
187  Detector(const unsigned int p_partitions_x = 0, const unsigned int p_partitions_y = 0);
188 
189  const bool NextAddress(unsigned int& i, const Address*& adr, const Address& mask) const;
190  const bool NextAddressBox(unsigned int& i, const AddressBox*& box, const Address& mask) const;
191  //const bool NextAddressBoxByPartition(unsigned int& i, unsigned int& px, unsigned int& py, const AddressBox*& box, const Address& mask, const float xmin, const float xmax, const float ymin, const float ymax);
192  const bool NextAddressBoxByPartition (unsigned int& i, const unsigned int px, const unsigned int py, AddressBox*& box);
193 
194  const float Area(const unsigned int station) const;
195  const float Area(const Address& adr) const;
196 
197  void PrintAddress(const Address& adr) const;
198  const bool AddressFromString(const std::string& str_address, Address& adr) const;
199 
200  const unsigned int NumberOfRings(const unsigned int station) const;
201  const unsigned int NumberOfChambers(const unsigned int station, const unsigned int ring) const;
202  const unsigned int NumberOfChamberCFEBs(const unsigned int station, const unsigned int ring) const;
203  const unsigned int NumberOfChamberHVs(const unsigned int station, const unsigned int ring) const;
204  unsigned int GlobalChamberIndex(unsigned int side, unsigned int station, unsigned int ring, unsigned int chamber) const;
205 
206  private:
207 
208  const float Eta(const float r, const float z) const;
209  const float EtaToX(const float eta) const;
210  const float PhiToY(const float phi) const;
211  const float Z(const int station, const int ring) const;
212  const float RMinHV(const int station, const int ring, const int n_hv) const;
213  const float RMaxHV(const int station, const int ring, const int n_hv) const;
214  const float PhiMinCFEB(const int station, const int ring, const int chamber, const int cfeb) const;
215  const float PhiMaxCFEB(const int station, const int ring, const int chamber, const int cfeb) const;
216 
219 
222 
224  unsigned int partitions_x;
225 
227  unsigned int partitions_y;
228 
231 
232 };
233 
234 }
235 
236 #endif
PartitionMap partitions
Detector geometry and addressing related imformation and routines.
int i
Definition: DBlmapReader.cc:9
const bool AddressFromString(const std::string &str_address, Address &adr) const
Construct address from string.
unsigned int partitions_y
const Address * operator=(const Address &a)
unsigned int layer
PartitionMap::iterator PartitionMapIterator
const float Area(const unsigned int station) const
Calculate station area in eta/phi space.
const bool NextAddressBox(unsigned int &i, const AddressBox *&box, const Address &mask) const
Address box iterator by mask.
friend std::ostream & operator<<(std::ostream &out, const Address &adr)
const float Z(const int station, const int ring) const
Get Z parameter (used in address eta/phi calculation)
unsigned int partitions_x
void PrintAddress(const Address &adr) const
Prints address for debugging.
const float RMinHV(const int station, const int ring, const int n_hv) const
Get R min parameter (used in address eta/phi calculation)
Area covered by Address in eta/phy space.
const unsigned int NumberOfRings(const unsigned int station) const
Returns the number of rings for the given station.
std::map< const unsigned int, std::vector< unsigned int > > PartitionMap
Detector(const unsigned int p_partitions_x=0, const unsigned int p_partitions_y=0)
Constructor.
Mask of the address which is used to switch on and off appropriate Address fields.
const float EtaToX(const float eta) const
Transform eta coordinate to local canvas coordinate.
const bool NextAddressBoxByPartition(unsigned int &i, const unsigned int px, const unsigned int py, AddressBox *&box)
Address box iterator by partition.
const unsigned int NumberOfChamberCFEBs(const unsigned int station, const unsigned int ring) const
Returns the number of CFEBs per Chamber on given Station/Ring.
const bool NextAddress(unsigned int &i, const Address *&adr, const Address &mask) const
Address iterator by mask.
const unsigned int NumberOfChamberHVs(const unsigned int station, const unsigned int ring) const
Returns the number of HVs per Chamber on given Station/Ring.
unsigned int cfeb
const bool operator==(const Address &a) const
unsigned int chamber
#define N_ELEMENTS
unsigned int hv
const float PhiMinCFEB(const int station, const int ring, const int chamber, const int cfeb) const
Get Min phi boundary for particular CFEB.
unsigned int station
const std::string name() const
Get the full name of the address prefixed with CSC_. It is being used by summaryReportContent variabl...
#define N_STATIONS
tuple out
Definition: dbtoconf.py:99
Geom::Phi< T > phi() const
double a
Definition: hdecay.h:121
const float Eta(const float r, const float z) const
AddressMask mask
const float PhiToY(const float phi) const
Transform phi coordinate to local canvas coordinate.
unsigned int GlobalChamberIndex(unsigned int side, unsigned int station, unsigned int ring, unsigned int chamber) const
Return global chamber index on his geometric location.
AddressBox boxes[9540]
unsigned int side
const unsigned int NumberOfChambers(const unsigned int station, const unsigned int ring) const
Returns the number of chambers for the given station and ring.
Structure to store detector addresses of any granularity: from whole detector to the single HV elemen...
unsigned int ring
const float PhiMaxCFEB(const int station, const int ring, const int chamber, const int cfeb) const
Get Max phi boundary for particular CFEB.
const float RMaxHV(const int station, const int ring, const int n_hv) const
Get R max parameter (used in address eta/phi calculation)