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DTGeometryBuilderFromCondDB.cc
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1 /******* \class DTGeometryBuilderFromCondDB *******
2  *
3  * Description:
4  *
5  * detailed description
6  *
7  * \author : Stefano Lacaprara - INFN LNL <stefano.lacaprara@pd.infn.it>
8  *
9  * Modification:
10  *
11  *********************************/
12 
13 /* This Class Header */
14 #include "Geometry/DTGeometryBuilder/src/DTGeometryBuilderFromCondDB.h"
15 
16 /* Collaborating Class Header */
17 #include <CondFormats/GeometryObjects/interface/RecoIdealGeometry.h>
18 #include <Geometry/DTGeometry/interface/DTGeometry.h>
19 #include <DataFormats/MuonDetId/interface/DTChamberId.h>
20 #include <DataFormats/MuonDetId/interface/DTSuperLayerId.h>
21 #include <DataFormats/MuonDetId/interface/DTLayerId.h>
22 #include "DataFormats/GeometrySurface/interface/RectangularPlaneBounds.h"
23 #include "CLHEP/Units/GlobalSystemOfUnits.h"
24 
25 /* C++ Headers */
26 #include <iostream>
27 using namespace std;
28 
29 /* ====================================================================== */
30 
31 /* Constructor */
32 DTGeometryBuilderFromCondDB::DTGeometryBuilderFromCondDB() {
33 }
34 
35 /* Destructor */
36 DTGeometryBuilderFromCondDB::~DTGeometryBuilderFromCondDB() {
37 }
38 
39 /* Operations */
40 void
41 DTGeometryBuilderFromCondDB::build(const std::shared_ptr<DTGeometry>& theGeometry,
42  const RecoIdealGeometry& rig) {
43  // cout << "DTGeometryBuilderFromCondDB " << endl;
44  const std::vector<DetId>& detids(rig.detIds());
45  // cout << "size " << detids.size() << endl;
46 
47  size_t idt = 0;
48  DTChamber* chamber(nullptr);
49  DTSuperLayer* sl(nullptr);
50  while(idt < detids.size()) {
51  //copy(par.begin(), par.end(), ostream_iterator<double>(std::cout," "));
52  if (int(*(rig.shapeStart(idt)))==0){ // a Chamber
53  // add the provious chamber which by now has been updated with SL and
54  // layers
55  if (chamber) theGeometry->add(chamber);
56  // go for the actual one
57  DTChamberId chid(detids[idt]);
58  //cout << "CH: " << chid << endl;
59  chamber = buildChamber(chid, rig, idt);
60  }
61  else if (int(*(rig.shapeStart(idt)))==1){ // a SL
62  DTSuperLayerId slid(detids[idt]);
63  //cout << " SL: " << slid << endl;
64  sl = buildSuperLayer(chamber, slid, rig, idt);
65  theGeometry->add(sl);
66  }
67  else if (int(*(rig.shapeStart(idt)))==2){ // a Layer
68  DTLayerId lid(detids[idt]);
69  //cout << " LAY: " << lid << endl;
70  DTLayer* lay = buildLayer(sl, lid, rig, idt);
71  theGeometry->add(lay);
72  } else {
73  cout << "What is this?" << endl;
74  }
75  ++idt;
76  }
77  if (chamber) theGeometry->add(chamber); // add the last chamber
78 }
79 
80 DTChamber* DTGeometryBuilderFromCondDB::buildChamber(const DetId& id,
81  const RecoIdealGeometry& rig,
82  size_t idt ) const {
83  DTChamberId detId(id);
84 
85 
86  float width = (*(rig.shapeStart(idt) + 1))/cm; // r-phi dimension - different in different chambers
87  float length = (*(rig.shapeStart(idt) + 2))/cm; // z dimension - constant 125.55 cm
88  float thickness = (*(rig.shapeStart(idt) + 3))/cm; // radial thickness - almost constant about 18 cm
89 
91  // width is along local X
92  // length is along local Y
93  // thickness is long local Z
94  RCPPlane surf(plane(rig.tranStart(idt), rig.rotStart(idt), new RectangularPlaneBounds(width, length, thickness) ));
95 
96  DTChamber* chamber = new DTChamber(detId, surf);
97 
98  return chamber;
99 }
100 
101 DTSuperLayer*
102 DTGeometryBuilderFromCondDB::buildSuperLayer(DTChamber* chamber,
103  const DetId& id,
104  const RecoIdealGeometry& rig,
105  size_t idt) const {
106 
107  DTSuperLayerId slId(id);
108 
109  float width = (*(rig.shapeStart(idt) + 1))/cm; // r-phi dimension - different in different chambers
110  float length = (*(rig.shapeStart(idt) + 2))/cm; // z dimension - constant 126.8 cm
111  float thickness = (*(rig.shapeStart(idt) + 3))/cm; // radial thickness - almost constant about 5 cm
112 
113  // Ok this is the slayer position...
114  RCPPlane surf(plane(rig.tranStart(idt), rig.rotStart(idt), new RectangularPlaneBounds(width, length, thickness) ));
115 
116  DTSuperLayer* slayer = new DTSuperLayer(slId, surf, chamber);
117 
118  // cout << "adding slayer " << slayer->id() << " to chamber "<< chamber->id() << endl;
119  assert(chamber);
120  chamber->add(slayer);
121  return slayer;
122 }
123 
124 DTLayer*
125 DTGeometryBuilderFromCondDB::buildLayer(DTSuperLayer* sl,
126  const DetId& id,
127  const RecoIdealGeometry& rig,
128  size_t idt) const {
129 
130  DTLayerId layId(id);
131 
132  // Layer specific parameter (size)
133  float width = (*(rig.shapeStart(idt) + 1))/cm; // r-phi dimension - changes in different chambers
134  float length = (*(rig.shapeStart(idt) + 2))/cm; // z dimension - constant 126.8 cm
135  float thickness = (*(rig.shapeStart(idt) + 3))/cm; // radial thickness - almost constant about 20 cm
136 
137 
138  RCPPlane surf(plane(rig.tranStart(idt), rig.rotStart(idt), new RectangularPlaneBounds(width, length, thickness) ));
139 
140  // Loop on wires
141  int firstWire=int(*(rig.shapeStart(idt) + 4 ));//par[4]);
142  int WCounter=int(*(rig.shapeStart(idt) + 5 ));//par[5]);
143  double sensibleLenght=(*(rig.shapeStart(idt) + 6 ))/cm;//par[6]/cm;
144  DTTopology topology(firstWire, WCounter, sensibleLenght);
145 
146  DTLayerType layerType;
147 
148  DTLayer* layer = new DTLayer(layId, surf, topology, layerType, sl);
149  // cout << "adding layer " << layer->id() << " to sl "<< sl->id() << endl;
150 
151  assert(sl);
152  sl->add(layer);
153  return layer;
154 }
155 
156 DTGeometryBuilderFromCondDB::RCPPlane
157 DTGeometryBuilderFromCondDB::plane(const vector<double>::const_iterator tranStart,
158  const vector<double>::const_iterator rotStart,
159  Bounds * bounds) const {
160  // extract the position
161  const Surface::PositionType posResult(*(tranStart), *(tranStart+1), *(tranStart+2));
162  // now the rotation
163  Surface::RotationType rotResult( *(rotStart+0), *(rotStart+1), *(rotStart+2),
164  *(rotStart+3), *(rotStart+4), *(rotStart+5),
165  *(rotStart+6), *(rotStart+7), *(rotStart+8) );
166 
167  return RCPPlane( new Plane( posResult, rotResult, bounds));
168 }
ecaldqm::topology
CaloTopology const * topology(0)
RecoIdealGeometry::rotStart
std::vector< double >::const_iterator rotStart(size_t ind) const
Definition: RecoIdealGeometry.h:89
DTSuperLayer::add
void add(DTLayer *l)
Add layer to the SL which owns it.
Definition: DTSuperLayer.cc:59
Plane
Definition: Plane.h:17
RecoIdealGeometry::tranStart
std::vector< double >::const_iterator tranStart(size_t ind) const
Definition: RecoIdealGeometry.h:81
DTGeometryBuilderFromCondDB::buildChamber
DTChamber * buildChamber(const DetId &id, const RecoIdealGeometry &rig, size_t idt) const
Definition: DTGeometryBuilderFromCondDB.cc:80
RecoIdealGeometry::detIds
const std::vector< DetId > & detIds() const
Definition: RecoIdealGeometry.h:77
DetId
Definition: DetId.h:18
DTGeometryBuilderFromCondDB::buildLayer
DTLayer * buildLayer(DTSuperLayer *sl, const DetId &id, const RecoIdealGeometry &rig, size_t idt) const
Definition: DTGeometryBuilderFromCondDB.cc:125
ApeEstimator_cff.width
width
Definition: ApeEstimator_cff.py:24
RecoIdealGeometry::shapeStart
std::vector< double >::const_iterator shapeStart(size_t ind) const
Definition: RecoIdealGeometry.h:97
DTChamber::add
void add(DTSuperLayer *sl)
Add SL to the chamber which takes ownership.
Definition: DTChamber.cc:41
Bounds
Definition: Bounds.h:22
gather_cfg.cout
cout
Definition: gather_cfg.py:143
DTGeometryBuilderFromCondDB::buildSuperLayer
DTSuperLayer * buildSuperLayer(DTChamber *chamber, const DetId &id, const RecoIdealGeometry &rig, size_t idt) const
Definition: DTGeometryBuilderFromCondDB.cc:102
DTGeometryBuilderFromCondDB::build
void build(const std::shared_ptr< DTGeometry > &theGeometry, const RecoIdealGeometry &rig)
Definition: DTGeometryBuilderFromCondDB.cc:41
DTGeometryBuilderFromCondDB::plane
RCPPlane plane(const std::vector< double >::const_iterator tranStart, const std::vector< double >::const_iterator rotStart, Bounds *bounds) const
Definition: DTGeometryBuilderFromCondDB.cc:157
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