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PGeometricDetBuilder.cc
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18 #include <vector>
19 
20 using DD3Vector = ROOT::Math::DisplacementVector3D<ROOT::Math::Cartesian3D<double>>;
21 using Translation = ROOT::Math::DisplacementVector3D<ROOT::Math::Cartesian3D<double>>;
22 using RotationMatrix = ROOT::Math::Rotation3D;
23 
24 class PGeometricDetBuilder : public edm::one::EDAnalyzer<edm::one::WatchRuns> {
25 public:
27 
28  void beginRun(edm::Run const& iEvent, edm::EventSetup const&) override;
29  void analyze(edm::Event const& iEvent, edm::EventSetup const&) override {}
30  void endRun(edm::Run const& iEvent, edm::EventSetup const&) override {}
31 
32 private:
33  void putOne(const GeometricDet* gd, PGeometricDet* pgd, int lev);
38 };
39 
41  fromDD4hep_ = iConfig.getParameter<bool>("fromDD4hep");
42  dd4HepCompactViewToken_ = esConsumes<edm::Transition::BeginRun>();
43  compactViewToken_ = esConsumes<edm::Transition::BeginRun>();
44  geometricDetToken_ = esConsumes<edm::Transition::BeginRun>();
45 }
46 
48  PGeometricDet pgd;
50  if (!mydbservice.isAvailable()) {
51  edm::LogError("PGeometricDetBuilder") << "PoolDBOutputService unavailable";
52  return;
53  }
54  if (!fromDD4hep_) {
56  } else {
58  }
60 
61  // so now I have the tracker itself. loop over all its components to store them.
62  putOne(tracker, &pgd, 0);
63  std::vector<const GeometricDet*> tc = tracker->components();
64  std::vector<const GeometricDet*>::const_iterator git = tc.begin();
65  std::vector<const GeometricDet*>::const_iterator egit = tc.end();
66  int count = 0;
67  int lev = 1;
68  for (; git != egit; ++git) { // one level below "tracker"
69  putOne(*git, &pgd, lev);
70  std::vector<const GeometricDet*> inone = (*git)->components();
71  if (inone.empty())
72  ++count;
73  std::vector<const GeometricDet*>::const_iterator git2 = inone.begin();
74  std::vector<const GeometricDet*>::const_iterator egit2 = inone.end();
75  ++lev;
76  for (; git2 != egit2; ++git2) { // level 2
77  putOne(*git2, &pgd, lev);
78  std::vector<const GeometricDet*> intwo = (*git2)->components();
79  if (intwo.empty())
80  ++count;
81  std::vector<const GeometricDet*>::const_iterator git3 = intwo.begin();
82  std::vector<const GeometricDet*>::const_iterator egit3 = intwo.end();
83  ++lev;
84  for (; git3 != egit3; ++git3) { // level 3
85  putOne(*git3, &pgd, lev);
86  std::vector<const GeometricDet*> inthree = (*git3)->components();
87  if (inthree.empty())
88  ++count;
89  std::vector<const GeometricDet*>::const_iterator git4 = inthree.begin();
90  std::vector<const GeometricDet*>::const_iterator egit4 = inthree.end();
91  ++lev;
92  for (; git4 != egit4; ++git4) { //level 4
93  putOne(*git4, &pgd, lev);
94  std::vector<const GeometricDet*> infour = (*git4)->components();
95  if (infour.empty())
96  ++count;
97  std::vector<const GeometricDet*>::const_iterator git5 = infour.begin();
98  std::vector<const GeometricDet*>::const_iterator egit5 = infour.end();
99  ++lev;
100  for (; git5 != egit5; ++git5) { // level 5
101  putOne(*git5, &pgd, lev);
102  std::vector<const GeometricDet*> infive = (*git5)->components();
103  if (infive.empty())
104  ++count;
105  std::vector<const GeometricDet*>::const_iterator git6 = infive.begin();
106  std::vector<const GeometricDet*>::const_iterator egit6 = infive.end();
107  ++lev;
108  for (; git6 != egit6; ++git6) { //level 6
109  putOne(*git6, &pgd, lev);
110  std::vector<const GeometricDet*> insix = (*git6)->components();
111  if (insix.empty())
112  ++count;
113  } // level 6
114  --lev;
115  } // level 5
116  --lev;
117  } // level 4
118  --lev;
119  } //level 3
120  --lev;
121  } // level 2
122  --lev;
123  }
124  if (mydbservice->isNewTagRequest("IdealGeometryRecord")) {
125  mydbservice->createOneIOV(pgd, mydbservice->beginOfTime(), "IdealGeometryRecord");
126  } else {
127  edm::LogError("PGeometricDetBuilder") << "PGeometricDetBuilder Tag already present";
128  }
129 }
130 
133  const Translation& tran = gd->translation();
134  const RotationMatrix& rot = gd->rotation();
135  DD3Vector x, y, z;
136  rot.GetComponents(x, y, z);
137  item._name = gd->name();
138  item._ns = std::string();
139  item._level = lev;
141  const double tol = 1.e-10;
142  // Round very small calculated values to 0 to avoid discrepancies
143  // between +0 and -0 in comparisons.
144  item._x = roundIfNear0(tran.X(), tol);
145  item._y = roundIfNear0(tran.Y(), tol);
146  item._z = roundIfNear0(tran.Z(), tol);
147  item._phi = gd->phi();
148  item._rho = gd->rho();
149  item._a11 = roundIfNear0(x.X(), tol);
150  item._a12 = roundIfNear0(y.X(), tol);
151  item._a13 = roundIfNear0(z.X(), tol);
152  item._a21 = roundIfNear0(x.Y(), tol);
153  item._a22 = roundIfNear0(y.Y(), tol);
154  item._a23 = roundIfNear0(z.Y(), tol);
155  item._a31 = roundIfNear0(x.Z(), tol);
156  item._a32 = roundIfNear0(y.Z(), tol);
157  item._a33 = roundIfNear0(z.Z(), tol);
158  item._shape = static_cast<int>(gd->shape_dd4hep());
159  item._type = gd->type();
160  if (gd->shape_dd4hep() == cms::DDSolidShape::ddbox) {
161  item._params0 = gd->params()[0];
162  item._params1 = gd->params()[1];
163  item._params2 = gd->params()[2];
164  item._params3 = 0;
165  item._params4 = 0;
166  item._params5 = 0;
167  item._params6 = 0;
168  item._params7 = 0;
169  item._params8 = 0;
170  item._params9 = 0;
171  item._params10 = 0;
172  } else if (gd->shape_dd4hep() == cms::DDSolidShape::ddtrap) {
173  item._params0 = gd->params()[0];
174  item._params1 = gd->params()[1];
175  item._params2 = gd->params()[2];
176  item._params3 = gd->params()[3];
177  item._params4 = gd->params()[4];
178  item._params5 = gd->params()[5];
179  item._params6 = gd->params()[6];
180  item._params7 = gd->params()[7];
181  item._params8 = gd->params()[8];
182  item._params9 = gd->params()[9];
183  item._params10 = gd->params()[10];
184  } else {
185  item._params0 = 0;
186  item._params1 = 0;
187  item._params2 = 0;
188  item._params3 = 0;
189  item._params4 = 0;
190  item._params5 = 0;
191  item._params6 = 0;
192  item._params7 = 0;
193  item._params8 = 0;
194  item._params9 = 0;
195  item._params10 = 0;
196  }
197  item._geographicalID = gd->geographicalId();
198  item._radLength = gd->radLength();
199  item._xi = gd->xi();
200  item._pixROCRows = gd->pixROCRows();
201  item._pixROCCols = gd->pixROCCols();
202  item._pixROCx = gd->pixROCx();
203  item._pixROCy = gd->pixROCy();
204  item._stereo = gd->stereo();
205  item._siliconAPVNum = gd->siliconAPVNum();
206 
207  GeometricDet::nav_type const& nt = gd->navType();
208  size_t nts = nt.size();
209  item._numnt = nts;
210  std::vector<int> tempnt(nt.begin(), nt.end());
211  for (size_t extrant = nt.size(); extrant < 11; ++extrant) {
212  tempnt.push_back(-1);
213  }
214  item._nt0 = tempnt[0];
215  item._nt1 = tempnt[1];
216  item._nt2 = tempnt[2];
217  item._nt3 = tempnt[3];
218  item._nt4 = tempnt[4];
219  item._nt5 = tempnt[5];
220  item._nt6 = tempnt[6];
221  item._nt7 = tempnt[7];
222  item._nt8 = tempnt[8];
223  item._nt9 = tempnt[9];
224  item._nt10 = tempnt[10];
225 
226  pgd->pgeomdets_.push_back(item);
227 }
228 
double siliconAPVNum() const
Definition: GeometricDet.h:142
double pixROCy() const
Definition: GeometricDet.h:137
T getParameter(std::string const &) const
Definition: ParameterSet.h:303
edm::ESGetToken< cms::DDCompactView, IdealGeometryRecord > dd4HepCompactViewToken_
edm::ESGetToken< DDCompactView, IdealGeometryRecord > compactViewToken_
void analyze(edm::Event const &iEvent, edm::EventSetup const &) override
double phi() const
Definition: GeometricDet.h:104
const std::vector< double > & params() const
Definition: GeometricDet.h:118
const cms::DDSolidShape & shape_dd4hep() const
Definition: GeometricDet.h:116
std::vector< Item > pgeomdets_
Definition: PGeometricDet.h:50
edm::ESGetToken< GeometricDet, IdealGeometryRecord > geometricDetToken_
ROOT::Math::DisplacementVector3D< ROOT::Math::Cartesian3D< double > > Translation
Log< level::Error, false > LogError
PGeometricDetBuilder(const edm::ParameterSet &)
std::vector< int > nav_type
Definition: GeometricDet.h:42
bool stereo() const
Definition: GeometricDet.h:139
void createOneIOV(const T &payload, cond::Time_t firstSinceTime, const std::string &recordName)
ROOT::Math::DisplacementVector3D< ROOT::Math::Cartesian3D< double > > DD3Vector
const Translation & translation() const
Definition: GeometricDet.h:102
int iEvent
Definition: GenABIO.cc:224
bool isNewTagRequest(const std::string &recordName)
#define DEFINE_FWK_MODULE(type)
Definition: MakerMacros.h:16
double rho() const
Definition: GeometricDet.h:103
bool getData(T &iHolder) const
Definition: EventSetup.h:122
const std::string & name() const
Definition: GeometricDet.h:92
constexpr valType roundIfNear0(valType value, double tolerance=1.e-7)
Definition: Rounding.h:11
const RotationMatrix & rotation() const
Definition: GeometricDet.h:105
int nt
Definition: AMPTWrapper.h:42
double xi() const
Definition: GeometricDet.h:129
ROOT::Math::Rotation3D RotationMatrix
const DetId & geographicalId() const
Definition: GeometricDet.h:98
double radLength() const
Definition: GeometricDet.h:128
void putOne(const GeometricDet *gd, PGeometricDet *pgd, int lev)
const GeometricEnumType & type() const
Definition: GeometricDet.h:93
double pixROCRows() const
Definition: GeometricDet.h:134
void beginRun(edm::Run const &iEvent, edm::EventSetup const &) override
double pixROCx() const
Definition: GeometricDet.h:136
ESTransientHandle< T > getTransientHandle(const ESGetToken< T, R > &iToken) const
Definition: EventSetup.h:162
const nav_type & navType() const
Definition: GeometricDet.h:96
bool isAvailable() const
Definition: Service.h:40
void endRun(edm::Run const &iEvent, edm::EventSetup const &) override
double pixROCCols() const
Definition: GeometricDet.h:135
Definition: Run.h:45