LArSoft  v07_13_02
Liquid Argon Software toolkit - http://larsoft.org/
SpacePointFinder_module.cc
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1 //
2 // Name: SpacePointFinder_module.cc
3 //
4 // Purpose: Module SpacePointFinder.
5 //
6 // Configuration parameters.
7 //
8 // ClusterModuleLabel: // Cluster module label (e.g. "dbcluster").
9 // MinHits: // Ignore clusters with fewer than this number of hits.
10 // ClusterAssns: // If true, make associations between space points and clusters.
11 // SpacePointAlg: // Configuration for SpacePointtAlg algoriithm.
12 //
13 // Created: 15-Dec-2011 H. Greenlee
14 //
15 
16 #include <cassert>
17 #include <vector>
18 
25 
32 
33 namespace trkf {
34 
36  {
37  public:
38 
39  // Constructors, destructor
40 
41  explicit SpacePointFinder(fhicl::ParameterSet const& pset);
42  virtual ~SpacePointFinder();
43 
44  // Overrides.
45 
46  void reconfigure(fhicl::ParameterSet const& pset);
47  void beginJob();
48  void produce(art::Event& evt);
49  void endJob();
50 
51  private:
52 
53  // Fcl Attributes.
54 
55  SpacePointAlg fSptalg; // Algorithm object.
56  std::string fClusterModuleLabel;
57  unsigned int fMinHits; // Minimum number of hits per cluster.
58  bool fClusterAssns; // Make Cluster-SpacePoint associations.
59 
60  // Statistics.
61 
62  int fNumEvent; // Number of events.
63  int fNumSpt2; // Number of 2-view space points.
64  int fNumSpt3; // Number of 3-view space points.
65  };
66 
68 
69  //----------------------------------------------------------------------------
70  SpacePointFinder::SpacePointFinder(const fhicl::ParameterSet& pset)
71  //
72  // Purpose: Constructor.
73  //
74  // Arguments: pset - Module parameters.
75  //
76  : fSptalg(pset.get<fhicl::ParameterSet>("SpacePointAlg"))
77  , fMinHits(0)
78  , fClusterAssns(false)
79  , fNumEvent(0)
80  , fNumSpt2(0)
81  , fNumSpt3(0)
82  {
83  reconfigure(pset);
84  produces<std::vector<art::PtrVector<recob::SpacePoint> > >();
85  produces<std::vector<recob::SpacePoint> >();
86  produces<art::Assns<recob::SpacePoint, recob::Hit> >();
87  if(fClusterAssns)
88  produces<art::Assns<recob::SpacePoint, recob::Cluster> >();
89 
90  // Report.
91 
92  mf::LogInfo("SpacePointFinder")
93  << "SpacePointFinder configured with the following parameters:\n"
94  << " ClusterModuleLabel = " << fClusterModuleLabel << "\n"
95  << " Minimum Hits per Cluster = " << fMinHits << "\n"
96  << " Cluster associations = " << fClusterAssns;
97  }
98 
99  //----------------------------------------------------------------------------
101  //
102  // Purpose: Destructor.
103  //
104  {}
105 
106  //----------------------------------------------------------------------------
108  //
109  // Purpose: Reconfigure method.
110  //
111  // Arguments: pset - Configuration parameters.
112  //
113  {
114  fSptalg.reconfigure(pset.get<fhicl::ParameterSet>("SpacePointAlg"));
115  fClusterModuleLabel = pset.get<std::string>("ClusterModuleLabel");
116  fMinHits = pset.get<unsigned int>("MinHits");
117  fClusterAssns = pset.get<bool>("ClusterAssns");
118  }
119 
120  //----------------------------------------------------------------------------
122  {}
123 
124  //----------------------------------------------------------------------------
126  //
127  // Purpose: Produce method.
128  //
129  // Arguments: event - Art event.
130  //
131  {
132  ++fNumEvent;
133 
134  // Get Services.
135 
137 
138  // Get clusters.
139 
141  evt.getByLabel(fClusterModuleLabel, clusterh);
142 
143  // Make a double or triple loop over clusters in distinct views
144  // (depending on minimum number of views configured in SpacePointAlg).
145 
146  if(clusterh.isValid()) {
147 
148  // Make a collection of space points that will be inserted into the event.
149 
150  std::unique_ptr<std::vector< art::PtrVector<recob::SpacePoint> > > sptvecs(new std::vector< art::PtrVector<recob::SpacePoint> >);
151  std::unique_ptr<std::vector<recob::SpacePoint> > spts(new std::vector<recob::SpacePoint>);
152  std::unique_ptr< art::Assns<recob::SpacePoint, recob::Hit> > sphitassn(new art::Assns<recob::SpacePoint, recob::Hit>);
153  std::unique_ptr< art::Assns<recob::SpacePoint, recob::Cluster> > spclassn(new art::Assns<recob::SpacePoint, recob::Cluster>);
154 
155  // Make a hit vector which will be used to store hits to be passed
156  // to SpacePointAlg.
157 
160 
161  // Loop over first cluster.
162 
163  int nclus = clusterh->size();
164  for(int iclus = 0; iclus < nclus; ++iclus) {
165  art::Ptr<recob::Cluster> piclus(clusterh, iclus);
166  geo::View_t iview = piclus->View();
167 
168  std::vector< art::Ptr<recob::Hit> > ihits = fm.at(iclus);
169 
170  // Test first view.
171 
172  if(ihits.size() >= fMinHits &&
173  ((iview == geo::kU && fSptalg.enableU()) ||
174  (iview == geo::kV && fSptalg.enableV()) ||
175  (iview == geo::kZ && fSptalg.enableW()))) {
176 
177  // Store hits from first view into hit vector.
178 
179  unsigned int nihits = ihits.size();
180  hits.clear();
181  hits.reserve(nihits);
182  for(std::vector< art::Ptr<recob::Hit> >::const_iterator i = ihits.begin();
183  i != ihits.end(); ++i)
184  hits.push_back(*i);
185 
186  // Loop over second cluster.
187 
188  for(int jclus = 0; jclus < iclus; ++jclus) {
189  art::Ptr<recob::Cluster> pjclus(clusterh, jclus);
190  geo::View_t jview = pjclus->View();
191 
192  std::vector< art::Ptr<recob::Hit> > jhits = fm.at(jclus);
193 
194  // Test second view.
195 
196  if(jhits.size() >= fMinHits &&
197  ((jview == geo::kU && fSptalg.enableU()) ||
198  (jview == geo::kV && fSptalg.enableV()) ||
199  (jview == geo::kZ && fSptalg.enableW()))
200  && jview != iview) {
201 
202  // Store hits from second view into hit vector.
203 
204  unsigned int njhits = jhits.size();
205  assert(hits.size() >= nihits);
206  //hits.resize(nihits);
207  while(hits.size() > nihits)
208  hits.pop_back();
209  assert(hits.size() == nihits);
210  hits.reserve(nihits + njhits);
211  for(std::vector< art::Ptr<recob::Hit> >::const_iterator j = jhits.begin();
212  j != jhits.end(); ++j)
213  hits.push_back(*j);
214 
215  // If two-view space points are allowed, make them here.
216 
217  if(fSptalg.minViews() <= 2) {
218  std::vector<recob::SpacePoint> new_spts;
219  fSptalg.makeSpacePoints(hits, new_spts);
220 
221  // If we found some space points, insert them into the event.
222 
223  if(new_spts.size() > 0) {
224  fNumSpt2 += new_spts.size();
226  clusters.reserve(2);
227  clusters.push_back(piclus);
228  clusters.push_back(pjclus);
229 
230  // Insert newly found space points into event collection.
231 
232  int nspt = spts->size();
233  spts->insert(spts->end(), new_spts.begin(), new_spts.end());
234 
235  // Associate space points with hits and clusters.
236 
238  for(unsigned int ispt = nspt; ispt < spts->size(); ++ispt) {
239  const recob::SpacePoint& spt = (*spts)[ispt];
241  util::CreateAssn(*this, evt, *spts, hits, *sphitassn, ispt);
242  if(fClusterAssns)
243  util::CreateAssn(*this, evt, *spts, clusters, *spclassn, ispt);
244 
245  // make the PtrVector for this collection of space points
246  // Do not reproduce the following lines
247  // Contact brebel@fnal.gov if you think you need to reproduce these lines.
248  art::ProductID spid = this->getProductID< std::vector<recob::SpacePoint> >();
249  art::Ptr<recob::SpacePoint> spptr(spid, ispt, evt.productGetter(spid));
250  sptvec.push_back(spptr);
251  }
252  sptvecs->push_back(sptvec);
253  }
254  }
255 
256  // Loop over third cluster.
257 
258  for(int kclus = 0; kclus < jclus; ++kclus) {
259  art::Ptr<recob::Cluster> pkclus(clusterh, kclus);
260  geo::View_t kview = pkclus->View();
261 
262  std::vector< art::Ptr<recob::Hit> > khits = fm.at(kclus);
263 
264  // Test third view.
265 
266  if(khits.size() >= fMinHits &&
267  ((kview == geo::kU && fSptalg.enableU()) ||
268  (kview == geo::kV && fSptalg.enableV()) ||
269  (kview == geo::kZ && fSptalg.enableW()))
270  && kview != iview && kview != jview) {
271 
272  // Store hits from third view into hit vector.
273 
274  unsigned int nkhits = khits.size();
275  assert(hits.size() >= nihits + njhits);
276  //hits.resize(nihits + njhits);
277  while(hits.size() > nihits + njhits)
278  hits.pop_back();
279  assert(hits.size() == nihits + njhits);
280  hits.reserve(nihits + njhits + nkhits);
281  for(std::vector< art::Ptr<recob::Hit> >::const_iterator k = khits.begin();
282  k != khits.end(); ++k)
283  hits.push_back(*k);
284 
285  // Make three-view space points.
286 
287  std::vector<recob::SpacePoint> new_spts;
288  fSptalg.makeSpacePoints(hits, new_spts);
289 
290  // If we found some space points, insert them into the event.
291 
292  if(new_spts.size() > 0) {
293  fNumSpt3 += new_spts.size();
295  clusters.reserve(3);
296  clusters.push_back(piclus);
297  clusters.push_back(pjclus);
298  clusters.push_back(pkclus);
299 
300  // Insert newly found space points into event collection.
301 
302  int nspt = spts->size();
303  spts->insert(spts->end(), new_spts.begin(), new_spts.end());
304 
305  // Associate space points with hits and clusters.
306 
308  for(unsigned int ispt = nspt; ispt < spts->size(); ++ispt) {
309  const recob::SpacePoint& spt = (*spts)[ispt];
311  util::CreateAssn(*this, evt, *spts, hits, *sphitassn, ispt);
312  if(fClusterAssns)
313  util::CreateAssn(*this, evt, *spts, clusters, *spclassn, ispt);
314 
315  // make the PtrVector for this collection of space points
316  // Do not reproduce the following lines
317  // Contact brebel@fnal.gov if you think you need to reproduce these lines.
318  art::ProductID spid = this->getProductID< std::vector<recob::SpacePoint> >();
319  art::Ptr<recob::SpacePoint> spptr(spid, ispt, evt.productGetter(spid));
320  sptvec.push_back(spptr);
321  }
322  sptvecs->push_back(sptvec);
323  }
324  }
325  }
326  }
327  }
328  }
329  }
330 
331  // Add space points and associations to event.
332 
333  evt.put(std::move(spts));
334  evt.put(std::move(sptvecs));
335  evt.put(std::move(sphitassn));
336  if(fClusterAssns)
337  evt.put(std::move(spclassn));
338  }
339  }
340 
341  //----------------------------------------------------------------------------
343  //
344  // Purpose: Print summary.
345  //
346  {
347  mf::LogInfo("SpacePointFinder")
348  << "SpacePointFinder statistics:\n"
349  << " Number of events = " << fNumEvent << "\n"
350  << " Number of 2-view space points created = " << fNumSpt2 << "\n"
351  << " Number of 3-view space points created = " << fNumSpt3;
352  }
353 }
void reconfigure(fhicl::ParameterSet const &pset)
SpacePointFinder(fhicl::ParameterSet const &pset)
void reserve(size_type n)
Definition: PtrVector.h:343
void produce(art::Event &evt)
bool enableW() const
Definition: SpacePointAlg.h:95
enum geo::_plane_proj View_t
Enumerate the possible plane projections.
MaybeLogger_< ELseverityLevel::ELsev_info, false > LogInfo
Planes which measure V.
Definition: geo_types.h:77
Declaration of signal hit object.
Planes which measure Z direction.
Definition: geo_types.h:79
EDProductGetter const * productGetter(ProductID const) const
Definition: Event.cc:64
const art::PtrVector< recob::Hit > & getAssociatedHits(const recob::SpacePoint &spt) const
ProductID put(std::unique_ptr< PROD > &&product)
Definition: Event.h:102
bool isValid() const
Definition: Handle.h:190
auto vector(Vector const &v)
Returns a manipulator which will print the specified array.
Definition: DumpUtils.h:265
Planes which measure U.
Definition: geo_types.h:76
void hits()
Definition: readHits.C:15
#define DEFINE_ART_MODULE(klass)
Definition: ModuleMacros.h:42
void push_back(Ptr< U > const &p)
Definition: PtrVector.h:441
parameter set interface
T get(std::string const &key) const
Definition: ParameterSet.h:231
bool CreateAssn(PRODUCER const &prod, art::Event &evt, std::vector< T > const &a, art::Ptr< U > const &b, art::Assns< U, T > &assn, std::string a_instance, size_t indx=UINT_MAX)
Creates a single one-to-one association.
int minViews() const
Definition: SpacePointAlg.h:92
Declaration of cluster object.
size_type size() const
Definition: PtrVector.h:308
void reconfigure(const fhicl::ParameterSet &pset)
void makeSpacePoints(const art::PtrVector< recob::Hit > &hits, std::vector< recob::SpacePoint > &spts) const
geo::View_t View() const
Returns the view for this cluster.
Definition: Cluster.h:741
Utility object to perform functions of association.
bool enableU() const
Definition: SpacePointAlg.h:93
bool getByLabel(std::string const &label, std::string const &productInstanceName, Handle< PROD > &result) const
Definition: DataViewImpl.h:344
void pop_back()
Definition: PtrVector.h:453
TCEvent evt
Definition: DataStructs.cxx:5
bool enableV() const
Definition: SpacePointAlg.h:94
Algorithm for generating space points from hits.
void clear()
Definition: PtrVector.h:537
art framework interface to geometry description