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JMONITOR::JClusterBuilder Class Reference

Local coincidence cluster builder. More...

#include <JClusterBuilder.hh>

Inheritance diagram for JMONITOR::JClusterBuilder:
JTRIGGER::JBuildL1< JHitL1 > std::vector< JCluster > JDETECTOR::JModule JTRIGGER::JBuildL1< JHit > JTRIGGER::JBuildHelper< JBuildL1< JHitL1 > > JLANG::JObjectID JDETECTOR::JLocation JGEOMETRY3D::JPosition3D std::vector< JPMT > JGEOMETRY3D::JVector3D JLANG::JComparable< JFirst_t, JSecond_t > JLANG::JComparable< JObjectID, int > JLANG::JComparable< JObjectID > JTRIGGER::JHitToolkit< JHit > JTRIGGER::JBuild< JHit > JTRIGGER::JBuildHelper< JBuildL1< JHit > > JTRIGGER::JBuildL1Parameters

Classes

class  MinimalMultiplicityFunctor
 functor that compares the multiplicity of a JCluster to some fixed given multiplicity. More...
 

Public Types

typedef JHitL1 value_type
 
typedef JMatch< value_typematch_type
 
typedef JDAQHitSelector selector_type
 

Public Member Functions

 JClusterBuilder (const double window, const bool combine)
 default constructor More...
 
 JClusterBuilder (const JDAQSuperFrame &frame, const JModule &module, const double window, const bool combine)
 constructor More...
 
void reset (const JDAQSuperFrame &frame, const JModule &module)
 This is a way to re-use the allocated memory. More...
 
vector< JCluster >::const_iterator begin_m (unsigned int multiplicity) const
 returns begin iterator for clusters with exactly the given multiplicity More...
 
vector< JCluster >::const_iterator end_m (unsigned int multiplicity) const
 returns end iterator for clusters with exactly the given multiplicity More...
 
vector< JCluster >::const_iterator begin_inclusive_m (unsigned int multiplicity) const
 returns begin iterator for clusters with at least the given multiplicity More...
 
vector< JCluster >::const_iterator end_inclusive_m (unsigned int multiplicity) const
 returns end iterator for clusters with at least the given multiplicity More...
 
unsigned int getNclusters (const unsigned int multiplicity) const
 return the number of clusters with exactly the given multiplicity More...
 
unsigned int getInclusiveNclusters (const unsigned int multiplicity) const
 return the number of clusters with at least the given multiplicity More...
 
template<class JOutput_t >
void operator() (const JSuperFrame2D< JHit > &input, JOutput_t out) const
 Build hits from calibrated data. More...
 
template<class JOutput_t >
void operator() (const JDAQSuperFrame &input, const JModule &module, JOutput_t out) const
 Build hits from uncalibrated DAQ data. More...
 
void operator() (typename JSuperFrame2D< JHit >::const_iterator __begin, typename JSuperFrame2D< JHit >::const_iterator __end, JOutput_t out) const
 Build hits from set of frames with calibrated data. More...
 
void operator() (const JSuperFrame1D< JHit > &input, JOutput_t out) const
 Build hits from calibrated data. More...
 
void operator() (const JDAQTimeslice &timeslice, const JModuleRouter &router, JOutput_t out) const
 Build hits from uncalibrated DAQ data. More...
 
void operator() (const JDAQEvent &event, const JModuleRouter &router, bool snapshot, JOutput_t out) const
 Build hits from uncalibrated DAQ data. More...
 
void operator() (const JDAQEvent &event, const JModuleRouter &router, JOutput_t out) const
 Build hits from uncalibrated DAQ data. More...
 
void operator() (const JDAQTimeslice &timeslice, const JModuleRouter &router, JOutput_t out) const
 Build hits from uncalibrated DAQ data. More...
 
void operator() (const JDAQEvent &event, const JModuleRouter &router, bool snapshot, JOutput_t out) const
 Build hits from uncalibrated DAQ data. More...
 
void operator() (const JDAQEvent &event, const JModuleRouter &router, JOutput_t out) const
 Build hits from uncalibrated DAQ data. More...
 
void setPreprocessor (const JPreprocessor::JOption_t option, const match_type &match)
 Set pre-processor of consecutive hits. More...
 
void resetPreprocessor ()
 Reset pre-processor of consecutive hits. More...
 
void setDAQHitSelector (const JDAQHitSelector &selector)
 Set DAQ hit selector. More...
 
void resetDAQHitSelector ()
 Reset DAQ hit selector. More...
 
JSuperFrame2D< JHit > & demultiplex (const JDAQSuperFrame &input, const JModule &module) const
 Demultiplex and pre-process DAQ super frame. More...
 
const JPMTgetPMT (const int index) const
 Get PMT. More...
 
JPMTgetPMT (const int index)
 Get PMT. More...
 
void setPMT (const int index, const JPMT &pmt)
 Set PMT. More...
 
void compile ()
 Compile position of module from the positions and directions of the PMTs. More...
 
void rotate (const JRotation3D &R)
 Rotate module. More...
 
void rotate (const JQuaternion3D &Q)
 Rotate module. More...
 
JPosition3Drotate (const JRotation3X &R)
 Rotate around X-axis. More...
 
JPosition3Drotate (const JRotation3Y &R)
 Rotate around Y-axis. More...
 
JPosition3Drotate (const JRotation3Z &R)
 Rotate around Z-axis. More...
 
void rotate_back (const JRotation3D &R)
 Rotate back module. More...
 
void rotate_back (const JQuaternion3D &Q)
 Rotate back module. More...
 
JPosition3Drotate_back (const JRotation3X &R)
 Rotate back around X-axis. More...
 
JPosition3Drotate_back (const JRotation3Y &R)
 Rotate back around Y-axis. More...
 
JPosition3Drotate_back (const JRotation3Z &R)
 Rotate back around Z-axis. More...
 
void transform (const JRotation3D &R, const JVector3D &pos)
 Transformation of geometry (see method JGEOMETRY3D::JPosition3D::transform(const JRotation3D&, const JVector3D&)). More...
 
void transform (const JTransformation3D &T)
 Transformation of geometry. More...
 
JVector3Dtransform (const JMatrix3D &T)
 Transform. More...
 
JModuleset (const JVector3D &pos)
 Set position. More...
 
JModuleset (const double t0)
 Set time offset. More...
 
JModuleadd (const JVector3D &pos)
 Add position. More...
 
JModuleadd (const double t0)
 Add time offset. More...
 
JModulesub (const JVector3D &pos)
 Subtract position. More...
 
JModulesub (const double t0)
 Subtract time offset. More...
 
JModuleoperator+= (const JVector3D &pos)
 Add position. More...
 
JModuleoperator-= (const JVector3D &pos)
 Subtract position. More...
 
int getID () const
 Get identifier. More...
 
void setID (const int id)
 Set identifier. More...
 
bool less (const JObjectID &object) const
 Less than method. More...
 
bool less (const int id) const
 Less than method. More...
 
bool less (const JLocation &location) const
 Less than method. More...
 
bool more (const int id) const
 More than method. More...
 
const JLocationgetLocation () const
 Get location. More...
 
JLocationgetLocation ()
 Get location. More...
 
void setLocation (const JLocation &location)
 Set location. More...
 
std::string toString () const
 Convert module location to string. More...
 
std::string toString (const std::string &fmt, const std::string target="%") const
 Convert module loation to string. More...
 
int getString () const
 Get string number. More...
 
int getFloor () const
 Get floor number. More...
 
const JPosition3DgetPosition () const
 Get position. More...
 
JPosition3DgetPosition ()
 Get position. More...
 
void setPosition (const JVector3D &pos)
 Set position. More...
 
 operator JAngle3D () const
 Type conversion operator. More...
 
 operator JVersor3D () const
 Type conversion operator. More...
 
void transform_back (const JRotation3D &R, const JVector3D &pos)
 Transform back position. More...
 
double getDot (const JAngle3D &angle) const
 Get dot product. More...
 
double getDot (const JVersor3D &dir) const
 Get dot product. More...
 
double getDot (const JVersor3Z &dir) const
 Get dot product. More...
 
double getDot (const JVector3D &vector) const
 Get dot product. More...
 
 operator JVector2D () const
 Type conversion operator. More...
 
double getX () const
 Get x position. More...
 
double getY () const
 Get y position. More...
 
double getZ () const
 Get z position. More...
 
JVector3Dnegate ()
 Negate vector. More...
 
JVector3Dmul (const double factor)
 Scale vector. More...
 
JVector3Dmul (const JNullType &object)
 Multiply with object. More...
 
JVector3Ddiv (const double factor)
 Scale vector. More...
 
bool equals (const JVector3D &vector, const double precision=std::numeric_limits< double >::min()) const
 Check equality. More...
 
double getLengthSquared () const
 Get length squared. More...
 
double getLength () const
 Get length. More...
 
double getDistanceSquared (const JVector3D &pos) const
 Get squared of distance to point. More...
 
double getDistance (const JVector3D &pos) const
 Get distance to point. More...
 
JVector3Dcross (const JVector3D &first, const JVector3D &second)
 Get cross product. More...
 

Static Public Member Functions

static const JModulegetInstance ()
 Get reference to unique instance of this class object. More...
 
static bool compare (const JModule &first, const JModule &second, const double precision=1.0e-3)
 Compare modules. More...
 

Public Attributes

double TMax_ns
 
bool combine
 
JPreprocessor::JOption_t option
 pre-processor option More...
 
JLANG::JSharedPointer< match_typematch
 pre-processor match criterion More...
 
JLANG::JSharedPointer
< selector_type
selector
 DAQ hit selector. More...
 

Protected Member Functions

void setEndIterators ()
 Use std::partition to sort the clusters in order of decreasing multiplicity. More...
 

Protected Attributes

const unsigned int max_multiplicity
 the highest allowed value for the multiplicity More...
 
vector< vector< JCluster >
::iterator
end_iterators
 iterators pointing to the first element whose multiplicity is lower than the index More...
 
int __id
 
int string
 
int floor
 
double __x
 
double __y
 
double __z
 

Detailed Description

Local coincidence cluster builder.

A coincidence cluster is defined as two or more hits on the same DOM within the defined time window.

Given a JDAQSuperframe (for the hits) and the corresponding JModule (for the timing) all the coincidence clusters are extracted and sorted by multiplicity.

Internally, the clusters are stored as a vector of JClusters

Parameters
frameJDAQSuperframe containing the hits
modulemodule corresponding to the JDAQSuperframe
windowtime window used for clustering

Definition at line 47 of file JClusterBuilder.hh.

Member Typedef Documentation

typedef JHitL1 JTRIGGER::JBuildL1< JHitL1 >::value_type
inherited

Definition at line 205 of file JBuildL1.hh.

Definition at line 39 of file JBuild.hh.

Definition at line 40 of file JBuild.hh.

Constructor & Destructor Documentation

JMONITOR::JClusterBuilder::JClusterBuilder ( const double  window,
const bool  combine 
)
inline

default constructor

Definition at line 52 of file JClusterBuilder.hh.

53  // order using std::partition
54  setEndIterators() ;
55  }
JBuildL1Parameters(const double Tmax_ns, const bool combine)
Constructor.
Definition: JBuildL1.hh:45
Template specialisation of L1 builder for JHitL1 data type.
Definition: JBuildL1.hh:197
void setEndIterators()
Use std::partition to sort the clusters in order of decreasing multiplicity.
JModule()
Default constructor.
Definition: JModule.hh:60
vector< vector< JCluster >::iterator > end_iterators
iterators pointing to the first element whose multiplicity is lower than the index ...
const unsigned int max_multiplicity
the highest allowed value for the multiplicity
JMONITOR::JClusterBuilder::JClusterBuilder ( const JDAQSuperFrame frame,
const JModule module,
const double  window,
const bool  combine 
)
inline

constructor

Definition at line 58 of file JClusterBuilder.hh.

59  // use the () operator of JBuildL1 to build L1s
60  (*this)(frame,module,back_inserter( *( (vector<JCluster>*)this) ) ) ;
61 
62  // order using std::partition
63  setEndIterators() ;
64  }
JBuildL1Parameters(const double Tmax_ns, const bool combine)
Constructor.
Definition: JBuildL1.hh:45
Template specialisation of L1 builder for JHitL1 data type.
Definition: JBuildL1.hh:197
void setEndIterators()
Use std::partition to sort the clusters in order of decreasing multiplicity.
JModule()
Default constructor.
Definition: JModule.hh:60
vector< vector< JCluster >::iterator > end_iterators
iterators pointing to the first element whose multiplicity is lower than the index ...
const unsigned int max_multiplicity
the highest allowed value for the multiplicity

Member Function Documentation

void JMONITOR::JClusterBuilder::reset ( const JDAQSuperFrame frame,
const JModule module 
)
inline

This is a way to re-use the allocated memory.

It behaves like the constructor, but new memory does not have to be allocated for vector<JCluster> all the time.

Definition at line 72 of file JClusterBuilder.hh.

72  {
73  static_cast<JModule>(*this) = module ;
74 
75  vector<JCluster>::clear() ; // vector is emptied, but memory stays allocated
76  (*this)(frame,module,back_inserter( *( (vector<JCluster>*)this) ) ) ;
77 
78  setEndIterators() ;
79  }
Data structure for a composite optical module.
Definition: JModule.hh:50
void setEndIterators()
Use std::partition to sort the clusters in order of decreasing multiplicity.
vector<JCluster>::const_iterator JMONITOR::JClusterBuilder::begin_m ( unsigned int  multiplicity) const
inline

returns begin iterator for clusters with exactly the given multiplicity

Definition at line 82 of file JClusterBuilder.hh.

82  {
83  // restrict to allowed range
84  multiplicity = max( (unsigned int)0,multiplicity) ;
85  multiplicity = min(max_multiplicity,multiplicity) ;
86  return end_iterators[multiplicity+1] ;
87  }
vector< vector< JCluster >::iterator > end_iterators
iterators pointing to the first element whose multiplicity is lower than the index ...
const unsigned int max_multiplicity
the highest allowed value for the multiplicity
vector<JCluster>::const_iterator JMONITOR::JClusterBuilder::end_m ( unsigned int  multiplicity) const
inline

returns end iterator for clusters with exactly the given multiplicity

Definition at line 90 of file JClusterBuilder.hh.

90  {
91  // restrict to allowed range
92  multiplicity = max( (unsigned int)0,multiplicity) ;
93  multiplicity = min(max_multiplicity,multiplicity) ;
94  return end_iterators[multiplicity] ;
95  }
vector< vector< JCluster >::iterator > end_iterators
iterators pointing to the first element whose multiplicity is lower than the index ...
const unsigned int max_multiplicity
the highest allowed value for the multiplicity
vector<JCluster>::const_iterator JMONITOR::JClusterBuilder::begin_inclusive_m ( unsigned int  multiplicity) const
inline

returns begin iterator for clusters with at least the given multiplicity

Definition at line 98 of file JClusterBuilder.hh.

98  {
100  }
vector< vector< JCluster >::iterator > end_iterators
iterators pointing to the first element whose multiplicity is lower than the index ...
const unsigned int max_multiplicity
the highest allowed value for the multiplicity
vector<JCluster>::const_iterator JMONITOR::JClusterBuilder::end_inclusive_m ( unsigned int  multiplicity) const
inline

returns end iterator for clusters with at least the given multiplicity

Definition at line 103 of file JClusterBuilder.hh.

103  {
104  return end_m(multiplicity) ;
105  }
vector< JCluster >::const_iterator end_m(unsigned int multiplicity) const
returns end iterator for clusters with exactly the given multiplicity
unsigned int JMONITOR::JClusterBuilder::getNclusters ( const unsigned int  multiplicity) const
inline

return the number of clusters with exactly the given multiplicity

Definition at line 108 of file JClusterBuilder.hh.

108  {
109  return distance( begin_m(multiplicity), end_m(multiplicity) ) ;
110  }
std::vector< T >::difference_type distance(typename std::vector< T >::const_iterator first, typename PhysicsEvent::const_iterator< T > second)
Specialisation of STL distance.
vector< JCluster >::const_iterator end_m(unsigned int multiplicity) const
returns end iterator for clusters with exactly the given multiplicity
vector< JCluster >::const_iterator begin_m(unsigned int multiplicity) const
returns begin iterator for clusters with exactly the given multiplicity
unsigned int JMONITOR::JClusterBuilder::getInclusiveNclusters ( const unsigned int  multiplicity) const
inline

return the number of clusters with at least the given multiplicity

Definition at line 113 of file JClusterBuilder.hh.

113  {
114  return distance( begin_inclusive_m(multiplicity), end_inclusive_m(multiplicity) ) ;
115  }
std::vector< T >::difference_type distance(typename std::vector< T >::const_iterator first, typename PhysicsEvent::const_iterator< T > second)
Specialisation of STL distance.
vector< JCluster >::const_iterator end_inclusive_m(unsigned int multiplicity) const
returns end iterator for clusters with at least the given multiplicity
vector< JCluster >::const_iterator begin_inclusive_m(unsigned int multiplicity) const
returns begin iterator for clusters with at least the given multiplicity
void JMONITOR::JClusterBuilder::setEndIterators ( )
inlineprotected

Use std::partition to sort the clusters in order of decreasing multiplicity.

The end_iterators denote the boundaries.

Definition at line 123 of file JClusterBuilder.hh.

123  {
125  for( unsigned int m=max_multiplicity; m>0; --m ) {
126  end_iterators[m] = partition( vector<JCluster>::begin(), vector<JCluster>::end(), MinimalMultiplicityFunctor(m) ) ;
127  }
129  }
vector< vector< JCluster >::iterator > end_iterators
iterators pointing to the first element whose multiplicity is lower than the index ...
const unsigned int max_multiplicity
the highest allowed value for the multiplicity
template<class JOutput_t >
void JTRIGGER::JBuildL1< JHitL1 >::operator() ( const JSuperFrame2D< JHit > &  input,
JOutput_t  out 
) const
inlineinherited

Build hits from calibrated data.

The output data are time sorted.

Parameters
inputinput L0 data
outoutput L1 data

Definition at line 227 of file JBuildL1.hh.

228  {
229  const JSuperFrameClone2D<JHit> clone(input);
230 
231  buffer.clear();
232 
233  static_cast<const JBuildL1<JHit>&>(*this)(input, std::back_inserter(buffer));
234 
235  for (typename std::vector<JHit>::const_iterator p = buffer.begin(); p != buffer.end(); ++p) {
236 
237  JHitL1 hit(input.getModuleID());
238 
239  for (typename JSuperFrameClone2D<JHit>::const_iterator i = clone.begin(); i != clone.end(); ++i) {
240 
241  for (typename JSuperFrameClone2D<JHit>::value_type::const_iterator q = i->fast_forward(*p); this->getTimeDifference(*p,*q) <= TMax_ns; ++q) {
242 
243  hit.push_back(JHitL0(i->getPMTIdentifier(),
244  i->getAxis(),
245  *q));
246  }
247  }
248 
249  *out = hit.sort();
250  ++out;
251  }
252  }
std::vector< value_type >::const_iterator const_iterator
Data structure for L1 hit.
Definition: JHitL1.hh:34
Clone of JSuperFrame2D.
std::vector< JHit > buffer
Definition: JBuildL1.hh:276
Data structure for L0 hit.
Definition: JHitL0.hh:27
void fast_forward(argument_type hit) const
Increment the internal iterators until the lower bounds corresponding to the time of the given hit...
const JHitL1 & sort()
Sort L0 hits.
Definition: JHitL1.hh:97
template<class JOutput_t >
void JTRIGGER::JBuildL1< JHitL1 >::operator() ( const JDAQSuperFrame input,
const JModule module,
JOutput_t  out 
) const
inlineinherited

Build hits from uncalibrated DAQ data.

The time calibration is applied. The output data are time sorted.

Parameters
inputDAQ super frame
modulemodule
outoutput L1 data

Definition at line 266 of file JBuildL1.hh.

269  {
270  if (!input.empty()) {
271  (*this)(this->demultiplex(input, module), out);
272  }
273  }
bool empty() const
Definition: JDAQFrame.hh:152
JSuperFrame2D< JHit > & demultiplex(const JDAQSuperFrame &input, const JModule &module) const
Demultiplex and pre-process DAQ super frame.
Definition: JBuild.hh:103
void JTRIGGER::JBuildL1< JHit >::operator() ( typename JSuperFrame2D< JHit >::const_iterator  __begin,
typename JSuperFrame2D< JHit >::const_iterator  __end,
JOutput_t  out 
) const
inlineinherited

Build hits from set of frames with calibrated data.

The output data are time sorted.

Parameters
__beginbegin of input L0 data
__endend of input L0 data
outoutput L1 data

Definition at line 133 of file JBuildL1.hh.

136  {
137  (*this)(JSuperFrame1D<JHit_t>::multiplex(__begin, __end), out);
138  }
1-dimensional frame with time calibrated data from one optical module.
void JTRIGGER::JBuildL1< JHit >::operator() ( const JSuperFrame1D< JHit > &  input,
JOutput_t  out 
) const
inlineinherited

Build hits from calibrated data.

The output data are time sorted.

Parameters
inputinput L0 data
outoutput L1 data

Definition at line 150 of file JBuildL1.hh.

151  {
152  int n = input.size() - 1; // remove end marker
153 
154  for (typename JSuperFrame1D<JHit_t>::const_iterator q = input.begin(), p = q++; n != 0; ++q, --n) {
155 
156  if (this->getTimeDifference(*p,*q) <= TMax_ns) {
157 
158  *out = *p;
159  ++out;
160 
161  if (combine) {
162  for (++q, --n; this->getTimeDifference(*p,*q) <= TMax_ns; ++q, --n) {}
163  }
164  }
165 
166  p = q;
167  }
168  }
1-dimensional frame with time calibrated data from one optical module.
alias put_queue eval echo n
Definition: qlib.csh:19
void JTRIGGER::JBuildHelper< JBuildL1< JHit > >::operator() ( const JDAQTimeslice timeslice,
const JModuleRouter router,
JOutput_t  out 
) const
inlineinherited

Build hits from uncalibrated DAQ data.

The time calibration is applied. Note that the output data are not time sorted.

Parameters
timesliceDAQ time slice
routermodule router
outoutput data

Definition at line 57 of file JBuildHelper.hh.

60  {
61  for (JDAQTimeslice::const_iterator i = timeslice.begin(); i != timeslice.end(); ++i) {
62  if (router.hasModule(i->getModuleID())) {
63  static_cast<const JBuild_t&>(*this)(*i, router.getModule(i->getModuleID()), out);
64  }
65  }
66  }
const JModule & getModule(const JObjectID &id) const
Get module parameters.
bool hasModule(const JObjectID &id) const
Has module.
void JTRIGGER::JBuildHelper< JBuildL1< JHit > >::operator() ( const JDAQEvent event,
const JModuleRouter router,
bool  snapshot,
JOutput_t  out 
) const
inlineinherited

Build hits from uncalibrated DAQ data.

The time calibration is applied. Note that the output data are not time sorted.

Parameters
eventDAQ event
routermodule router
snapshotuse shapshot hits (else use triggered hits)
outoutput data

Definition at line 81 of file JBuildHelper.hh.

85  {
86  static_cast<const JBuild_t&>(*this)(JDAQTimeslice(event, snapshot), router, out);
87  }
Data time slice.
void JTRIGGER::JBuildHelper< JBuildL1< JHit > >::operator() ( const JDAQEvent event,
const JModuleRouter router,
JOutput_t  out 
) const
inlineinherited

Build hits from uncalibrated DAQ data.

The snapshot data of the DAQ event are used. The time calibration is applied. Note that the output data are not time sorted.

Parameters
eventDAQ event
routermodule router
outoutput data

Definition at line 102 of file JBuildHelper.hh.

105  {
106  static_cast<const JBuild_t&>(*this)(JDAQTimeslice(event, true), router, out);
107  }
Data time slice.
void JTRIGGER::JBuildHelper< JBuildL1< JHitL1 > >::operator() ( const JDAQTimeslice timeslice,
const JModuleRouter router,
JOutput_t  out 
) const
inlineinherited

Build hits from uncalibrated DAQ data.

The time calibration is applied. Note that the output data are not time sorted.

Parameters
timesliceDAQ time slice
routermodule router
outoutput data

Definition at line 57 of file JBuildHelper.hh.

60  {
61  for (JDAQTimeslice::const_iterator i = timeslice.begin(); i != timeslice.end(); ++i) {
62  if (router.hasModule(i->getModuleID())) {
63  static_cast<const JBuild_t&>(*this)(*i, router.getModule(i->getModuleID()), out);
64  }
65  }
66  }
const JModule & getModule(const JObjectID &id) const
Get module parameters.
bool hasModule(const JObjectID &id) const
Has module.
void JTRIGGER::JBuildHelper< JBuildL1< JHitL1 > >::operator() ( const JDAQEvent event,
const JModuleRouter router,
bool  snapshot,
JOutput_t  out 
) const
inlineinherited

Build hits from uncalibrated DAQ data.

The time calibration is applied. Note that the output data are not time sorted.

Parameters
eventDAQ event
routermodule router
snapshotuse shapshot hits (else use triggered hits)
outoutput data

Definition at line 81 of file JBuildHelper.hh.

85  {
86  static_cast<const JBuild_t&>(*this)(JDAQTimeslice(event, snapshot), router, out);
87  }
Data time slice.
void JTRIGGER::JBuildHelper< JBuildL1< JHitL1 > >::operator() ( const JDAQEvent event,
const JModuleRouter router,
JOutput_t  out 
) const
inlineinherited

Build hits from uncalibrated DAQ data.

The snapshot data of the DAQ event are used. The time calibration is applied. Note that the output data are not time sorted.

Parameters
eventDAQ event
routermodule router
outoutput data

Definition at line 102 of file JBuildHelper.hh.

105  {
106  static_cast<const JBuild_t&>(*this)(JDAQTimeslice(event, true), router, out);
107  }
Data time slice.
void JTRIGGER::JBuild< JHit >::setPreprocessor ( const JPreprocessor::JOption_t  option,
const match_type match 
)
inlineinherited

Set pre-processor of consecutive hits.

Parameters
optionoption
matchmatch criterion

Definition at line 59 of file JBuild.hh.

60  {
61  this->option = option;
62  this->match.reset(match.clone());
63  }
JPreprocessor::JOption_t option
pre-processor option
Definition: JBuild.hh:115
JLANG::JSharedPointer< match_type > match
pre-processor match criterion
Definition: JBuild.hh:116
virtual void reset()
Reset pointer.
void JTRIGGER::JBuild< JHit >::resetPreprocessor ( )
inlineinherited

Reset pre-processor of consecutive hits.

Definition at line 69 of file JBuild.hh.

70  {
71  this->option = JPreprocessor::none_t;
72  this->match.reset();
73  }
JPreprocessor::JOption_t option
pre-processor option
Definition: JBuild.hh:115
JLANG::JSharedPointer< match_type > match
pre-processor match criterion
Definition: JBuild.hh:116
virtual void reset()
Reset pointer.
void JTRIGGER::JBuild< JHit >::setDAQHitSelector ( const JDAQHitSelector selector)
inlineinherited

Set DAQ hit selector.

Parameters
selectorDAQ hit selector

Definition at line 81 of file JBuild.hh.

82  {
83  this->selector.reset(selector.clone());
84  }
virtual clone_type clone() const
Get clone of this object.
Definition: JClonable.hh:69
void JTRIGGER::JBuild< JHit >::resetDAQHitSelector ( )
inlineinherited

Reset DAQ hit selector.

Definition at line 90 of file JBuild.hh.

91  {
92  this->selector.reset(new JDAQHitDefaultSelector());
93  }
JLANG::JSharedPointer< selector_type > selector
DAQ hit selector.
Definition: JBuild.hh:117
Default class to select DAQ hits.
JSuperFrame2D<JHit >& JTRIGGER::JBuild< JHit >::demultiplex ( const JDAQSuperFrame input,
const JModule module 
) const
inlineinherited

Demultiplex and pre-process DAQ super frame.

Parameters
inputDAQ super frame
modulemodule data
Returns
2D super frame

Definition at line 103 of file JBuild.hh.

105  {
107 
108  if (match.is_valid()) {
109  buffer.preprocess(option, *match);
110  }
111 
112  return buffer;
113  }
JPreprocessor::JOption_t option
pre-processor option
Definition: JBuild.hh:115
JLANG::JSharedPointer< selector_type > selector
DAQ hit selector.
Definition: JBuild.hh:117
JLANG::JSharedPointer< match_type > match
pre-processor match criterion
Definition: JBuild.hh:116
bool is_valid() const
Check validity of pointer.
void preprocess(JPreprocessor::JOption_t option, const match_type &match)
Pre-process data.
2-dimensional frame with time calibrated data from one optical module.
static const JModule& JDETECTOR::JModule::getInstance ( )
inlinestaticinherited

Get reference to unique instance of this class object.

This method returns a module with the standard configuration of PMTs.

Returns
reference to this class object

Definition at line 90 of file JModule.hh.

91  {
92  static JModule module;
93 
94  if (module.empty()) {
95 
96  module.push_back(JPMT( 1, JAxis3D(JVector3D(+0.000, +0.000, -0.200), JVersor3D(+0.000, +0.000, -1.000))));
97 
98  module.push_back(JPMT( 2, JAxis3D(JVector3D(+0.000, +0.105, -0.170), JVersor3D(+0.000, +0.527, -0.850))));
99  module.push_back(JPMT( 3, JAxis3D(JVector3D(+0.091, +0.053, -0.170), JVersor3D(+0.456, +0.263, -0.850))));
100  module.push_back(JPMT( 4, JAxis3D(JVector3D(+0.091, -0.053, -0.170), JVersor3D(+0.456, -0.263, -0.850))));
101  module.push_back(JPMT( 5, JAxis3D(JVector3D(+0.000, -0.105, -0.170), JVersor3D(+0.000, -0.527, -0.850))));
102  module.push_back(JPMT( 6, JAxis3D(JVector3D(-0.091, -0.053, -0.170), JVersor3D(-0.456, -0.263, -0.850))));
103  module.push_back(JPMT( 7, JAxis3D(JVector3D(-0.091, +0.053, -0.170), JVersor3D(-0.456, +0.263, -0.850))));
104 
105  module.push_back(JPMT( 8, JAxis3D(JVector3D(+0.083, +0.144, -0.111), JVersor3D(+0.416, +0.720, -0.555))));
106  module.push_back(JPMT( 9, JAxis3D(JVector3D(+0.166, +0.000, -0.111), JVersor3D(+0.832, +0.000, -0.555))));
107  module.push_back(JPMT(10, JAxis3D(JVector3D(+0.083, -0.144, -0.111), JVersor3D(+0.416, -0.720, -0.555))));
108  module.push_back(JPMT(11, JAxis3D(JVector3D(-0.083, -0.144, -0.111), JVersor3D(-0.416, -0.720, -0.555))));
109  module.push_back(JPMT(12, JAxis3D(JVector3D(-0.166, +0.000, -0.111), JVersor3D(-0.832, +0.000, -0.555))));
110  module.push_back(JPMT(13, JAxis3D(JVector3D(-0.083, +0.144, -0.111), JVersor3D(-0.416, +0.720, -0.555))));
111 
112  module.push_back(JPMT(14, JAxis3D(JVector3D(+0.000, +0.191, -0.059), JVersor3D(+0.000, +0.955, -0.295))));
113  module.push_back(JPMT(15, JAxis3D(JVector3D(+0.165, +0.096, -0.059), JVersor3D(+0.827, +0.478, -0.295))));
114  module.push_back(JPMT(16, JAxis3D(JVector3D(+0.165, -0.096, -0.059), JVersor3D(+0.827, -0.478, -0.295))));
115  module.push_back(JPMT(17, JAxis3D(JVector3D(+0.000, -0.191, -0.059), JVersor3D(+0.000, -0.955, -0.295))));
116  module.push_back(JPMT(18, JAxis3D(JVector3D(-0.165, -0.096, -0.059), JVersor3D(-0.827, -0.478, -0.295))));
117  module.push_back(JPMT(19, JAxis3D(JVector3D(-0.165, +0.096, -0.059), JVersor3D(-0.827, +0.478, -0.295))));
118 
119  module.push_back(JPMT(20, JAxis3D(JVector3D(+0.096, +0.165, +0.059), JVersor3D(+0.478, +0.827, +0.295))));
120  module.push_back(JPMT(21, JAxis3D(JVector3D(+0.191, +0.000, +0.059), JVersor3D(+0.955, +0.000, +0.295))));
121  module.push_back(JPMT(22, JAxis3D(JVector3D(+0.096, -0.165, +0.059), JVersor3D(+0.478, -0.827, +0.295))));
122  module.push_back(JPMT(23, JAxis3D(JVector3D(-0.096, -0.165, +0.059), JVersor3D(-0.478, -0.827, +0.295))));
123  module.push_back(JPMT(24, JAxis3D(JVector3D(-0.191, +0.000, +0.059), JVersor3D(-0.955, +0.000, +0.295))));
124  module.push_back(JPMT(25, JAxis3D(JVector3D(-0.096, +0.165, +0.059), JVersor3D(-0.478, +0.827, +0.295))));
125 
126  module.push_back(JPMT(26, JAxis3D(JVector3D(+0.000, +0.166, +0.111), JVersor3D(+0.000, +0.832, +0.555))));
127  module.push_back(JPMT(27, JAxis3D(JVector3D(+0.144, +0.083, +0.111), JVersor3D(+0.720, +0.416, +0.555))));
128  module.push_back(JPMT(28, JAxis3D(JVector3D(+0.144, -0.083, +0.111), JVersor3D(+0.720, -0.416, +0.555))));
129  module.push_back(JPMT(29, JAxis3D(JVector3D(+0.000, -0.166, +0.111), JVersor3D(+0.000, -0.832, +0.555))));
130  module.push_back(JPMT(30, JAxis3D(JVector3D(-0.144, -0.083, +0.111), JVersor3D(-0.720, -0.416, +0.555))));
131  module.push_back(JPMT(31, JAxis3D(JVector3D(-0.144, +0.083, +0.111), JVersor3D(-0.720, +0.416, +0.555))));
132  }
133 
134  return module;
135  }
Data structure for a composite optical module.
Definition: JModule.hh:50
Data structure for PMT geometry and calibration.
Definition: JPMT.hh:47
JVector3D()
Default constructor.
Definition: JVector3D.hh:40
static bool JDETECTOR::JModule::compare ( const JModule first,
const JModule second,
const double  precision = 1.0e-3 
)
inlinestaticinherited

Compare modules.

The comparison only covers the orientations of the modules.

Parameters
firstfirst module
secondsecond module
precisionprecision
Returns
true if two modules are equal; else false

Definition at line 148 of file JModule.hh.

151  {
152  if (first.size() == second.size()) {
153 
154  for (size_t i = 0; i != first.size(); ++i) {
155  if (first[i].getDirection().getDot(second[i].getDirection()) < 1.0 - precision) {
156  return false;
157  }
158  }
159 
160  return true;
161  }
162 
163  return false;
164  }
double getDot(const JAngle3D &angle) const
Get dot product.
JDirection3D getDirection(const Vec &v)
Get direction.
const JPMT& JDETECTOR::JModule::getPMT ( const int  index) const
inlineinherited

Get PMT.

Parameters
indexreadout channel (TDC)
Returns
PMT at given index

Definition at line 174 of file JModule.hh.

175  {
176  return at(index);
177  }
JPMT& JDETECTOR::JModule::getPMT ( const int  index)
inlineinherited

Get PMT.

Parameters
indexreadout channel (TDC)
Returns
PMT at given index

Definition at line 186 of file JModule.hh.

187  {
188  return at(index);
189  }
void JDETECTOR::JModule::setPMT ( const int  index,
const JPMT pmt 
)
inlineinherited

Set PMT.

Parameters
indexreadout channel (TDC)
pmtPMT

Definition at line 198 of file JModule.hh.

199  {
200  if (index >= (int) size()) {
201  resize(index + 1);
202  }
203 
204  (*this)[index] = pmt;
205  }
esac $JPP_DIR examples JDetector JTransitTime o $OUTPUT_FILE n N $NPE T $TTS_NS d $DEBUG for HISTOGRAM in tts tt2 pmt
Definition: JTransitTime.sh:36
void JDETECTOR::JModule::compile ( )
inlineinherited

Compile position of module from the positions and directions of the PMTs.

Definition at line 211 of file JModule.hh.

212  {
213  using namespace std;
214  using namespace JPP;
215 
216  if (!empty()) {
217 
218  JPosition3D& pos = getPosition();
219 
220  try {
221  pos = JEstimator<JPoint3D>(this->begin(), this->end());
222  }
223  catch(const exception&) {
224 
225  pos = JPosition3D(0.0, 0.0, 0.0);
226 
227  for (iterator i = begin(); i != end(); ++i) {
228  pos.add(i->getPosition());
229  }
230 
231  pos.div(size());
232  }
233  }
234  }
const JPosition3D & getPosition() const
Get position.
Definition: JPosition3D.hh:129
JPosition3D()
Default constructor.
Definition: JPosition3D.hh:47
void JDETECTOR::JModule::rotate ( const JRotation3D R)
inlineinherited

Rotate module.

Parameters
Rrotation matrix

Definition at line 242 of file JModule.hh.

243  {
245 
246  for (iterator i = this->begin(); i != this->end(); ++i) {
247  i->rotate(R);
248  }
249  }
then usage $script[distance] fi case set_variable R
Definition: JDrawLED.sh:40
JPosition3D & rotate(const JRotation3D &R)
Rotate.
Definition: JPosition3D.hh:185
void JDETECTOR::JModule::rotate ( const JQuaternion3D Q)
inlineinherited

Rotate module.

Parameters
Qquaternion

Definition at line 304 of file JModule.hh.

305  {
307 
308  for (iterator i = this->begin(); i != this->end(); ++i) {
309  i->rotate(Q);
310  }
311  }
JPosition3D & rotate(const JRotation3D &R)
Rotate.
Definition: JPosition3D.hh:185
JPosition3D& JGEOMETRY3D::JPosition3D::rotate ( const JRotation3X R)
inlineinherited

Rotate around X-axis.

Parameters
Rrotation matrix
Returns
this position

Definition at line 213 of file JPosition3D.hh.

214  {
215  R.rotate(__y, __z);
216 
217  return *this;
218  }
void rotate(double &__x, double &__y) const
Rotate.
Definition: JRotation2D.hh:96
JPosition3D& JGEOMETRY3D::JPosition3D::rotate ( const JRotation3Y R)
inlineinherited

Rotate around Y-axis.

Parameters
Rrotation matrix
Returns
this position

Definition at line 241 of file JPosition3D.hh.

242  {
243  R.rotate(__x, __z);
244 
245  return *this;
246  }
void rotate(double &__x, double &__y) const
Rotate.
Definition: JRotation2D.hh:96
JPosition3D& JGEOMETRY3D::JPosition3D::rotate ( const JRotation3Z R)
inlineinherited

Rotate around Z-axis.

Parameters
Rrotation matrix
Returns
this position

Definition at line 269 of file JPosition3D.hh.

270  {
271  R.rotate(__x, __y);
272 
273  return *this;
274  }
void rotate(double &__x, double &__y) const
Rotate.
Definition: JRotation2D.hh:96
void JDETECTOR::JModule::rotate_back ( const JRotation3D R)
inlineinherited

Rotate back module.

Parameters
Rrotation matrix

Definition at line 257 of file JModule.hh.

258  {
260 
261  for (iterator i = this->begin(); i != this->end(); ++i) {
262  i->rotate_back(R);
263  }
264  }
JPosition3D & rotate_back(const JRotation3D &R)
Rotate back.
Definition: JPosition3D.hh:199
then usage $script[distance] fi case set_variable R
Definition: JDrawLED.sh:40
void JDETECTOR::JModule::rotate_back ( const JQuaternion3D Q)
inlineinherited

Rotate back module.

Parameters
Qquaternion

Definition at line 319 of file JModule.hh.

320  {
322 
323  for (iterator i = this->begin(); i != this->end(); ++i) {
324  i->rotate_back(Q);
325  }
326  }
JPosition3D & rotate_back(const JRotation3D &R)
Rotate back.
Definition: JPosition3D.hh:199
JPosition3D& JGEOMETRY3D::JPosition3D::rotate_back ( const JRotation3X R)
inlineinherited

Rotate back around X-axis.

Parameters
Rrotation matrix
Returns
this position

Definition at line 227 of file JPosition3D.hh.

228  {
229  R.rotate_back(__y, __z);
230 
231  return *this;
232  }
void rotate_back(double &__x, double &__y) const
Rotate back.
Definition: JRotation2D.hh:112
JPosition3D& JGEOMETRY3D::JPosition3D::rotate_back ( const JRotation3Y R)
inlineinherited

Rotate back around Y-axis.

Parameters
Rrotation matrix
Returns
this position

Definition at line 255 of file JPosition3D.hh.

256  {
257  R.rotate_back(__x, __z);
258 
259  return *this;
260  }
void rotate_back(double &__x, double &__y) const
Rotate back.
Definition: JRotation2D.hh:112
JPosition3D& JGEOMETRY3D::JPosition3D::rotate_back ( const JRotation3Z R)
inlineinherited

Rotate back around Z-axis.

Parameters
Rrotation matrix
Returns
this position

Definition at line 283 of file JPosition3D.hh.

284  {
285  R.rotate_back(__x, __y);
286 
287  return *this;
288  }
void rotate_back(double &__x, double &__y) const
Rotate back.
Definition: JRotation2D.hh:112
void JDETECTOR::JModule::transform ( const JRotation3D R,
const JVector3D pos 
)
inlineinherited

Transformation of geometry (see method JGEOMETRY3D::JPosition3D::transform(const JRotation3D&, const JVector3D&)).

Parameters
Rrotation matrix
posposition of origin (after rotation)

Definition at line 273 of file JModule.hh.

275  {
277 
278  for (iterator i = this->begin(); i != this->end(); ++i) {
279  i->transform(R, pos);
280  }
281  }
void transform(const JRotation3D &R, const JVector3D &pos)
Transform position.
Definition: JPosition3D.hh:330
then usage $script[distance] fi case set_variable R
Definition: JDrawLED.sh:40
void JDETECTOR::JModule::transform ( const JTransformation3D T)
inlineinherited

Transformation of geometry.

Parameters
Ttransformation

Definition at line 289 of file JModule.hh.

290  {
291  JPosition3D::transform(T.getRotation(), T.getPosition());
292 
293  for (iterator i = this->begin(); i != this->end(); ++i) {
294  i->transform(T);
295  }
296  }
void transform(const JRotation3D &R, const JVector3D &pos)
Transform position.
Definition: JPosition3D.hh:330
do set_variable OUTPUT_DIRECTORY $WORKDIR T
JVector3D& JGEOMETRY3D::JVector3D::transform ( const JMatrix3D T)
inlineinherited

Transform.

Parameters
Tmatrix
Returns
this vector

Definition at line 205 of file JVector3D.hh.

206  {
207  T.transform(__x, __y, __z);
208 
209  return *this;
210  }
do set_variable OUTPUT_DIRECTORY $WORKDIR T
JModule& JDETECTOR::JModule::set ( const JVector3D pos)
inlineinherited

Set position.

Parameters
posposition
Returns
this module

Definition at line 335 of file JModule.hh.

336  {
337  return add(pos - static_cast<JPosition3D&>(*this));
338  }
JModule & add(const JVector3D &pos)
Add position.
Definition: JModule.hh:347
JModule& JDETECTOR::JModule::set ( const double  t0)
inlineinherited

Set time offset.

Parameters
t0time offset [ns]
Returns
this module

Definition at line 383 of file JModule.hh.

384  {
385  for (iterator i = begin(); i != end(); ++i) {
386  i->setT0(t0);
387  }
388 
389  return *this;
390  }
JModule& JDETECTOR::JModule::add ( const JVector3D pos)
inlineinherited

Add position.

Parameters
posposition
Returns
this module

Definition at line 347 of file JModule.hh.

348  {
349  for (iterator i = begin(); i != end(); ++i) {
350  i->add(pos);
351  }
352 
353  JPosition3D::add(pos);
354 
355  return *this;
356  }
JVector3D & add(const JVector3D &vector)
Add vector.
Definition: JVector3D.hh:141
JModule& JDETECTOR::JModule::add ( const double  t0)
inlineinherited

Add time offset.

Parameters
t0time offset [ns]
Returns
this module

Definition at line 399 of file JModule.hh.

400  {
401  for (iterator i = begin(); i != end(); ++i) {
402  i->addT0(t0);
403  }
404 
405  return *this;
406  }
JModule& JDETECTOR::JModule::sub ( const JVector3D pos)
inlineinherited

Subtract position.

Parameters
posposition
Returns
this module

Definition at line 365 of file JModule.hh.

366  {
367  for (iterator i = begin(); i != end(); ++i) {
368  i->sub(pos);
369  }
370 
371  JPosition3D::sub(pos);
372 
373  return *this;
374  }
JVector3D & sub(const JVector3D &vector)
Subtract vector.
Definition: JVector3D.hh:157
JModule& JDETECTOR::JModule::sub ( const double  t0)
inlineinherited

Subtract time offset.

Parameters
t0time offset [ns]
Returns
this module

Definition at line 415 of file JModule.hh.

416  {
417  for (iterator i = begin(); i != end(); ++i) {
418  i->subT0(t0);
419  }
420 
421  return *this;
422  }
JModule& JDETECTOR::JModule::operator+= ( const JVector3D pos)
inlineinherited

Add position.

Parameters
posposition
Returns
this module

Definition at line 431 of file JModule.hh.

432  {
433  return this->add(pos);
434  }
JModule & add(const JVector3D &pos)
Add position.
Definition: JModule.hh:347
JModule& JDETECTOR::JModule::operator-= ( const JVector3D pos)
inlineinherited

Subtract position.

Parameters
posposition
Returns
this module

Definition at line 443 of file JModule.hh.

444  {
445  return this->sub(pos);
446  }
JModule & sub(const JVector3D &pos)
Subtract position.
Definition: JModule.hh:365
int JLANG::JObjectID::getID ( ) const
inlineinherited

Get identifier.

Returns
identifier

Definition at line 55 of file JObjectID.hh.

56  {
57  return __id;
58  }
void JLANG::JObjectID::setID ( const int  id)
inlineinherited

Set identifier.

Parameters
ididentifier

Definition at line 66 of file JObjectID.hh.

67  {
68  this->__id = id;
69  }
bool JLANG::JObjectID::less ( const JObjectID object) const
inlineinherited

Less than method.

Parameters
objectobject identifier
Returns
true if this identifier less than given identifier; else false

Definition at line 78 of file JObjectID.hh.

79  {
80  return this->getID() < object.getID();
81  }
int getID() const
Get identifier.
Definition: JObjectID.hh:55
bool JLANG::JObjectID::less ( const int  id) const
inlineinherited

Less than method.

Parameters
ididentifier
Returns
true if this identifier less than given identifier; else false

Definition at line 90 of file JObjectID.hh.

91  {
92  return this->getID() < id;
93  }
int getID() const
Get identifier.
Definition: JObjectID.hh:55
bool JDETECTOR::JLocation::less ( const JLocation location) const
inlineinherited

Less than method.

Parameters
locationmodule location
Returns
true if first location before second location; else false

Definition at line 157 of file JLocation.hh.

158  {
159  if (this->getString() == location.getString())
160  return this->getFloor() < location.getFloor();
161  else
162  return this->getString() < location.getString();
163  }
int getFloor() const
Get floor number.
Definition: JLocation.hh:145
int getString() const
Get string number.
Definition: JLocation.hh:134
bool JLANG::JObjectID::more ( const int  id) const
inlineinherited

More than method.

Parameters
ididentifier
Returns
true if this identifier greater than given identifier; else false

Definition at line 102 of file JObjectID.hh.

103  {
104  return this->getID() > id;
105  }
int getID() const
Get identifier.
Definition: JObjectID.hh:55
const JLocation& JDETECTOR::JLocation::getLocation ( ) const
inlineinherited

Get location.

Returns
location

Definition at line 69 of file JLocation.hh.

70  {
71  return static_cast<const JLocation&>(*this);
72  }
Logical location of module.
Definition: JLocation.hh:37
JLocation& JDETECTOR::JLocation::getLocation ( )
inlineinherited

Get location.

Returns
location

Definition at line 80 of file JLocation.hh.

81  {
82  return static_cast<JLocation&>(*this);
83  }
Logical location of module.
Definition: JLocation.hh:37
void JDETECTOR::JLocation::setLocation ( const JLocation location)
inlineinherited

Set location.

Parameters
locationlocation

Definition at line 91 of file JLocation.hh.

92  {
93  static_cast<JLocation&>(*this) = location;
94  }
Logical location of module.
Definition: JLocation.hh:37
std::string JDETECTOR::JLocation::toString ( ) const
inlineinherited

Convert module location to string.

Returns
string

Definition at line 102 of file JLocation.hh.

103  {
104  return toString("% %");
105  }
std::string toString() const
Convert module location to string.
Definition: JLocation.hh:102
std::string JDETECTOR::JLocation::toString ( const std::string &  fmt,
const std::string  target = "%" 
) const
inlineinherited

Convert module loation to string.

The targets target in the format string fmt are consecutively replaced by floor and string.

Parameters
fmtformat
targettarget
Returns
string

Definition at line 118 of file JLocation.hh.

119  {
120  JLANG::JString buffer(fmt);
121 
122  buffer.replace(target, string, 1);
123  buffer.replace(target, floor, 1);
124 
125  return buffer;
126  }
Wrapper class around STL string class.
Definition: JString.hh:27
int JDETECTOR::JLocation::getString ( ) const
inlineinherited

Get string number.

Returns
string number

Definition at line 134 of file JLocation.hh.

135  {
136  return string;
137  }
int JDETECTOR::JLocation::getFloor ( ) const
inlineinherited

Get floor number.

Returns
floor number

Definition at line 145 of file JLocation.hh.

146  {
147  return floor;
148  }
const JPosition3D& JGEOMETRY3D::JPosition3D::getPosition ( ) const
inlineinherited

Get position.

Returns
position

Definition at line 129 of file JPosition3D.hh.

130  {
131  return static_cast<const JPosition3D&>(*this);
132  }
Data structure for position in three dimensions.
Definition: JPosition3D.hh:35
JPosition3D& JGEOMETRY3D::JPosition3D::getPosition ( )
inlineinherited

Get position.

Returns
position

Definition at line 140 of file JPosition3D.hh.

141  {
142  return static_cast<JPosition3D&>(*this);
143  }
Data structure for position in three dimensions.
Definition: JPosition3D.hh:35
void JGEOMETRY3D::JPosition3D::setPosition ( const JVector3D pos)
inlineinherited

Set position.

Parameters
posposition

Definition at line 151 of file JPosition3D.hh.

152  {
153  static_cast<JVector3D&>(*this) = pos;
154  }
Data structure for vector in three dimensions.
Definition: JVector3D.hh:33
JGEOMETRY3D::JPosition3D::operator JAngle3D ( ) const
inlineinherited

Type conversion operator.

Returns
angle

Definition at line 162 of file JPosition3D.hh.

163  {
164  return JAngle3D(getX(), getY(), getZ());
165  }
Data structure for angles in three dimensions.
Definition: JAngle3D.hh:31
double getY() const
Get y position.
Definition: JVector3D.hh:103
double getX() const
Get x position.
Definition: JVector3D.hh:93
double getZ() const
Get z position.
Definition: JVector3D.hh:114
JGEOMETRY3D::JPosition3D::operator JVersor3D ( ) const
inlineinherited

Type conversion operator.

Returns
direction

Definition at line 173 of file JPosition3D.hh.

174  {
175  return JVersor3D(getX(), getY(), getZ());
176  }
double getY() const
Get y position.
Definition: JVector3D.hh:103
double getX() const
Get x position.
Definition: JVector3D.hh:93
Data structure for normalised vector in three dimensions.
Definition: JVersor3D.hh:23
double getZ() const
Get z position.
Definition: JVector3D.hh:114
void JGEOMETRY3D::JPosition3D::transform_back ( const JRotation3D R,
const JVector3D pos 
)
inlineinherited

Transform back position.

The final position is obtained as follows:

  1. offset position with position pos;
  2. rotation of postion according matrix R;
Parameters
Rrotation matrix
posposition of origin (before rotation)

Definition at line 358 of file JPosition3D.hh.

360  {
361  // offset with respect to origin
362 
363  add(pos);
364 
365  // rotate back geometry to system with particle direction along z-axis
366 
367  rotate_back(R);
368  }
JPosition3D & rotate_back(const JRotation3D &R)
Rotate back.
Definition: JPosition3D.hh:199
JVector3D & add(const JVector3D &vector)
Add vector.
Definition: JVector3D.hh:141
double JGEOMETRY3D::JPosition3D::getDot ( const JAngle3D angle) const
inlineinherited

Get dot product.

Parameters
angleangle
Returns
dot product

Definition at line 377 of file JPosition3D.hh.

378  {
379  return
380  getX() * angle.getDX() +
381  getY() * angle.getDY() +
382  getZ() * angle.getDZ();
383  }
double getY() const
Get y position.
Definition: JVector3D.hh:103
double getX() const
Get x position.
Definition: JVector3D.hh:93
double getZ() const
Get z position.
Definition: JVector3D.hh:114
double getDX() const
Get x direction.
Definition: JAngle3D.hh:106
double getDZ() const
Get z direction.
Definition: JAngle3D.hh:128
double getDY() const
Get y direction.
Definition: JAngle3D.hh:117
double JGEOMETRY3D::JPosition3D::getDot ( const JVersor3D dir) const
inlineinherited

Get dot product.

Parameters
dirdirection
Returns
dot product

Definition at line 392 of file JPosition3D.hh.

393  {
394  return
395  getX() * dir.getDX() +
396  getY() * dir.getDY() +
397  getZ() * dir.getDZ();
398  }
double getDY() const
Get y direction.
Definition: JVersor3D.hh:103
double getDX() const
Get x direction.
Definition: JVersor3D.hh:92
double getY() const
Get y position.
Definition: JVector3D.hh:103
double getX() const
Get x position.
Definition: JVector3D.hh:93
double getZ() const
Get z position.
Definition: JVector3D.hh:114
double getDZ() const
Get z direction.
Definition: JVersor3D.hh:114
double JGEOMETRY3D::JPosition3D::getDot ( const JVersor3Z dir) const
inlineinherited

Get dot product.

Parameters
dirdirection
Returns
dot product

Definition at line 407 of file JPosition3D.hh.

408  {
409  return
410  getX() * dir.getDX() +
411  getY() * dir.getDY() +
412  getZ() * dir.getDZ();
413  }
double getDY() const
Get y direction.
Definition: JVersor3Z.hh:156
double getY() const
Get y position.
Definition: JVector3D.hh:103
double getDX() const
Get x direction.
Definition: JVersor3Z.hh:145
double getX() const
Get x position.
Definition: JVector3D.hh:93
double getDZ() const
Get z direction.
Definition: JVersor3Z.hh:167
double getZ() const
Get z position.
Definition: JVector3D.hh:114
double JGEOMETRY3D::JVector3D::getDot ( const JVector3D vector) const
inlineinherited

Get dot product.

Parameters
vectorvector
Returns
dot product

Definition at line 281 of file JVector3D.hh.

282  {
283  return
284  getX() * vector.getX() +
285  getY() * vector.getY() +
286  getZ() * vector.getZ();
287  }
double getY() const
Get y position.
Definition: JVector3D.hh:103
double getX() const
Get x position.
Definition: JVector3D.hh:93
double getZ() const
Get z position.
Definition: JVector3D.hh:114
JGEOMETRY3D::JVector3D::operator JVector2D ( ) const
inlineinherited

Type conversion operator.

Returns
JVector2D

Definition at line 82 of file JVector3D.hh.

83  {
84  return JVector2D(this->getX(), this->getY());
85  }
double getY() const
Get y position.
Definition: JVector3D.hh:103
double getX() const
Get x position.
Definition: JVector3D.hh:93
double JGEOMETRY3D::JVector3D::getX ( ) const
inlineinherited

Get x position.

Returns
x position

Definition at line 93 of file JVector3D.hh.

94  {
95  return __x;
96  }
double JGEOMETRY3D::JVector3D::getY ( ) const
inlineinherited

Get y position.

Returns
y position

Definition at line 103 of file JVector3D.hh.

104  {
105  return __y;
106  }
double JGEOMETRY3D::JVector3D::getZ ( ) const
inlineinherited

Get z position.

Returns
z position

Definition at line 114 of file JVector3D.hh.

115  {
116  return __z;
117  }
JVector3D& JGEOMETRY3D::JVector3D::negate ( )
inlineinherited

Negate vector.

Returns
this vector

Definition at line 125 of file JVector3D.hh.

126  {
127  __x = -__x;
128  __y = -__y;
129  __z = -__z;
130 
131  return *this;
132  }
JVector3D& JGEOMETRY3D::JVector3D::mul ( const double  factor)
inlineinherited

Scale vector.

Parameters
factormultiplication factor
Returns
this vector

Definition at line 173 of file JVector3D.hh.

174  {
175  __x *= factor;
176  __y *= factor;
177  __z *= factor;
178 
179  return *this;
180  }
JVector3D & JMATH::JMath< JVector3D , JNullType >::mul ( const JNullType object)
inlineinherited

Multiply with object.

Parameters
objectobject
Returns
result object

Definition at line 273 of file JMath.hh.

274  {
275  return static_cast<JFirst_t&>(*this) = JCalculator<JFirst_t>::calculator.mul(static_cast<const JFirst_t&>(*this), object);
276  }
Auxiliary class for arithmetic operations on objects.
Definition: JCalculator.hh:18
JVector3D& JGEOMETRY3D::JVector3D::div ( const double  factor)
inlineinherited

Scale vector.

Parameters
factordivision factor
Returns
this vector

Definition at line 189 of file JVector3D.hh.

190  {
191  __x /= factor;
192  __y /= factor;
193  __z /= factor;
194 
195  return *this;
196  }
bool JGEOMETRY3D::JVector3D::equals ( const JVector3D vector,
const double  precision = std::numeric_limits<double>::min() 
) const
inlineinherited

Check equality.

Parameters
vectorvector
precisionprecision
Returns
true if vectors are equal; else false

Definition at line 220 of file JVector3D.hh.

222  {
223  return (fabs(getX() - vector.getX()) <= precision &&
224  fabs(getY() - vector.getY()) <= precision &&
225  fabs(getZ() - vector.getZ()) <= precision);
226  }
double getY() const
Get y position.
Definition: JVector3D.hh:103
double getX() const
Get x position.
Definition: JVector3D.hh:93
double getZ() const
Get z position.
Definition: JVector3D.hh:114
double JGEOMETRY3D::JVector3D::getLengthSquared ( ) const
inlineinherited

Get length squared.

Returns
square of length

Definition at line 234 of file JVector3D.hh.

235  {
236  return getX()*getX() + getY()*getY() + getZ()*getZ();
237  }
double getY() const
Get y position.
Definition: JVector3D.hh:103
double getX() const
Get x position.
Definition: JVector3D.hh:93
double getZ() const
Get z position.
Definition: JVector3D.hh:114
double JGEOMETRY3D::JVector3D::getLength ( ) const
inlineinherited

Get length.

Returns
length

Definition at line 245 of file JVector3D.hh.

246  {
247  return sqrt(getLengthSquared());
248  }
double getLengthSquared() const
Get length squared.
Definition: JVector3D.hh:234
double JGEOMETRY3D::JVector3D::getDistanceSquared ( const JVector3D pos) const
inlineinherited

Get squared of distance to point.

Parameters
posposition
Returns
square of distance

Definition at line 257 of file JVector3D.hh.

258  {
259  return JVector3D(pos).sub(*this).getLengthSquared();
260  }
JVector3D()
Default constructor.
Definition: JVector3D.hh:40
double JGEOMETRY3D::JVector3D::getDistance ( const JVector3D pos) const
inlineinherited

Get distance to point.

Parameters
posposition
Returns
distance

Definition at line 269 of file JVector3D.hh.

270  {
271  return sqrt(getDistanceSquared(pos));
272  }
double getDistanceSquared(const JVector3D &pos) const
Get squared of distance to point.
Definition: JVector3D.hh:257
JVector3D& JGEOMETRY3D::JVector3D::cross ( const JVector3D first,
const JVector3D second 
)
inlineinherited

Get cross product.

Note that this vector should not overlap with the first or second vector,

Parameters
firstfirst vector
secondsecond vector
Returns
this vector

Definition at line 298 of file JVector3D.hh.

300  {
301  __x = first .getY() * second.getZ() - second.getY() * first .getZ();
302  __y = second.getX() * first .getZ() - first .getX() * second.getZ();
303  __z = first .getX() * second.getY() - second.getX() * first .getY();
304 
305  return *this;
306  }
double getY() const
Get y position.
Definition: JVector3D.hh:103
double getX() const
Get x position.
Definition: JVector3D.hh:93
double getZ() const
Get z position.
Definition: JVector3D.hh:114

Member Data Documentation

const unsigned int JMONITOR::JClusterBuilder::max_multiplicity
protected

the highest allowed value for the multiplicity

Definition at line 150 of file JClusterBuilder.hh.

vector< vector<JCluster>::iterator > JMONITOR::JClusterBuilder::end_iterators
protected

iterators pointing to the first element whose multiplicity is lower than the index

Definition at line 156 of file JClusterBuilder.hh.

double JTRIGGER::JBuildL1Parameters::TMax_ns
inherited

Definition at line 74 of file JBuildL1.hh.

bool JTRIGGER::JBuildL1Parameters::combine
inherited

Definition at line 75 of file JBuildL1.hh.

pre-processor option

Definition at line 115 of file JBuild.hh.

pre-processor match criterion

Definition at line 116 of file JBuild.hh.

DAQ hit selector.

Definition at line 117 of file JBuild.hh.

int JLANG::JObjectID::__id
protectedinherited

Definition at line 160 of file JObjectID.hh.

int JDETECTOR::JLocation::string
protectedinherited

Definition at line 234 of file JLocation.hh.

int JDETECTOR::JLocation::floor
protectedinherited

Definition at line 235 of file JLocation.hh.

double JGEOMETRY3D::JVector3D::__x
protectedinherited

Definition at line 309 of file JVector3D.hh.

double JGEOMETRY3D::JVector3D::__y
protectedinherited

Definition at line 310 of file JVector3D.hh.

double JGEOMETRY3D::JVector3D::__z
protectedinherited

Definition at line 311 of file JVector3D.hh.


The documentation for this class was generated from the following file: