REST-for-Physics  v2.3
Rare Event Searches ToolKit for Physics
Public Member Functions | Protected Attributes | Private Member Functions | Private Attributes
TRestDetectorHitsToSignalProcess Class Reference

Detailed Description

A process to transform a x,y,z coordinate hits into daq identified physical time signals.

This process transforms the hits found inside a TRestDetectorHitsEvent into physical signals inside a TRestDetectorSignalEvent.

This transformation requires the definition of a TRestDetectorReadout describing the relation between the physical coordinates and the daq id channels of an electronics system that is collecting the data of each physical readout channel.

For the generation of basic readouts that can be used within this process, please visit the basic-readouts repository.

The readout definition, including cathode and readout plane should be such that defines a volume where the hits coordinates will be found. If not, the hit coordinates will just be ignored.

Each TRestDetectorReadoutPlane found inside a TRestDetectorReadout definition will be iterated to identify hits contributing to different readout planes. An energy deposit or hit may contribute to more than one readout plane if the hit is found in the volume defined by readout plane and cathode. The volumes might overlap as it is for example the case of segmented mesh micromegas readouts.

The physical Z-coordinate on the input event will be associated with a physical time using the gas drift velocity given by the user as the metadata parameter "driftVelocity". If the drift velocity is not specified by the user, or it is negative, the process will try to retrieve the drift velocity from the TRestDetectorGas metadata definition that should have been defined inside TRestRun, and therefore available to the TRestRun instance. In the case that the drift velocity is retrieved from TRestDetectorGas two more parameters become relevant, the detector pressure, and the drift field, that play a role on the value of the drift velocity.

Therefore, relevant parameters (see also the process header) are:

The following figure shows the results of applying the process to detector hits generated by Monte Carlo artificially. The hit positions are translated to their corresponding physical drift time values. The left figure shows the event at the TRestDetectorHitsEvent form, the right figure shows the result of applying this process. The Z-coordinate on the input event is translated to a physical drift time expressed in microseconds.


RESTsoft - Software for Rare Event Searches with TPCs

History of developments:

2015-October First implementation of TRestDetectorHitsToSignalProcess. Javier Galan

2022-March Adding documentation. Javier Galan

Author
Javier Galan

Definition at line 35 of file TRestDetectorHitsToSignalProcess.h.

#include <TRestDetectorHitsToSignalProcess.h>

Inheritance diagram for TRestDetectorHitsToSignalProcess:
TRestEventProcess TRestMetadata

Public Member Functions

 ClassDefOverride (TRestDetectorHitsToSignalProcess, 3)
 
RESTValue GetInputEvent () const override
 Get pointer to input event. Must be implemented in the derived class.
 
RESTValue GetOutputEvent () const override
 Get pointer to output event. Must be implemented in the derived class.
 
TRestMetadataGetProcessMetadata () const
 
const char * GetProcessName () const override
 Returns the name of this process.
 
void InitProcess () override
 Process initialization. This process accesses the information inside TRestGeant4Metadata to identify the geometry volume ids associated to the hits.
 
void PrintMetadata () override
 It prints out the process parameters stored in the metadata structure.
 
TRestEventProcessEvent (TRestEvent *inputEvent) override
 The main processing event function.
 
 TRestDetectorHitsToSignalProcess ()
 Default constructor.
 
 TRestDetectorHitsToSignalProcess (const char *configFilename)
 Constructor loading data from a config file. More...
 
 ~TRestDetectorHitsToSignalProcess ()
 Default destructor.
 
- Public Member Functions inherited from TRestEventProcess
virtual Bool_t AddInputFile (const std::string &file)
 
bool ApplyCut ()
 
virtual void BeginOfEventProcess (TRestEvent *inputEvent=nullptr)
 Begin of event process, preparation work. Called right before ProcessEvent()
 
 ClassDefOverride (TRestEventProcess, 3)
 
virtual void EndOfEventProcess (TRestEvent *inputEvent=nullptr)
 End of event process. Nothing to do. Called directly after ProcessEvent()
 
virtual void EndProcess ()
 To be executed at the end of the run (outside event loop)
 
TRestAnalysisTreeGetAnalysisTree () const
 Return the local analysis tree (dummy)
 
TCanvas * GetCanvas () const
 Get canvas.
 
TRestAnalysisTreeGetFullAnalysisTree ()
 
std::vector< std::string > GetListOfAddedObservables ()
 
TRestRunGetRunInfo () const
 Return the pointer of the hosting TRestRun object.
 
virtual Long64_t GetTotalBytes () const
 
virtual Long64_t GetTotalBytesRead () const
 Interface to external file reading, get the read bytes. To be implemented in external processes.
 
virtual void InitFromConfigFile () override
 To make settings from rml file. This method must be implemented in the derived class.
 
Bool_t isExternal () const
 Return whether this process is external process.
 
Int_t LoadSectionMetadata () override
 This method does some preparation of xml section. More...
 
virtual void NotifyAnalysisTreeReset ()
 In case the analysis tree is reset(switched to new file), some process needs to have action.
 
virtual Bool_t OpenInputFiles (const std::vector< std::string > &files)
 
std::vector< std::string > ReadObservables ()
 
void RegisterAllObservables (Bool_t value=true)
 
virtual Bool_t ResetEntry ()
 
void SetAnalysisTree (TRestAnalysisTree *tree)
 Set analysis tree of this process, then add observables to it.
 
void SetCanvasSize (Int_t x, Int_t y)
 Set canvas size.
 
void SetFriendProcess (TRestEventProcess *p)
 Add friendly process to this process.
 
void SetObservableValidation (bool validate)
 
void SetParallelProcess (TRestEventProcess *p)
 Add parallel process to this process.
 
void SetRunInfo (TRestRun *r)
 Set TRestRun for this process.
 
Bool_t singleThreadOnly () const
 Return whether this process is single std::thread only.
 
 TRestEventProcess ()
 
 ~TRestEventProcess ()
 

Protected Attributes

Double_t fDriftVelocity = -1
 The drift velocity in mm/us. If it is negative, it will be calculated from TRestDetectorGas.
 
Double_t fElectricField = 100
 The electric field in V/mm. Used to calculate the drift velocity if TRestDetectorGas is defined.
 
Double_t fGasPressure = 1
 The gas pressure. If defined it will change the TRestDetectorGas pressure in atm.
 
Double_t fSampling = 1
 The sampling rate in us.
 
- Protected Attributes inherited from TRestEventProcess
TRestAnalysisTreefAnalysisTree = nullptr
 
TCanvas * fCanvas = nullptr
 < Canvas for some viewer event
 
TVector2 fCanvasSize
 Canvas size.
 
std::vector< std::pair< std::string, TVector2 > > fCuts
 Stores cut definitions. Any listed observables should be in the range. More...
 
bool fDynamicObs = false
 It defines whether to use added observables only or all the observables appear in the code.
 
bool fIsExternal = false
 It defines if the process reads event data from an external source.
 
std::map< std::string, int > fObservablesDefined
 Stores the list of all the appeared process observables in the code. More...
 
std::map< std::string, int > fObservablesUpdated
 Stores the list of process observables updated when processing this event.
 
bool fReadOnly = false
 not used, keep for compatibility
 
TRestRunfRunInfo = nullptr
 < Pointer to TRestRun object where to find metadata.
 
bool fSingleThreadOnly = false
 
bool fValidateObservables = false
 It defines if observable names should be added to the validation list.
 

Private Member Functions

void Initialize () override
 Function to initialize input/output event members and define the section name.
 
void LoadDefaultConfig ()
 Function to load the default config in absence of RML input.
 

Private Attributes

TRestDetectorGasfGas
 A pointer to the detector gas definition accessible to TRestRun.
 
TRestDetectorHitsEventfHitsEvent
 A pointer to the specific TRestDetectorHitsEvent output.
 
TRestDetectorReadoutfReadout
 A pointer to the detector readout definition available to TRestRun.
 
TRestDetectorSignalEventfSignalEvent
 A pointer to the specific TRestDetectorHitsEvent input.
 

Additional Inherited Members

- Protected Types inherited from TRestEventProcess
enum  REST_Process_Output { No_Output , Observable , Internal_Var , Full_Output }
 
- Protected Member Functions inherited from TRestEventProcess
void BeginPrintProcess ()
 [name, cut range]
 
void CreateCanvas ()
 Create the canvas.
 
void EndPrintProcess ()
 
TRestEventProcessGetFriend (const std::string &nameOrType)
 
TRestEventProcessGetFriendLive (const std::string &nameOrType)
 
template<class T >
T * GetMetadata ()
 Get a metadata object from the host TRestRun. More...
 
TRestMetadataGetMetadata (const std::string &nameOrType)
 
size_t GetNumberOfParallelProcesses () const
 
template<class T >
GetObservableValue (const std::string &name)
 
TRestEventProcessGetParallel (int i)
 
template<class T >
std::vector< T > GetParallelDataMembers (T *member_of_process)
 Get a list of data members from parallel processes which is same to this process's certain data member. More...
 
template<class T >
void SetObservableValue (const std::string &name, const T &value)
 Set observable value for AnalysisTree. More...
 

Constructor & Destructor Documentation

◆ TRestDetectorHitsToSignalProcess()

TRestDetectorHitsToSignalProcess::TRestDetectorHitsToSignalProcess ( const char *  configFilename)

Constructor loading data from a config file.

If no configuration path is defined using TRestMetadata::SetConfigFilePath the path to the config file must be specified using full path, absolute or relative.

The default behaviour is that the config file must be specified with full path, absolute or relative.

Parameters
configFilenameA const char* giving the path to an RML file.

Definition at line 121 of file TRestDetectorHitsToSignalProcess.cxx.


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