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Belle II Software
release-08-01-10
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Belle II Software
release-08-01-10
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Algorithm that works with eclNOptimalCollector to find the number of crystals to be summed to get the best energy resolution for each test energy and for each group of crystals (8 groups per thetaID in the barrel). More...
#include <eclNOptimalAlgorithm.h>
Public Types | |
| enum | EResult { c_OK , c_Iterate , c_NotEnoughData , c_Failure , c_Undefined } |
| The result of calibration. More... | |
Public Member Functions | |
| eclNOptimalAlgorithm () | |
| ..Constructor | |
| virtual | ~eclNOptimalAlgorithm () |
| ..Destructor | |
| std::string | getPrefix () const |
| Get the prefix used for getting calibration data. | |
| bool | checkPyExpRun (PyObject *pyObj) |
| Checks that a PyObject can be successfully converted to an ExpRun type. More... | |
| Calibration::ExpRun | convertPyExpRun (PyObject *pyObj) |
| Performs the conversion of PyObject to ExpRun. More... | |
| std::string | getCollectorName () const |
| Alias for prefix. More... | |
| void | setPrefix (const std::string &prefix) |
| Set the prefix used to identify datastore objects. | |
| void | setInputFileNames (PyObject *inputFileNames) |
| Set the input file names used for this algorithm from a Python list. More... | |
| PyObject * | getInputFileNames () |
| Get the input file names used for this algorithm and pass them out as a Python list of unicode strings. | |
| std::vector< Calibration::ExpRun > | getRunListFromAllData () const |
| Get the complete list of runs from inspection of collected data. | |
| RunRange | getRunRangeFromAllData () const |
| Get the complete RunRange from inspection of collected data. | |
| IntervalOfValidity | getIovFromAllData () const |
| Get the complete IoV from inspection of collected data. | |
| void | fillRunToInputFilesMap () |
| Fill the mapping of ExpRun -> Files. | |
| std::string | getGranularity () const |
| Get the granularity of collected data. | |
| EResult | execute (std::vector< Calibration::ExpRun > runs={}, int iteration=0, IntervalOfValidity iov=IntervalOfValidity()) |
| Runs calibration over vector of runs for a given iteration. More... | |
| EResult | execute (PyObject *runs, int iteration=0, IntervalOfValidity iov=IntervalOfValidity()) |
| Runs calibration over Python list of runs. Converts to C++ and then calls the other execute() function. | |
| std::list< Database::DBImportQuery > & | getPayloads () |
| Get constants (in TObjects) for database update from last execution. | |
| std::list< Database::DBImportQuery > | getPayloadValues () |
| Get constants (in TObjects) for database update from last execution but passed by VALUE. | |
| bool | commit () |
| Submit constants from last calibration into database. | |
| bool | commit (std::list< Database::DBImportQuery > payloads) |
| Submit constants from a (potentially previous) set of payloads. | |
| const std::string & | getDescription () const |
| Get the description of the algoithm (set by developers in constructor) | |
| bool | loadInputJson (const std::string &jsonString) |
| Load the m_inputJson variable from a string (useful from Python interface). The rturn bool indicates success or failure. | |
| const std::string | dumpOutputJson () const |
| Dump the JSON string of the output JSON object. | |
| const std::vector< Calibration::ExpRun > | findPayloadBoundaries (std::vector< Calibration::ExpRun > runs, int iteration=0) |
| Used to discover the ExpRun boundaries that you want the Python CAF to execute on. This is optional and only used in some. | |
| template<> | |
| std::shared_ptr< TTree > | getObjectPtr (const std::string &name, const std::vector< Calibration::ExpRun > &requestedRuns) |
| Specialization of getObjectPtr<TTree>. | |
Protected Member Functions | |
| virtual EResult | calibrate () override |
| ..Run algorithm on events | |
| void | setInputFileNames (std::vector< std::string > inputFileNames) |
| Set the input file names used for this algorithm. More... | |
| virtual bool | isBoundaryRequired (const Calibration::ExpRun &) |
| Given the current collector data, make a decision about whether or not this run should be the start of a payload boundary. | |
| virtual void | boundaryFindingSetup (std::vector< Calibration::ExpRun >, int) |
| If you need to make some changes to your algorithm class before 'findPayloadBoundaries' is run, make them in this function. | |
| virtual void | boundaryFindingTearDown () |
| Put your algorithm back into a state ready for normal execution if you need to. | |
| const std::vector< Calibration::ExpRun > & | getRunList () const |
| Get the list of runs for which calibration is called. | |
| int | getIteration () const |
| Get current iteration. | |
| std::vector< std::string > | getVecInputFileNames () const |
| Get the input file names used for this algorithm as a STL vector. | |
| template<class T > | |
| std::shared_ptr< T > | getObjectPtr (const std::string &name, const std::vector< Calibration::ExpRun > &requestedRuns) |
| Get calibration data object by name and list of runs, the Merge function will be called to generate the overall object. | |
| template<class T > | |
| std::shared_ptr< T > | getObjectPtr (std::string name) |
| Get calibration data object (for all runs the calibration is requested for) This function will only work during or after execute() has been called once. | |
| template<> | |
| shared_ptr< TTree > | getObjectPtr (const string &name, const vector< ExpRun > &requestedRuns) |
| We cheekily cast the TChain to TTree for the returned pointer so that the user never knows Hopefully this doesn't cause issues if people do low level stuff to the tree... | |
| std::string | getGranularityFromData () const |
| Get the granularity of collected data. | |
| void | saveCalibration (TClonesArray *data, const std::string &name) |
| Store DBArray payload with given name with default IOV. | |
| void | saveCalibration (TClonesArray *data, const std::string &name, const IntervalOfValidity &iov) |
| Store DBArray with given name and custom IOV. | |
| void | saveCalibration (TObject *data) |
| Store DB payload with default name and default IOV. | |
| void | saveCalibration (TObject *data, const IntervalOfValidity &iov) |
| Store DB payload with default name and custom IOV. | |
| void | saveCalibration (TObject *data, const std::string &name) |
| Store DB payload with given name with default IOV. | |
| void | saveCalibration (TObject *data, const std::string &name, const IntervalOfValidity &iov) |
| Store DB payload with given name and custom IOV. | |
| void | updateDBObjPtrs (const unsigned int event, const int run, const int experiment) |
| Updates any DBObjPtrs by calling update(event) for DBStore. | |
| void | setDescription (const std::string &description) |
| Set algorithm description (in constructor) | |
| void | clearCalibrationData () |
| Clear calibration data. | |
| Calibration::ExpRun | getAllGranularityExpRun () const |
| Returns the Exp,Run pair that means 'Everything'. Currently unused. | |
| void | resetInputJson () |
| Clears the m_inputJson member variable. | |
| void | resetOutputJson () |
| Clears the m_outputJson member variable. | |
| template<class T > | |
| void | setOutputJsonValue (const std::string &key, const T &value) |
| Set a key:value pair for the outputJson object, expected to used interally during calibrate() | |
| template<class T > | |
| const T | getOutputJsonValue (const std::string &key) const |
| Get a value using a key from the JSON output object, not sure why you would want to do this. | |
| template<class T > | |
| const T | getInputJsonValue (const std::string &key) const |
| Get an input JSON value using a key. The normal exceptions are raised when the key doesn't exist. | |
| const nlohmann::json & | getInputJsonObject () const |
| Get the entire top level JSON object. We explicitly say this must be of object type so that we might pick. | |
| bool | inputJsonKeyExists (const std::string &key) const |
| Test for a key in the input JSON object. | |
Protected Attributes | |
| std::vector< Calibration::ExpRun > | m_boundaries |
| When using the boundaries functionality from isBoundaryRequired, this is used to store the boundaries. It is cleared when. | |
Private Member Functions | |
| std::string | getExpRunString (Calibration::ExpRun &expRun) const |
| Gets the "exp.run" string repr. of (exp,run) | |
| std::string | getFullObjectPath (const std::string &name, Calibration::ExpRun expRun) const |
| constructs the full TDirectory + Key name of an object in a TFile based on its name and exprun | |
Private Attributes | |
| std::vector< std::string > | m_inputFileNames |
| List of input files to the Algorithm, will initially be user defined but then gets the wildcards expanded during execute() | |
| std::map< Calibration::ExpRun, std::vector< std::string > > | m_runsToInputFiles |
| Map of Runs to input files. Gets filled when you call getRunRangeFromAllData, gets cleared when setting input files again. | |
| std::string | m_granularityOfData |
| Granularity of input data. This only changes when the input files change so it isn't specific to an execution. | |
| ExecutionData | m_data |
| Data specific to a SINGLE execution of the algorithm. Gets reset at the beginning of execution. | |
| std::string | m_description {""} |
| Description of the algorithm. | |
| std::string | m_prefix {""} |
| The name of the TDirectory the collector objects are contained within. | |
| nlohmann::json | m_jsonExecutionInput = nlohmann::json::object() |
| Optional input JSON object used to make decisions about how to execute the algorithm code. | |
| nlohmann::json | m_jsonExecutionOutput = nlohmann::json::object() |
| Optional output JSON object that can be set during the execution by the underlying algorithm code. | |
Static Private Attributes | |
| static const Calibration::ExpRun | m_allExpRun = make_pair(-1, -1) |
| allExpRun | |
Algorithm that works with eclNOptimalCollector to find the number of crystals to be summed to get the best energy resolution for each test energy and for each group of crystals (8 groups per thetaID in the barrel).
Also finds the corresponding energy bias from beam backgrounds, and the peak fraction of energy contained in the crystals.
Contact Chris Hearty hearty@physics.ubc.ca for questions or concerns Find optimal number of crystals to sum for cluster energy
Definition at line 30 of file eclNOptimalAlgorithm.h.
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inherited |
The result of calibration.
Definition at line 40 of file CalibrationAlgorithm.h.
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inherited |
Checks that a PyObject can be successfully converted to an ExpRun type.
Checks if the PyObject can be converted to ExpRun.
Definition at line 28 of file CalibrationAlgorithm.cc.
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inherited |
Performs the conversion of PyObject to ExpRun.
Converts the PyObject to an ExpRun. We've preoviously checked the object so this assumes a lot about the PyObject.
Definition at line 70 of file CalibrationAlgorithm.cc.
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inherited |
Runs calibration over vector of runs for a given iteration.
You can also specify the IoV to save the database payload as. By default the Algorithm will create an IoV from your requested ExpRuns, or from the overall ExpRuns of the input data if you haven't specified ExpRuns in this function.
No checks are performed to make sure that a IoV you specify matches the data you ran over, it simply labels the IoV to commit to the database later.
Definition at line 114 of file CalibrationAlgorithm.cc.
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inlineinherited |
Alias for prefix.
For convenience and less writing, we say developers to set this to default collector module name in constructor of base class. One can however use the dublets of collector+algorithm multiple times with different settings. To bind these together correctly, the prefix has to be set the same for algo and collector. So we call the setter setPrefix rather than setModuleName or whatever. This getter will work out of the box for default cases -> return the name of module you have to add to your path to collect data for this algorihtm.
Definition at line 164 of file CalibrationAlgorithm.h.
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inherited |
Set the input file names used for this algorithm from a Python list.
Set the input file names used for this algorithm and resolve the wildcards.
Definition at line 166 of file CalibrationAlgorithm.cc.
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protectedinherited |
Set the input file names used for this algorithm.
Set the input file names used for this algorithm and resolve the wildcards.
Definition at line 194 of file CalibrationAlgorithm.cc.
1.9.1