Analysis::CalibrationDataMappedHistogramContainer Class Reference

#include <CalibrationDataContainer.h>

Inheritance diagram for Analysis::CalibrationDataMappedHistogramContainer:
Analysis::CalibrationDataHistogramContainer Analysis::CalibrationDataContainer

List of all members.

Classes

class  Bin

Public Member Functions

 CalibrationDataMappedHistogramContainer (const char *name="default")
virtual CalibrationStatus getResult (const CalibrationDataVariables &x, double &result, TObject *obj=0, bool extrapolate=false) const
virtual CalibrationStatus getStatUncertainty (const CalibrationDataVariables &x, double &result) const
virtual CalibrationStatus getUncertainty (const std::string &unc, const CalibrationDataVariables &x, UncertaintyResult &result, TObject *obj=0) const
virtual bool isInterpolated () const
virtual int getTagWeightAxis () const
void setMappedVariables (const std::vector< std::string > &variables)
std::vector< std::string > getMappedVariables () const
virtual std::vector< double > getBinBoundaries (unsigned int vartype) const
unsigned int addBin (const Bin &bin)
unsigned int getNMappedBins () const

Detailed Description

This is the class holding information for histogram-based calibration results, in cases where 'irregular' binning is used (e.g., if the binning in one variable depends on another variable), or where the dimensionality becomes too high for even 3D histograms (so that a mapping is needed to use THx).

Using this class instead of the 'regular' histogram container will imply a performance penalty, as bin numberings are not assumed to feature any regularity.

Member Function Documentation

unsigned int CalibrationDataMappedHistogramContainer::addBin ( const Bin bin  ) 

Add mapping bin. The return value is the bin number.

std::vector< double > CalibrationDataMappedHistogramContainer::getBinBoundaries ( unsigned int  vartype  )  const [virtual]

Retrieve the bin boundaries for the specified variable type (which should be a CalibrationParametrization enum). An empty vector will be returned if the specified variable is not actually used.

Reimplemented from Analysis::CalibrationDataHistogramContainer.

std::vector< std::string > CalibrationDataMappedHistogramContainer::getMappedVariables (  )  const

List which variables get mapped onto a single histogram axis

unsigned int CalibrationDataMappedHistogramContainer::getNMappedBins (  )  const

return the number of mapped bins

CalibrationStatus CalibrationDataMappedHistogramContainer::getResult ( const CalibrationDataVariables x,
double &  result,
TObject *  obj = 0,
bool  extrapolate = false 
) const [virtual]

retrieve the calibration result.

Parameters:
x user-supplied (kinematic or other) variables
result requested result
obj object holding the requested result (it will be computed if not provided)
extrapolate flag that extrapolation applies (should only be relevant when using eigenvector variations)
Returns:
status code (see above)

Reimplemented from Analysis::CalibrationDataHistogramContainer.

CalibrationStatus CalibrationDataMappedHistogramContainer::getStatUncertainty ( const CalibrationDataVariables x,
double &  result 
) const [virtual]

retrieve the calibration statistical uncertainty.

Parameters:
x user-supplied (kinematic or other) variables
result requested statistical uncertainty
Returns:
status code (see above) Note the changed signature compared to getUncertainty(), getResult() etc.: this is because the statistical uncertainty computation always needs the result object, and only in case of the function interface also the covariance matrix

Reimplemented from Analysis::CalibrationDataHistogramContainer.

int CalibrationDataMappedHistogramContainer::getTagWeightAxis (  )  const [virtual]

Test whether this calibration object is one for "continuous" calibration (this has some subtle consequences for the treatment of bin-to-bin correlations). The return value will be -1 in case this is not a "continuous" calibration object, and the axis number (0 for X, 1 for Y, 2 for Z) otherwise.

Reimplemented from Analysis::CalibrationDataHistogramContainer.

CalibrationStatus CalibrationDataMappedHistogramContainer::getUncertainty ( const std::string &  unc,
const CalibrationDataVariables x,
UncertaintyResult &  result,
TObject *  obj = 0 
) const [virtual]

retrieve the calibration uncertainty due to the given source.

Parameters:
x user-supplied (kinematic or other) variables
unc uncertainty specification
result requested uncertainty (for both positive and negative variation, if available)
obj object holding the requested uncertainty information (it will be computed if not provided)
Returns:
status code (see above)

Reimplemented from Analysis::CalibrationDataHistogramContainer.

virtual bool Analysis::CalibrationDataMappedHistogramContainer::isInterpolated (  )  const [inline, virtual]

Indicate whether histogram interpolation is used or not. Not applicable here.

Reimplemented from Analysis::CalibrationDataHistogramContainer.

void CalibrationDataMappedHistogramContainer::setMappedVariables ( const std::vector< std::string > &  variables  ) 

Set (by hand) the variables that will be mapped onto a single histogram axis

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