25 #ifndef UQ_SAMPLED_SCALAR_CUMULATIVE_DISTRIBUTION_FUNCTION_H
26 #define UQ_SAMPLED_SCALAR_CUMULATIVE_DISTRIBUTION_FUNCTION_H
28 #include <queso/StdOneDGrid.h>
29 #include <queso/Environment.h>
30 #include <queso/ScalarCdf.h>
56 const std::vector<double>& cdfValues);
63 double value (T paramValue)
const;
67 T
inverse (
double cdfValue )
const;
70 void getSupport (T& minHorizontal, T& maxHorizontal)
const;
75 void print (std::ostream& os )
const;
82 const std::string& fileName,
83 const std::string& fileType,
84 const std::set<unsigned int>& allowedSubEnvIds)
const;
99 #endif // UQ_SAMPLED_SCALAR_CUMULATIVE_DISTRIBUTION_FUNCTION_H
SampledScalarCdf(const BaseEnvironment &env, const char *prefix, const BaseOneDGrid< T > &cdfGrid, const std::vector< double > &cdfValues)
Default constructor.
A templated (base) class for handling CDFs.
A class for handling sampled CDFs.
void subWriteContents(const std::string &varNamePrefix, const std::string &fileName, const std::string &fileType, const std::set< unsigned int > &allowedSubEnvIds) const
Writes the CDF of an allowed sub-environment to a file.
void print(std::ostream &os) const
Prints the CDF (values of the grid points and of the CDF at such grid points).
const std::string & prefix() const
Access to private attribute m_prefix.
void getSupport(T &minHorizontal, T &maxHorizontal) const
Returns the support (image) of the CDF between two horizontal values (domain).
This (virtual) class sets up the environment underlying the use of the QUESO library by an executable...
const BaseOneDGrid< T > & m_cdfGrid
Base class for accommodating one-dimensional grids.
const std::vector< double > & m_cdfValues
T inverse(double cdfValue) const
Returns the position of a given value of CDF.
~SampledScalarCdf()
Destructor.
const BaseEnvironment & env() const
Environment. Access to private attribute m_env.
double value(T paramValue) const
Returns the value of the CDF at paramValue.