/usr/include/ITK-4.9/itkProbabilityDistribution.h is in libinsighttoolkit4-dev 4.9.0-4ubuntu1.
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*
* Copyright Insight Software Consortium
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0.txt
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*
*=========================================================================*/
#ifndef itkProbabilityDistribution_h
#define itkProbabilityDistribution_h
#include "itkIntTypes.h"
#include "itkObject.h"
#include "itkObjectFactory.h"
#include "itkArray.h"
#include "ITKStatisticsExport.h"
namespace itk
{
namespace Statistics
{
/** \class ProbabilityDistribution
* \brief ProbabilityDistribution class defines common interface for
* statistical distributions (pdfs, cdfs, etc.).
*
* ProbabilityDistribution defines a common interface for parameteric
* and non-parametric distributions. ProbabilityDistribution provides
* access to the probability density function (pdf), the cumulative
* distribution function (cdf), and the inverse cumulative
* distribution function.
*
* ProbabilityDistribution also defines an abstract interface for
* setting parameters of distribution (mean/variance for a Gaussian,
* degrees of freedom for Student-t, etc.).
*
* Note that nonparametric subclasses of ProbabilityDistribution are
* possible. For instance, a nonparametric implementation may use a
* histogram or kernel density function to model the distribution.
*
* The EvaluatePDF(), EvaluateCDF, EvaluateInverseCDF() methods are
* all virtual, allowing algorithms to be written with an abstract
* interface to a distribution (with said distribution provided to the
* algorithm at run-time). Static methods, not requiring an instance
* of the distribution, are also allowed. The static methods allow
* for optimized access to distributions when the distribution is
* known a priori to the algorithm.
*
* ProbabilityDistributions are univariate. Multivariate versions may
* be provided under a separate superclass (since the parameters to the
* pdf and cdf would have to be vectors not scalars). Perhaps this
* class will be named MultivariateProbabilityDistribution.
*
* ProbabilityDistributions can be used for standard statistical
* tests: Z-scores, t-tests, chi-squared tests, F-tests, etc.
*
* \note This work is part of the National Alliance for Medical Image
* Computing (NAMIC), funded by the National Institutes of Health
* through the NIH Roadmap for Medical Research, Grant U54 EB005149.
* Information on the National Centers for Biomedical Computing
* can be obtained from http://commonfund.nih.gov/bioinformatics.
* \ingroup ITKStatistics
*/
class ITKStatistics_EXPORT ProbabilityDistribution:
public Object
{
public:
/** Standard class typedefs */
typedef ProbabilityDistribution Self;
typedef Object Superclass;
typedef SmartPointer< Self > Pointer;
typedef SmartPointer< const Self > ConstPointer;
/** Standard macros */
itkTypeMacro(ProbabilityDistribution, Object);
/** Type of the parameter vector. */
typedef Array< double > ParametersType;
/** Return the number of parameters that describe the
* distribution. For nonparametric distributions, this will be a
* function of the number of samples. */
virtual SizeValueType GetNumberOfParameters() const = 0;
/** Get the parameters of the distribution. See concrete subclasses
* for the order of parameters. Subclasses may provide convenience
* methods for setting parameters, i.e. SetDegreesOfFreedom(), etc. */
itkGetConstReferenceMacro(Parameters, ParametersType);
/** Set the parameters of the distribution. See concrete subclasses
* for the order of the parameters. Subclasses may provide convenience
* methods for setting parameters, i.e. SetDegreesOfFreedom(), etc. */
virtual void SetParameters(const ParametersType & params);
/** Evaluate the probability density function (pdf). The parameters
* of the distribution are assigned via SetParameters(). */
virtual double EvaluatePDF(double x) const = 0;
/** Evaluate the probability density function (pdf). The parameters
* for the distribution are passed as a parameters vector. See
* concrete subclasses for the ordering of parameters. */
virtual double EvaluatePDF(double x, const ParametersType &) const = 0;
/** Evaluate the cumulative distribution function (cdf). The parameters
* of the distribution are assigned via SetParameters(). See
* concrete subclasses for the ordering of parameters. */
virtual double EvaluateCDF(double x) const = 0;
/** Evaluate the cumulative distribution function (cdf). The parameters
* for the distribution are passed as a parameters vector. See
* concrete subclasses for the ordering of parameters. */
virtual double EvaluateCDF(double x, const ParametersType &) const = 0;
/** Evaluate the inverse cumulative distribution function (inverse
* cdf). Parameter p must be between 0.0 and 1.0. The parameters
* of the distribution are assigned via SetParameters(). See
* concrete subclasses for the ordering of parameters. */
virtual double EvaluateInverseCDF(double p) const = 0;
/** Evaluate the inverse cumulative distribution function (inverse
* cdf). Parameter p must be between 0.0 and 1.0. The parameters
* for the distribution are passed as a parameters vector. See
* concrete subclasses for the ordering of parameters. */
virtual double EvaluateInverseCDF(double p, const ParametersType &) const = 0;
/** Does this distribution have a mean? */
virtual bool HasMean() const = 0;
/** Does this distribution have a variance? */
virtual bool HasVariance() const = 0;
/** Get the mean of the distribution. If the mean does not exist,
* then quiet_NaN may is returned. */
virtual double GetMean() const = 0;
/** Get the variance of the distribution. If the variance does not
* exist, then quiet_NaN is returned. */
virtual double GetVariance() const = 0;
protected:
ProbabilityDistribution(void);
virtual ~ProbabilityDistribution(void);
virtual void PrintSelf(std::ostream & os, Indent indent) const ITK_OVERRIDE;
ParametersType m_Parameters;
private:
ProbabilityDistribution(const Self &) ITK_DELETE_FUNCTION;
void operator=(const Self &) ITK_DELETE_FUNCTION;
}; // end of class
} // end of namespace Statistics
} // end namespace itk
#endif
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