Family of Legendre orthogonal polynomials. More...
#include <Legendre.h>
Family of Legendre orthogonal polynomials.
Definition at line 13 of file Legendre.h.
Public Member Functions | |
Legendre () | |
A Legendre polynomial ( \(1\), \(x\), \(\frac{1}{2}(3x^2-1)\), ect. ...) More... | |
virtual | ~Legendre () |
virtual double | DerivativeEvaluate (int const polyOrder, int const derivOrder, double const x) const override |
virtual double | Normalization (unsigned int polyOrder) const override |
Public Member Functions inherited from muq::Approximation::OrthogonalPolynomial | |
OrthogonalPolynomial () | |
Create a polynomial. More... | |
virtual | ~OrthogonalPolynomial ()=default |
virtual double | BasisEvaluate (int const order, double const x) const override |
Evaluate the specific polynomial type (must be implemented by the child) More... | |
virtual Eigen::VectorXd | EvaluateAllTerms (int const maxOrder, double const x) const override |
Evaluates all basis functions with order <= maxOrder. More... | |
Public Member Functions inherited from muq::Approximation::IndexedScalarBasis | |
IndexedScalarBasis () | |
Create a basis function. More... | |
virtual | ~IndexedScalarBasis ()=default |
Public Member Functions inherited from muq::Modeling::WorkPiece | |
WorkPiece () | |
Create a muq::Modeling::WorkPiece with no fixed number of inputs and outputs and variable input/output types. More... | |
WorkPiece (int const num, WorkPiece::Fix const fix=WorkPiece::Fix::Inputs) | |
Create a muq::Modeling::WorkPiece with either a fixed number of inputs or outputs and variable input/output types. More... | |
WorkPiece (int const numIns, int const numOuts) | |
Create a muq::Modeling::WorkPiece with a fixed number of inputs and outputs but variable input/output types. More... | |
WorkPiece (std::vector< std::string > const &types, WorkPiece::Fix const fix=WorkPiece::Fix::Inputs) | |
Create a muq::Modeling::WorkPiece with either a fixed number of inputs with specified types or a fixed number of outputs with specified types. More... | |
WorkPiece (std::map< unsigned int, std::string > const &types, WorkPiece::Fix const fix=WorkPiece::Fix::Inputs) | |
Create a muq::Modeling::WorkPiece where either some of the inputs have specified types or some of the outputs have specified types. More... | |
WorkPiece (std::map< unsigned int, std::string > const &types, int const num, WorkPiece::Fix const fixTypes=WorkPiece::Fix::Inputs, WorkPiece::Fix const fixNum=WorkPiece::Fix::Inputs) | |
Create a muq::Modeling::WorkPiece where either some of the inputs have specified types or some of the outputs have specified types and either the number of inputs or the number of outputs is fixed. More... | |
WorkPiece (std::vector< std::string > const &types, int const num) | |
Create a muq::Modeling::WorkPiece with a fixed number of inputs with specified types and a fixed number of outputs (of uknown type) More... | |
WorkPiece (int const num, std::vector< std::string > const &types) | |
Create a muq::Modeling::WorkPiece with a fixed number of outputs with specified types and a fixed number of inputs (of uknown type) More... | |
WorkPiece (std::map< unsigned int, std::string > const &inTypes, int const numIns, int const numOuts) | |
Create a muq::Modeling::WorkPiece where some of the inputs are known and we know the input and output numbers. More... | |
WorkPiece (int const numIns, std::map< unsigned int, std::string > const &outTypes, int const numOuts) | |
Create a muq::Modeling::WorkPiece where some of the outputs are known and we know the input and output numbers. More... | |
WorkPiece (std::vector< std::string > const &inTypes, std::vector< std::string > const &outTypes) | |
Create a muq::Modeling::WorkPiece with a fixed number of inputs and outputs with specified types. More... | |
WorkPiece (std::map< unsigned int, std::string > const &inTypes, std::vector< std::string > const &outTypes) | |
Create a muq::Modeling::WorkPiece where some of the inputs are known and all of the outputs have specified types. More... | |
WorkPiece (std::map< unsigned int, std::string > const &inTypes, int const num, std::vector< std::string > const &outTypes) | |
Create a muq::Modeling::WorkPiece where some of the inputs are known with a known number of inputs and all of the outputs have specified types. More... | |
WorkPiece (std::vector< std::string > const &inTypes, std::map< unsigned int, std::string > const &outTypes) | |
Create a muq::Modeling::WorkPiece where some of the outputs and all of the inputs have specified types. More... | |
WorkPiece (std::vector< std::string > const &inTypes, std::map< unsigned int, std::string > const &outTypes, int const num) | |
Create a muq::Modeling::WorkPiece where some of the outputs with a known number of outputs and all of the inputs have specified types. More... | |
WorkPiece (std::map< unsigned int, std::string > const &inTypes, std::map< unsigned int, std::string > const &outTypes) | |
Create a muq::Mdoeling::WorkPiece where some of the inputs and some of the outputs have specified types. More... | |
WorkPiece (std::map< unsigned int, std::string > const &inTypes, int const numIn, std::map< unsigned int, std::string > const &outTypes) | |
Create a muq::Mdoeling::WorkPiece where some of the inputs and some of the outputs have specified types with a fixed number of inputs. More... | |
WorkPiece (std::map< unsigned int, std::string > const &inTypes, std::map< unsigned int, std::string > const &outTypes, int const numOut) | |
Create a muq::Mdoeling::WorkPiece where some of the inputs and some of the outputs have specified types with a fixed number of outputs. More... | |
WorkPiece (std::map< unsigned int, std::string > const &inTypes, int const numIn, std::map< unsigned int, std::string > const &outTypes, int const numOut) | |
Create a muq::Mdoeling::WorkPiece where some of the inputs and some of the outputs have specified types with a fixed number of inputs and outputs. More... | |
virtual | ~WorkPiece () |
Default destructor. More... | |
std::vector< boost::any > const & | Evaluate (std::vector< boost::any > const &ins) |
Evaluate this muq::Modeling::WorkPiece. More... | |
std::vector< boost::any > const & | Evaluate (ref_vector< boost::any > const &ins) |
Evaluate this muq::Modeling::WorkPiece using references to the inputs. More... | |
std::vector< boost::any > const & | Evaluate () |
Evaluate this muq::Modeling::WorkPiece in the case that there are no inputs. More... | |
template<typename... Args> | |
std::vector< boost::any > const & | Evaluate (Args... args) |
Evalaute this muq::Modeling::WorkPiece using multiple arguments. More... | |
std::string const & | Name () |
Get the (unique) name of this work piece. More... | |
void | SetName (std::string const &newName) |
Set the name of this work piece. More... | |
std::string | InputType (unsigned int inputNum, bool const demangle=true) const |
Get the input type (if we know it) for a specific input. More... | |
int | InputSize (unsigned int inputNum) const |
Get the length of a vector valued input with fixed size. More... | |
void | SetInputSize (unsigned int inputNum, int newSize) |
std::string | OutputType (unsigned int outputNum, bool const demangle=true) const |
Get the output type (if we know it) for a specific output. More... | |
std::map< unsigned int, std::string > | OutputTypes () const |
Get the output types. More... | |
std::map< unsigned int, std::string > | InputTypes () const |
Get the input types. More... | |
unsigned int | ID () const |
Get the unique ID number. More... | |
virtual double | GetRunTime (const std::string &method="Evaluate") const |
Get the average run time for one of the implemented methods. More... | |
virtual unsigned long int | GetNumCalls (const std::string &method="Evaluate") const |
get the number of times one of the implemented methods has been called. More... | |
virtual void | ResetCallTime () |
Resets the number of call and times. More... | |
Additional Inherited Members | |
Public Types inherited from muq::Approximation::IndexedScalarBasis | |
typedef std::function< std::shared_ptr< IndexedScalarBasis >)> | ScalarBasisConstructorType |
typedef std::map< std::string, ScalarBasisConstructorType > | ScalarBasisMapType |
Static Public Member Functions inherited from muq::Approximation::OrthogonalPolynomial | |
static std::shared_ptr< OrthogonalPolynomial > | Construct (std::string const &polyName) |
Static Public Member Functions inherited from muq::Approximation::IndexedScalarBasis | |
static std::shared_ptr< ScalarBasisMapType > | GetScalarBasisMap () |
static std::shared_ptr< IndexedScalarBasis > | Construct (std::string const &polyName) |
Static Public Member Functions inherited from muq::Modeling::WorkPiece | |
static ref_vector< const boost::any > | ToRefVector (std::vector< boost::any > const &anyVec) |
Create vector of references from a vector of boost::any's. More... | |
static ref_vector< const Eigen::VectorXd > | ToRefVector (std::vector< Eigen::VectorXd > const &anyVec) |
Public Attributes inherited from muq::Modeling::WorkPiece | |
int | numInputs |
The number of inputs. More... | |
int | numOutputs |
The number of outputs. More... | |
Legendre::Legendre | ( | ) |
A Legendre polynomial ( \(1\), \(x\), \(\frac{1}{2}(3x^2-1)\), ect. ...)
Legendre polynomials are orthogonal, which helps with some conditioning problems.
Definition at line 5 of file Legendre.cpp.
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virtual |
Definition at line 7 of file Legendre.cpp.
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overrideprivatevirtual |
Implement \(a_k(x)\).
[in] | k | The order of the polynomial |
Implements muq::Approximation::OrthogonalPolynomial.
Definition at line 22 of file Legendre.cpp.
References nlohmann::detail::dtoa_impl::k.
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overrideprivatevirtual |
Implement \(b_k(x)\).
[in] | k | The order of the polynomial |
Implements muq::Approximation::OrthogonalPolynomial.
Definition at line 26 of file Legendre.cpp.
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overrideprivatevirtual |
Implement \(c_k(x)\).
[in] | k | The order of the polynomial |
Implements muq::Approximation::OrthogonalPolynomial.
Definition at line 30 of file Legendre.cpp.
References nlohmann::detail::dtoa_impl::k.
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overridevirtual |
Evaluate the \(n^{th}\) derivative of a \(p^{th}\) basis.
[in] | polyOrder | The integer index \(p\) of the basis. |
[in] | derivOrder | The order \(n\) of the derivative. |
[in] | x | The location to evaluate the derivative. |
Implements muq::Approximation::IndexedScalarBasis.
Definition at line 9 of file Legendre.cpp.
References muq::Approximation::OrthogonalPolynomial::BasisEvaluate().
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overridevirtual |
@brief Returns the normalization constant for the polynomial of order \f$p\f$. @details Many polynomial families are orthogonal with respect to some measure. This means that for two polynomials \f$P_n(x)\f$ and \f$P_m(x)\f$ in the same family,
\[ \int P_n(x) P_m(x) w(x) dx = a_n \delta_{nm}, \]
where \(\delta_{mn}\) is the Kronecker delta function, \(w(x)\) is a weighting function tied to the polynomial family (e.g., the Askey scheme), and \(a_n\in\mathbb{R}\) is a scalar normalization constant. This function computes the normalization constant \(a_n\). Polynomial families that are not orthogonal do not have a normalizing constant \(a_n\) and will throw an exception if this function is called.
[in] | polyOrder | The order of the polynomial |
Reimplemented from muq::Approximation::OrthogonalPolynomial.
Definition at line 42 of file Legendre.cpp.
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overrideprivatevirtual |
Implement \(\phi_0(x)\).
[in] | x | The point where w are evaluating the polynomial |
Implements muq::Approximation::OrthogonalPolynomial.
Definition at line 34 of file Legendre.cpp.
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overrideprivatevirtual |
Implement \(\phi_1(x)\).
[in] | x | The point where w are evaluating the polynomial |
Implements muq::Approximation::OrthogonalPolynomial.
Definition at line 38 of file Legendre.cpp.