#include <example_02.hpp>

Inheritance diagram for OptStdVector< Real, Element >:

Public Member Functions
	OptStdVector (const ROL::Ptr< std::vector< Element > > &std_vec)

void	plus (const ROL::Vector< Real > &x)
	Compute \(y \leftarrow y + x\), where \(y = \mathtt{*this}\). More...

void	scale (const Real alpha)
	Compute \(y \leftarrow \alpha y\) where \(y = \mathtt{*this}\). More...

Real	dot (const ROL::Vector< Real > &x) const
	Compute \( \langle y,x \rangle \) where \(y = \mathtt{*this}\). More...

Real	norm () const
	Returns \( \\| y \\| \) where \(y = \mathtt{*this}\). More...

ROL::Ptr< ROL::Vector< Real > >	clone () const
	Clone to make a new (uninitialized) vector. More...

ROL::Ptr< const std::vector< Element > >	getVector () const

ROL::Ptr< std::vector< Element > >	getVector ()

ROL::Ptr< ROL::Vector< Real > >	basis (const int i) const
	Return i-th basis vector. More...

int	dimension () const
	Return dimension of the vector space. More...

const ROL::Vector< Real > &	dual () const
	Return dual representation of \(\mathtt{*this}\), for example, the result of applying a Riesz map, or change of basis, or change of memory layout. More...

	OptStdVector (const ROL::Ptr< std::vector< Element > > &std_vec)

void	plus (const ROL::Vector< Real > &x)
	Compute \(y \leftarrow y + x\), where \(y = \mathtt{*this}\). More...

void	scale (const Real alpha)
	Compute \(y \leftarrow \alpha y\) where \(y = \mathtt{*this}\). More...

Real	dot (const ROL::Vector< Real > &x) const
	Compute \( \langle y,x \rangle \) where \(y = \mathtt{*this}\). More...

Real	norm () const
	Returns \( \\| y \\| \) where \(y = \mathtt{*this}\). More...

ROL::Ptr< ROL::Vector< Real > >	clone () const
	Clone to make a new (uninitialized) vector. More...

ROL::Ptr< const std::vector< Element > >	getVector () const

ROL::Ptr< std::vector< Element > >	getVector ()

ROL::Ptr< ROL::Vector< Real > >	basis (const int i) const
	Return i-th basis vector. More...

int	dimension () const
	Return dimension of the vector space. More...

const ROL::Vector< Real > &	dual () const
	Return dual representation of \(\mathtt{*this}\), for example, the result of applying a Riesz map, or change of basis, or change of memory layout. More...

	OptStdVector (const ROL::Ptr< std::vector< Element > > &std_vec, ROL::Ptr< FiniteDifference< Real > >fd)

void	plus (const Vector< Real > &x)
	Compute \(y \leftarrow y + x\), where \(y = \mathtt{*this}\). More...

void	scale (const Real alpha)
	Compute \(y \leftarrow \alpha y\) where \(y = \mathtt{*this}\). More...

Real	dot (const Vector< Real > &x) const
	Modify the dot product between primal variables to be \((u,v)=\int\limits_0^1 \dot u \dot v\,\mathrm{d}x \). More...

Real	norm () const
	Returns \( \\| y \\| \) where \(y = \mathtt{*this}\). More...

ROL::Ptr< Vector< Real > >	clone () const
	Clone to make a new (uninitialized) vector. More...

ROL::Ptr< const vector >	getVector () const

ROL::Ptr< vector >	getVector ()

ROL::Ptr< Vector< Real > >	basis (const int i) const
	Return i-th basis vector. More...

int	dimension () const
	Return dimension of the vector space. More...

const Vector< Real > &	dual () const
	Modify the dual of vector u to be \(\tilde u = -\ddot u\). More...

Public Member Functions inherited from ROL::Vector< Real >
virtual	~Vector ()

virtual void	axpy (const Real alpha, const Vector &x)
	Compute \(y \leftarrow \alpha x + y\) where \(y = \mathtt{*this}\). More...

virtual void	zero ()
	Set to zero vector. More...

virtual void	set (const Vector &x)
	Set \(y \leftarrow x\) where \(y = \mathtt{*this}\). More...

virtual void	applyUnary (const Elementwise::UnaryFunction< Real > &f)

virtual void	applyBinary (const Elementwise::BinaryFunction< Real > &f, const Vector &x)

virtual Real	reduce (const Elementwise::ReductionOp< Real > &r) const

virtual void	print (std::ostream &outStream) const

virtual void	setScalar (const Real C)
	Set \(y \leftarrow C\) where \(C\in\mathbb{R}\). More...

virtual void	randomize (const Real l=0.0, const Real u=1.0)
	Set vector to be uniform random between [l,u]. More...

virtual std::vector< Real >	checkVector (const Vector< Real > &x, const Vector< Real > &y, const bool printToStream=true, std::ostream &outStream=std::cout) const
	Verify vector-space methods. More...

Private Types
typedef std::vector< Element >	vector

typedef ROL::Vector< Real >	V

typedef vector::size_type	uint

typedef std::vector< Element >	vector

typedef ROL::Vector< Real >	V

typedef vector::size_type	uint

typedef std::vector< Element >	vector

typedef vector::size_type	uint

Private Attributes
ROL::Ptr< std::vector< Element > >	std_vec_

ROL::Ptr< OptDualStdVector< Real > >	dual_vec_

ROL::Ptr< FiniteDifference< Real > >	fd_

Detailed Description

template<class Real, class Element>
class OptStdVector< Real, Element >

Definition at line 66 of file dual-spaces/rosenbrock-1/example_01.cpp.

Member Typedef Documentation

◆ vector [1/3]

template<class Real, class Element>

typedef std::vector<Element> OptStdVector< Real, Element >::vector

private

Definition at line 78 of file dual-spaces/rosenbrock-1/example_01.cpp.

◆ V [1/2]

template<class Real, class Element>

typedef ROL::Vector<Real> OptStdVector< Real, Element >::V

private

Definition at line 79 of file dual-spaces/rosenbrock-1/example_01.cpp.

◆ uint [1/3]

template<class Real, class Element>

typedef vector::size_type OptStdVector< Real, Element >::uint

private

Definition at line 81 of file dual-spaces/rosenbrock-1/example_01.cpp.

◆ vector [2/3]

template<class Real, class Element>

typedef std::vector<Element> OptStdVector< Real, Element >::vector

private

Definition at line 82 of file dual-spaces/simple-eq-constr-1/example_01.cpp.

◆ V [2/2]

template<class Real, class Element>

typedef ROL::Vector<Real> OptStdVector< Real, Element >::V

private

Definition at line 83 of file dual-spaces/simple-eq-constr-1/example_01.cpp.

◆ uint [2/3]

template<class Real, class Element>

typedef vector::size_type OptStdVector< Real, Element >::uint

private

Definition at line 84 of file dual-spaces/simple-eq-constr-1/example_01.cpp.

◆ vector [3/3]

template<class Real, class Element>

typedef std::vector<Element> OptStdVector< Real, Element >::vector

private

Definition at line 119 of file gross-pitaevskii/example_02.hpp.

◆ uint [3/3]

template<class Real, class Element>

typedef vector::size_type OptStdVector< Real, Element >::uint

private

Definition at line 120 of file gross-pitaevskii/example_02.hpp.

Constructor & Destructor Documentation

◆ OptStdVector() [1/3]

template<class Real, class Element>

OptStdVector< Real, Element >::OptStdVector ( const ROL::Ptr< std::vector< Element > > & std_vec )

inline

Definition at line 89 of file dual-spaces/rosenbrock-1/example_01.cpp.

◆ OptStdVector() [2/3]

template<class Real, class Element>

OptStdVector< Real, Element >::OptStdVector ( const ROL::Ptr< std::vector< Element > > & std_vec )

inline

Definition at line 92 of file dual-spaces/simple-eq-constr-1/example_01.cpp.

◆ OptStdVector() [3/3]

template<class Real, class Element>

OptStdVector< Real, Element >::OptStdVector	(	const ROL::Ptr< std::vector< Element > > &	std_vec,
		ROL::Ptr< FiniteDifference< Real > >	fd
	)

inline

Definition at line 131 of file gross-pitaevskii/example_02.hpp.

Member Function Documentation

◆ plus() [1/3]

template<class Real, class Element>

void OptStdVector< Real, Element >::plus ( const ROL::Vector< Real > & x )

inlinevirtual

Compute \(y \leftarrow y + x\), where \(y = \mathtt{*this}\).

   @param[in]      x  is the vector to be added to \f$\mathtt{*this}\f$.

   On return \f$\mathtt{*this} = \mathtt{*this} + x\f$.

   ---

Implements ROL::Vector< Real >.

Definition at line 91 of file dual-spaces/rosenbrock-1/example_01.cpp.

References OptStdVector< Real, Element >::dimension(), and OptStdVector< Real, Element >::std_vec_.

◆ scale() [1/3]

template<class Real, class Element>

void OptStdVector< Real, Element >::scale ( const Real alpha )

inlinevirtual

Compute \(y \leftarrow \alpha y\) where \(y = \mathtt{*this}\).

   @param[in]      alpha is the scaling of \f$\mathtt{*this}\f$.

   On return \f$\mathtt{*this} = \alpha (\mathtt{*this}) \f$.

   ---

Implements ROL::Vector< Real >.

Definition at line 100 of file dual-spaces/rosenbrock-1/example_01.cpp.

References OptStdVector< Real, Element >::dimension(), and OptStdVector< Real, Element >::std_vec_.

◆ dot() [1/3]

template<class Real, class Element>

Real OptStdVector< Real, Element >::dot ( const ROL::Vector< Real > & x ) const

inlinevirtual

Compute \( \langle y,x \rangle \) where \(y = \mathtt{*this}\).

   @param[in]      x  is the vector that forms the dot product with \f$\mathtt{*this}\f$.
   @return         The number equal to \f$\langle \mathtt{*this}, x \rangle\f$.

   ---

Implements ROL::Vector< Real >.

Definition at line 107 of file dual-spaces/rosenbrock-1/example_01.cpp.

References OptStdVector< Real, Element >::dimension(), and OptStdVector< Real, Element >::std_vec_.

Referenced by OptStdVector< Real, Element >::norm().

◆ norm() [1/3]

template<class Real, class Element>

Real OptStdVector< Real, Element >::norm ( ) const

inlinevirtual

Returns \( \| y \| \) where \(y = \mathtt{*this}\).

   @return         A nonnegative number equal to the norm of \f$\mathtt{*this}\f$.

   ---

Implements ROL::Vector< Real >.

Definition at line 118 of file dual-spaces/rosenbrock-1/example_01.cpp.

References OptStdVector< Real, Element >::dot().

Referenced by main().

◆ clone() [1/3]

template<class Real, class Element>

ROL::Ptr<ROL::Vector<Real> > OptStdVector< Real, Element >::clone ( ) const

inlinevirtual

Clone to make a new (uninitialized) vector.

   @return         A reference-counted pointer to the cloned vector.

   Provides the means of allocating temporary memory in ROL.

   ---

Implements ROL::Vector< Real >.

Definition at line 124 of file dual-spaces/rosenbrock-1/example_01.cpp.

References OptStdVector< Real, Element >::std_vec_.

◆ getVector() [1/6]

template<class Real, class Element>

ROL::Ptr<const std::vector<Element> > OptStdVector< Real, Element >::getVector ( void ) const

inline

Definition at line 128 of file dual-spaces/rosenbrock-1/example_01.cpp.

References OptStdVector< Real, Element >::std_vec_.

Referenced by OptStdVector< Real, Element >::dot(), and OptStdVector< Real, Element >::plus().

◆ getVector() [2/6]

template<class Real, class Element>

ROL::Ptr<std::vector<Element> > OptStdVector< Real, Element >::getVector ( void )

inline

Definition at line 132 of file dual-spaces/rosenbrock-1/example_01.cpp.

References OptStdVector< Real, Element >::std_vec_.

◆ basis() [1/3]

template<class Real, class Element>

ROL::Ptr<ROL::Vector<Real> > OptStdVector< Real, Element >::basis ( const int i ) const

inlinevirtual

Return i-th basis vector.

   @param[in] i is the index of the basis function.
   @return A reference-counted pointer to the basis vector with index @b i.

   Overloading the basis is only required if the default gradient implementation
   is used, which computes a finite-difference approximation.

   ---

Reimplemented from ROL::Vector< Real >.

Definition at line 136 of file dual-spaces/rosenbrock-1/example_01.cpp.

References OptStdVector< Real, Element >::std_vec_.

◆ dimension() [1/3]

template<class Real, class Element>

int OptStdVector< Real, Element >::dimension ( void ) const

inlinevirtual

Return dimension of the vector space.

   @return The dimension of the vector space, i.e., the total number of basis vectors.

   Overload if the basis is overloaded.

   ---

Reimplemented from ROL::Vector< Real >.

Definition at line 146 of file dual-spaces/rosenbrock-1/example_01.cpp.

References OptStdVector< Real, Element >::std_vec_.

Referenced by OptStdVector< Real, Element >::dot(), OptStdVector< Real, Element >::plus(), and OptStdVector< Real, Element >::scale().

◆ dual() [1/3]

template<class Real, class Element>

const ROL::Vector<Real>& OptStdVector< Real, Element >::dual ( void ) const

inlinevirtual

Return dual representation of \(\mathtt{*this}\), for example, the result of applying a Riesz map, or change of basis, or change of memory layout.

Returns: A const reference to dual representation.

By default, returns the current object. Please overload if you need a dual representation.

Reimplemented from ROL::Vector< Real >.

Definition at line 148 of file dual-spaces/rosenbrock-1/example_01.cpp.

References OptStdVector< Real, Element >::dual_vec_.

◆ plus() [2/3]

template<class Real, class Element>

void OptStdVector< Real, Element >::plus ( const ROL::Vector< Real > & x )

inlinevirtual

Compute \(y \leftarrow y + x\), where \(y = \mathtt{*this}\).

   @param[in]      x  is the vector to be added to \f$\mathtt{*this}\f$.

   On return \f$\mathtt{*this} = \mathtt{*this} + x\f$.

   ---

Implements ROL::Vector< Real >.

Definition at line 94 of file dual-spaces/simple-eq-constr-1/example_01.cpp.

References OptStdVector< Real, Element >::dimension(), and OptStdVector< Real, Element >::std_vec_.

◆ scale() [2/3]

template<class Real, class Element>

void OptStdVector< Real, Element >::scale ( const Real alpha )

inlinevirtual

Compute \(y \leftarrow \alpha y\) where \(y = \mathtt{*this}\).

   @param[in]      alpha is the scaling of \f$\mathtt{*this}\f$.

   On return \f$\mathtt{*this} = \alpha (\mathtt{*this}) \f$.

   ---

Implements ROL::Vector< Real >.

Definition at line 105 of file dual-spaces/simple-eq-constr-1/example_01.cpp.

References OptStdVector< Real, Element >::dimension(), and OptStdVector< Real, Element >::std_vec_.

◆ dot() [2/3]

template<class Real, class Element>

Real OptStdVector< Real, Element >::dot ( const ROL::Vector< Real > & x ) const

inlinevirtual

Compute \( \langle y,x \rangle \) where \(y = \mathtt{*this}\).

   @param[in]      x  is the vector that forms the dot product with \f$\mathtt{*this}\f$.
   @return         The number equal to \f$\langle \mathtt{*this}, x \rangle\f$.

   ---

Implements ROL::Vector< Real >.

Definition at line 112 of file dual-spaces/simple-eq-constr-1/example_01.cpp.

References OptStdVector< Real, Element >::dimension(), and OptStdVector< Real, Element >::std_vec_.

◆ norm() [2/3]

template<class Real, class Element>

Real OptStdVector< Real, Element >::norm ( ) const

inlinevirtual

Returns \( \| y \| \) where \(y = \mathtt{*this}\).

   @return         A nonnegative number equal to the norm of \f$\mathtt{*this}\f$.

   ---

Implements ROL::Vector< Real >.

Definition at line 126 of file dual-spaces/simple-eq-constr-1/example_01.cpp.

References OptStdVector< Real, Element >::dot().

◆ clone() [2/3]

template<class Real, class Element>

ROL::Ptr<ROL::Vector<Real> > OptStdVector< Real, Element >::clone ( ) const

inlinevirtual

Clone to make a new (uninitialized) vector.

   @return         A reference-counted pointer to the cloned vector.

   Provides the means of allocating temporary memory in ROL.

   ---

Implements ROL::Vector< Real >.

Definition at line 132 of file dual-spaces/simple-eq-constr-1/example_01.cpp.

References OptStdVector< Real, Element >::std_vec_.

◆ getVector() [3/6]

template<class Real, class Element>

ROL::Ptr<const std::vector<Element> > OptStdVector< Real, Element >::getVector ( void ) const

inline

Definition at line 136 of file dual-spaces/simple-eq-constr-1/example_01.cpp.

References OptStdVector< Real, Element >::std_vec_.

◆ getVector() [4/6]

template<class Real, class Element>

ROL::Ptr<std::vector<Element> > OptStdVector< Real, Element >::getVector ( void )

inline

Definition at line 140 of file dual-spaces/simple-eq-constr-1/example_01.cpp.

References OptStdVector< Real, Element >::std_vec_.

◆ basis() [2/3]

template<class Real, class Element>

ROL::Ptr<ROL::Vector<Real> > OptStdVector< Real, Element >::basis ( const int i ) const

inlinevirtual

Return i-th basis vector.

   @param[in] i is the index of the basis function.
   @return A reference-counted pointer to the basis vector with index @b i.

   Overloading the basis is only required if the default gradient implementation
   is used, which computes a finite-difference approximation.

   ---

Reimplemented from ROL::Vector< Real >.

Definition at line 144 of file dual-spaces/simple-eq-constr-1/example_01.cpp.

References OptStdVector< Real, Element >::std_vec_.

◆ dimension() [2/3]

template<class Real, class Element>

int OptStdVector< Real, Element >::dimension ( void ) const

inlinevirtual

Return dimension of the vector space.

   @return The dimension of the vector space, i.e., the total number of basis vectors.

   Overload if the basis is overloaded.

   ---

Reimplemented from ROL::Vector< Real >.

Definition at line 152 of file dual-spaces/simple-eq-constr-1/example_01.cpp.

References OptStdVector< Real, Element >::std_vec_.

◆ dual() [2/3]

template<class Real, class Element>

const ROL::Vector<Real>& OptStdVector< Real, Element >::dual ( void ) const

inlinevirtual

Return dual representation of \(\mathtt{*this}\), for example, the result of applying a Riesz map, or change of basis, or change of memory layout.

Returns: A const reference to dual representation.

By default, returns the current object. Please overload if you need a dual representation.

Reimplemented from ROL::Vector< Real >.

Definition at line 154 of file dual-spaces/simple-eq-constr-1/example_01.cpp.

References OptStdVector< Real, Element >::dual_vec_.

◆ plus() [3/3]

template<class Real, class Element>

void OptStdVector< Real, Element >::plus ( const Vector< Real > & x )

inlinevirtual

Compute \(y \leftarrow y + x\), where \(y = \mathtt{*this}\).

   @param[in]      x  is the vector to be added to \f$\mathtt{*this}\f$.

   On return \f$\mathtt{*this} = \mathtt{*this} + x\f$.

   ---

Implements ROL::Vector< Real >.

Definition at line 134 of file gross-pitaevskii/example_02.hpp.

References OptStdVector< Real, Element >::getVector().

◆ scale() [3/3]

template<class Real, class Element>

void OptStdVector< Real, Element >::scale ( const Real alpha )

inlinevirtual

Compute \(y \leftarrow \alpha y\) where \(y = \mathtt{*this}\).

   @param[in]      alpha is the scaling of \f$\mathtt{*this}\f$.

   On return \f$\mathtt{*this} = \alpha (\mathtt{*this}) \f$.

   ---

Implements ROL::Vector< Real >.

Definition at line 143 of file gross-pitaevskii/example_02.hpp.

◆ dot() [3/3]

template<class Real, class Element>

Real OptStdVector< Real, Element >::dot ( const Vector< Real > & x ) const

inlinevirtual

Modify the dot product between primal variables to be \((u,v)=\int\limits_0^1 \dot u \dot v\,\mathrm{d}x \).

Implements ROL::Vector< Real >.

Definition at line 152 of file gross-pitaevskii/example_02.hpp.

References OptStdVector< Real, Element >::getVector().

◆ norm() [3/3]

template<class Real, class Element>

Real OptStdVector< Real, Element >::norm ( ) const

inlinevirtual

Returns \( \| y \| \) where \(y = \mathtt{*this}\).

   @return         A nonnegative number equal to the norm of \f$\mathtt{*this}\f$.

   ---

Implements ROL::Vector< Real >.

Definition at line 168 of file gross-pitaevskii/example_02.hpp.

◆ clone() [3/3]

template<class Real, class Element>

ROL::Ptr<Vector<Real> > OptStdVector< Real, Element >::clone ( ) const

inlinevirtual

Clone to make a new (uninitialized) vector.

   @return         A reference-counted pointer to the cloned vector.

   Provides the means of allocating temporary memory in ROL.

   ---

Implements ROL::Vector< Real >.

Definition at line 174 of file gross-pitaevskii/example_02.hpp.

◆ getVector() [5/6]

template<class Real, class Element>

ROL::Ptr<const vector> OptStdVector< Real, Element >::getVector ( void ) const

inline

Definition at line 178 of file gross-pitaevskii/example_02.hpp.

◆ getVector() [6/6]

template<class Real, class Element>

ROL::Ptr<vector> OptStdVector< Real, Element >::getVector ( void )

inline

Definition at line 182 of file gross-pitaevskii/example_02.hpp.

◆ basis() [3/3]

template<class Real, class Element>

ROL::Ptr<Vector<Real> > OptStdVector< Real, Element >::basis ( const int i ) const

inlinevirtual

Return i-th basis vector.

   @param[in] i is the index of the basis function.
   @return A reference-counted pointer to the basis vector with index @b i.

   Overloading the basis is only required if the default gradient implementation
   is used, which computes a finite-difference approximation.

   ---

Reimplemented from ROL::Vector< Real >.

Definition at line 186 of file gross-pitaevskii/example_02.hpp.

◆ dimension() [3/3]

template<class Real, class Element>

int OptStdVector< Real, Element >::dimension ( void ) const

inlinevirtual

Return dimension of the vector space.

   @return The dimension of the vector space, i.e., the total number of basis vectors.

   Overload if the basis is overloaded.

   ---

Reimplemented from ROL::Vector< Real >.

Definition at line 193 of file gross-pitaevskii/example_02.hpp.

◆ dual() [3/3]

template<class Real, class Element>

const Vector<Real>& OptStdVector< Real, Element >::dual ( void ) const

inlinevirtual

Modify the dual of vector u to be \(\tilde u = -\ddot u\).

Reimplemented from ROL::Vector< Real >.

Definition at line 197 of file gross-pitaevskii/example_02.hpp.

Member Data Documentation

◆ std_vec_

template<class Real, class Element>

ROL::Ptr< std::vector< Element > > OptStdVector< Real, Element >::std_vec_

private

Definition at line 84 of file dual-spaces/rosenbrock-1/example_01.cpp.

Referenced by OptStdVector< Real, Element >::basis(), OptStdVector< Real, Element >::clone(), OptStdVector< Real, Element >::dimension(), OptStdVector< Real, Element >::dot(), OptStdVector< Real, Element >::getVector(), OptStdVector< Real, Element >::plus(), and OptStdVector< Real, Element >::scale().

◆ dual_vec_

template<class Real, class Element>

ROL::Ptr< OptDualStdVector< Real > > OptStdVector< Real, Element >::dual_vec_

mutableprivate

Definition at line 85 of file dual-spaces/rosenbrock-1/example_01.cpp.

Referenced by OptStdVector< Real, Element >::dual().

◆ fd_

template<class Real, class Element>

ROL::Ptr<FiniteDifference<Real> > OptStdVector< Real, Element >::fd_

private

Definition at line 126 of file gross-pitaevskii/example_02.hpp.

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

Public Member Functions

Private Types

Private Attributes

Detailed Description

template<class Real, class Element> class OptStdVector< Real, Element >

Member Typedef Documentation

◆ vector [1/3]

◆ V [1/2]

◆ uint [1/3]

◆ vector [2/3]

◆ V [2/2]

◆ uint [2/3]

◆ vector [3/3]

◆ uint [3/3]

Constructor & Destructor Documentation

◆ OptStdVector() [1/3]

◆ OptStdVector() [2/3]

◆ OptStdVector() [3/3]

Member Function Documentation

◆ plus() [1/3]

◆ scale() [1/3]

◆ dot() [1/3]

◆ norm() [1/3]

◆ clone() [1/3]

◆ getVector() [1/6]

◆ getVector() [2/6]

◆ basis() [1/3]

◆ dimension() [1/3]

◆ dual() [1/3]

◆ plus() [2/3]

◆ scale() [2/3]

◆ dot() [2/3]

◆ norm() [2/3]

◆ clone() [2/3]

◆ getVector() [3/6]

◆ getVector() [4/6]

◆ basis() [2/3]

◆ dimension() [2/3]

◆ dual() [2/3]

◆ plus() [3/3]

◆ scale() [3/3]

◆ dot() [3/3]

◆ norm() [3/3]

◆ clone() [3/3]

◆ getVector() [5/6]

◆ getVector() [6/6]

◆ basis() [3/3]

◆ dimension() [3/3]

◆ dual() [3/3]

Member Data Documentation

◆ std_vec_

◆ dual_vec_

◆ fd_

template<class Real, class Element>
class OptStdVector< Real, Element >