ROL
Public Member Functions | Private Attributes | List of all members
H1VectorDual< Real > Class Template Reference

#include <test_04.hpp>

+ Inheritance diagram for H1VectorDual< Real >:

Public Member Functions

 H1VectorDual (const ROL::Ptr< std::vector< Real >> &vec, const ROL::Ptr< BurgersFEM< Real >> &fem)
 
Real dot (const ROL::Vector< Real > &x) const override
 Compute \( \langle y,x \rangle \) where \(y = \mathtt{*this}\). More...
 
ROL::Ptr< ROL::Vector< Real > > clone () const override
 Clone to make a new (uninitialized) vector. More...
 
const ROL::Vector< Real > & dual () const override
 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...
 
 H1VectorDual (const ROL::Ptr< std::vector< Real > > &vec, const ROL::Ptr< BurgersFEM< Real > > &fem)
 
void set (const ROL::Vector< Real > &x)
 Set \(y \leftarrow x\) where \(y = \mathtt{*this}\). More...
 
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
< Real > > 
getVector () const
 
ROL::Ptr< std::vector< Real > > 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...
 
Real apply (const ROL::Vector< Real > &x) const
 Apply \(\mathtt{*this}\) to a dual vector. This is equivalent to the call \(\mathtt{this->dot(x.dual())}\). More...
 
 H1VectorDual (const ROL::Ptr< std::vector< Real > > &vec, const ROL::Ptr< BurgersFEM< Real > > &fem)
 
void set (const ROL::Vector< Real > &x)
 Set \(y \leftarrow x\) where \(y = \mathtt{*this}\). More...
 
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
< Real > > 
getVector () const
 
ROL::Ptr< std::vector< Real > > 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...
 
Real apply (const ROL::Vector< Real > &x) const
 Apply \(\mathtt{*this}\) to a dual vector. This is equivalent to the call \(\mathtt{this->dot(x.dual())}\). More...
 
 H1VectorDual (const ROL::Ptr< std::vector< Real > > &vec, const ROL::Ptr< BurgersFEM< Real > > &fem)
 
void set (const ROL::Vector< Real > &x)
 Set \(y \leftarrow x\) where \(y = \mathtt{*this}\). More...
 
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
< Real > > 
getVector () const
 
ROL::Ptr< std::vector< Real > > 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...
 
Real apply (const ROL::Vector< Real > &x) const
 Apply \(\mathtt{*this}\) to a dual vector. This is equivalent to the call \(\mathtt{this->dot(x.dual())}\). More...
 
 H1VectorDual (const ROL::Ptr< std::vector< Real > > &vec, const ROL::Ptr< BurgersFEM< Real > > &fem)
 
Real dot (const ROL::Vector< Real > &x) const
 Compute \( \langle y,x \rangle \) where \(y = \mathtt{*this}\). More...
 
ROL::Ptr< ROL::Vector< Real > > clone () const
 Clone to make a new (uninitialized) vector. 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...
 
- Public Member Functions inherited from ROL::StdVector< Real >
 StdVector (const Ptr< std::vector< Real >> &std_vec)
 
 StdVector (const int dim, const Realval=0.0)
 
 StdVector (std::initializer_list< Real > ilist)
 
Real & operator[] (int i)
 
const Real & operator[] (int i) const
 
void set (const Vector< Real > &x)
 Set \(y \leftarrow x\) where \(y = \mathtt{*this}\). More...
 
void plus (const Vector< Real > &x)
 Compute \(y \leftarrow y + x\), where \(y = \mathtt{*this}\). More...
 
void axpy (const Real alpha, const Vector< Real > &x)
 Compute \(y \leftarrow \alpha x + y\) where \(y = \mathtt{*this}\). More...
 
void scale (const Real alpha)
 Compute \(y \leftarrow \alpha y\) where \(y = \mathtt{*this}\). More...
 
Real norm () const
 Returns \( \| y \| \) where \(y = \mathtt{*this}\). More...
 
Ptr< const std::vector< Real > > getVector () const
 
Ptr< std::vector< Real > > getVector ()
 
Ptr< Vector< Real > > basis (const int i) const
 Return i-th basis vector. More...
 
int dimension () const
 Return dimension of the vector space. More...
 
void applyUnary (const Elementwise::UnaryFunction< Real > &f)
 
void applyBinary (const Elementwise::BinaryFunction< Real > &f, const Vector< Real > &x)
 
Real reduce (const Elementwise::ReductionOp< Real > &r) const
 
void setScalar (const Real C)
 Set \(y \leftarrow C\) where \(C\in\mathbb{R}\). More...
 
void randomize (const Real l=0.0, const Real u=1.0)
 Set vector to be uniform random between [l,u]. More...
 
virtual void print (std::ostream &outStream) const
 
- Public Member Functions inherited from ROL::Vector< Real >
virtual ~Vector ()
 
virtual void zero ()
 Set to zero vector. 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 Attributes

ROL::Ptr< BurgersFEM< Real > > fem_
 
ROL::Ptr< H1VectorPrimal< Real > > dual_vec_
 
bool isDualInitialized_
 
ROL::Ptr< std::vector< Real > > vec_
 
ROL::Ptr< H1VectorPrimal< Real > > prim_vec_
 
bool isPrimalInitialized_
 

Detailed Description

template<class Real>
class H1VectorDual< Real >

Definition at line 32 of file test_04.hpp.

Constructor & Destructor Documentation

template<class Real>
H1VectorDual< Real >::H1VectorDual ( const ROL::Ptr< std::vector< Real >> &  vec,
const ROL::Ptr< BurgersFEM< Real >> &  fem 
)
inline

Definition at line 631 of file test_04.hpp.

template<class Real>
H1VectorDual< Real >::H1VectorDual ( const ROL::Ptr< std::vector< Real > > &  vec,
const ROL::Ptr< BurgersFEM< Real > > &  fem 
)
inline

Definition at line 766 of file example_04.hpp.

template<class Real>
H1VectorDual< Real >::H1VectorDual ( const ROL::Ptr< std::vector< Real > > &  vec,
const ROL::Ptr< BurgersFEM< Real > > &  fem 
)
inline

Definition at line 770 of file example_06.hpp.

template<class Real>
H1VectorDual< Real >::H1VectorDual ( const ROL::Ptr< std::vector< Real > > &  vec,
const ROL::Ptr< BurgersFEM< Real > > &  fem 
)
inline

Definition at line 774 of file example_07.hpp.

template<class Real>
H1VectorDual< Real >::H1VectorDual ( const ROL::Ptr< std::vector< Real > > &  vec,
const ROL::Ptr< BurgersFEM< Real > > &  fem 
)
inline

Definition at line 622 of file example_08.hpp.

Member Function Documentation

template<class Real>
Real H1VectorDual< Real >::dot ( const ROL::Vector< Real > &  x) const
inlineoverridevirtual

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

Parameters
[in]xis the vector that forms the dot product with \(\mathtt{*this}\).
Returns
The number equal to \(\langle \mathtt{*this}, x \rangle\).

Implements ROL::Vector< Real >.

Definition at line 636 of file test_04.hpp.

References H1VectorDual< Real >::dimension(), H1VectorDual< Real >::fem_, ROL::StdVector< Real, Element >::getVector(), and H1VectorDual< Real >::getVector().

Referenced by H1VectorDual< Real >::norm().

template<class Real>
ROL::Ptr<ROL::Vector<Real> > H1VectorDual< Real >::clone ( ) const
inlineoverridevirtual

Clone to make a new (uninitialized) vector.

Returns
A reference-counted pointer to the cloned vector.

Provides the means of allocating temporary memory in ROL.


Implements ROL::Vector< Real >.

Definition at line 650 of file test_04.hpp.

References H1VectorDual< Real >::dimension(), H1VectorDual< Real >::fem_, and ROL::StdVector< Real, Element >::getVector().

template<class Real>
const ROL::Vector<Real>& H1VectorDual< Real >::dual ( void  ) const
inlineoverridevirtual

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 656 of file test_04.hpp.

References H1VectorDual< Real >::dimension(), H1VectorDual< Real >::dual_vec_, H1VectorDual< Real >::fem_, ROL::StdVector< Real, Element >::getVector(), and H1VectorDual< Real >::isDualInitialized_.

template<class Real>
void H1VectorDual< Real >::set ( const ROL::Vector< Real > &  x)
inlinevirtual

Set \(y \leftarrow x\) where \(y = \mathtt{*this}\).

Parameters
[in]xis a vector.

On return \(\mathtt{*this} = x\). Uses zero and plus methods for the computation. Please overload if a more efficient implementation is needed.


Reimplemented from ROL::Vector< Real >.

Definition at line 770 of file example_04.hpp.

References H1VectorDual< Real >::getVector(), and H1VectorDual< Real >::vec_.

template<class Real>
void H1VectorDual< Real >::plus ( const ROL::Vector< Real > &  x)
inlinevirtual

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

Parameters
[in]xis the vector to be added to \(\mathtt{*this}\).

On return \(\mathtt{*this} = \mathtt{*this} + x\).


Implements ROL::Vector< Real >.

Definition at line 776 of file example_04.hpp.

References H1VectorDual< Real >::dimension(), H1VectorDual< Real >::getVector(), and H1VectorDual< Real >::vec_.

template<class Real>
void H1VectorDual< Real >::scale ( const Real  alpha)
inlinevirtual

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

Parameters
[in]alphais the scaling of \(\mathtt{*this}\).

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


Implements ROL::Vector< Real >.

Definition at line 785 of file example_04.hpp.

References H1VectorDual< Real >::dimension(), and H1VectorDual< Real >::vec_.

template<class Real>
Real H1VectorDual< Real >::dot ( const ROL::Vector< Real > &  x) const
inlinevirtual

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

Parameters
[in]xis the vector that forms the dot product with \(\mathtt{*this}\).
Returns
The number equal to \(\langle \mathtt{*this}, x \rangle\).

Implements ROL::Vector< Real >.

Definition at line 792 of file example_04.hpp.

References H1VectorDual< Real >::dimension(), H1VectorDual< Real >::fem_, H1VectorDual< Real >::getVector(), and H1VectorDual< Real >::vec_.

template<class Real>
Real H1VectorDual< Real >::norm ( ) const
inlinevirtual

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

Returns
A nonnegative number equal to the norm of \(\mathtt{*this}\).

Implements ROL::Vector< Real >.

Definition at line 805 of file example_04.hpp.

References H1VectorDual< Real >::dot().

template<class Real>
ROL::Ptr<ROL::Vector<Real> > H1VectorDual< Real >::clone ( ) const
inlinevirtual

Clone to make a new (uninitialized) vector.

Returns
A reference-counted pointer to the cloned vector.

Provides the means of allocating temporary memory in ROL.


Implements ROL::Vector< Real >.

Definition at line 811 of file example_04.hpp.

References H1VectorDual< Real >::fem_, and H1VectorDual< Real >::vec_.

template<class Real>
ROL::Ptr<const std::vector<Real> > H1VectorDual< Real >::getVector ( void  ) const
inline
template<class Real>
ROL::Ptr<std::vector<Real> > H1VectorDual< Real >::getVector ( void  )
inline

Definition at line 819 of file example_04.hpp.

References H1VectorDual< Real >::vec_.

template<class Real>
ROL::Ptr<ROL::Vector<Real> > H1VectorDual< Real >::basis ( const int  i) const
inlinevirtual

Return i-th basis vector.

Parameters
[in]iis the index of the basis function.
Returns
A reference-counted pointer to the basis vector with index 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 823 of file example_04.hpp.

References H1VectorDual< Real >::fem_, and H1VectorDual< Real >::vec_.

template<class Real>
int H1VectorDual< Real >::dimension ( void  ) const
inlinevirtual

Return dimension of the vector space.

Returns
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 830 of file example_04.hpp.

References H1VectorDual< Real >::vec_.

Referenced by H1VectorDual< Real >::clone(), H1VectorDual< Real >::dot(), H1VectorDual< Real >::dual(), H1VectorDual< Real >::plus(), and H1VectorDual< Real >::scale().

template<class Real>
const ROL::Vector<Real>& H1VectorDual< Real >::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 834 of file example_04.hpp.

References H1VectorDual< Real >::dual_vec_, H1VectorDual< Real >::fem_, and H1VectorDual< Real >::vec_.

template<class Real>
Real H1VectorDual< Real >::apply ( const ROL::Vector< Real > &  x) const
inlinevirtual

Apply \(\mathtt{*this}\) to a dual vector. This is equivalent to the call \(\mathtt{this->dot(x.dual())}\).

Parameters
[in]xis a vector
Returns
The number equal to \(\langle \mathtt{*this}, x \rangle\).

Reimplemented from ROL::Vector< Real >.

Definition at line 842 of file example_04.hpp.

References H1VectorPrimal< Real >::getVector(), and H1VectorDual< Real >::vec_.

template<class Real>
void H1VectorDual< Real >::set ( const ROL::Vector< Real > &  x)
inlinevirtual

Set \(y \leftarrow x\) where \(y = \mathtt{*this}\).

Parameters
[in]xis a vector.

On return \(\mathtt{*this} = x\). Uses zero and plus methods for the computation. Please overload if a more efficient implementation is needed.


Reimplemented from ROL::Vector< Real >.

Definition at line 774 of file example_06.hpp.

References H1VectorDual< Real >::getVector(), and H1VectorDual< Real >::vec_.

template<class Real>
void H1VectorDual< Real >::plus ( const ROL::Vector< Real > &  x)
inlinevirtual

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

Parameters
[in]xis the vector to be added to \(\mathtt{*this}\).

On return \(\mathtt{*this} = \mathtt{*this} + x\).


Implements ROL::Vector< Real >.

Definition at line 780 of file example_06.hpp.

References H1VectorDual< Real >::dimension(), H1VectorDual< Real >::getVector(), and H1VectorDual< Real >::vec_.

template<class Real>
void H1VectorDual< Real >::scale ( const Real  alpha)
inlinevirtual

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

Parameters
[in]alphais the scaling of \(\mathtt{*this}\).

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


Implements ROL::Vector< Real >.

Definition at line 789 of file example_06.hpp.

References H1VectorDual< Real >::dimension(), and H1VectorDual< Real >::vec_.

template<class Real>
Real H1VectorDual< Real >::dot ( const ROL::Vector< Real > &  x) const
inlinevirtual

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

Parameters
[in]xis the vector that forms the dot product with \(\mathtt{*this}\).
Returns
The number equal to \(\langle \mathtt{*this}, x \rangle\).

Implements ROL::Vector< Real >.

Definition at line 796 of file example_06.hpp.

References H1VectorDual< Real >::dimension(), H1VectorDual< Real >::fem_, H1VectorDual< Real >::getVector(), and H1VectorDual< Real >::vec_.

template<class Real>
Real H1VectorDual< Real >::norm ( ) const
inlinevirtual

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

Returns
A nonnegative number equal to the norm of \(\mathtt{*this}\).

Implements ROL::Vector< Real >.

Definition at line 809 of file example_06.hpp.

References H1VectorDual< Real >::dot().

template<class Real>
ROL::Ptr<ROL::Vector<Real> > H1VectorDual< Real >::clone ( ) const
inlinevirtual

Clone to make a new (uninitialized) vector.

Returns
A reference-counted pointer to the cloned vector.

Provides the means of allocating temporary memory in ROL.


Implements ROL::Vector< Real >.

Definition at line 815 of file example_06.hpp.

References H1VectorDual< Real >::fem_, and H1VectorDual< Real >::vec_.

template<class Real>
ROL::Ptr<const std::vector<Real> > H1VectorDual< Real >::getVector ( void  ) const
inline

Definition at line 819 of file example_06.hpp.

References H1VectorDual< Real >::vec_.

template<class Real>
ROL::Ptr<std::vector<Real> > H1VectorDual< Real >::getVector ( void  )
inline

Definition at line 823 of file example_06.hpp.

References H1VectorDual< Real >::vec_.

template<class Real>
ROL::Ptr<ROL::Vector<Real> > H1VectorDual< Real >::basis ( const int  i) const
inlinevirtual

Return i-th basis vector.

Parameters
[in]iis the index of the basis function.
Returns
A reference-counted pointer to the basis vector with index 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 827 of file example_06.hpp.

References H1VectorDual< Real >::fem_, and H1VectorDual< Real >::vec_.

template<class Real>
int H1VectorDual< Real >::dimension ( void  ) const
inlinevirtual

Return dimension of the vector space.

Returns
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 834 of file example_06.hpp.

References H1VectorDual< Real >::vec_.

template<class Real>
const ROL::Vector<Real>& H1VectorDual< Real >::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 838 of file example_06.hpp.

References H1VectorDual< Real >::dual_vec_, H1VectorDual< Real >::fem_, and H1VectorDual< Real >::vec_.

template<class Real>
Real H1VectorDual< Real >::apply ( const ROL::Vector< Real > &  x) const
inlinevirtual

Apply \(\mathtt{*this}\) to a dual vector. This is equivalent to the call \(\mathtt{this->dot(x.dual())}\).

Parameters
[in]xis a vector
Returns
The number equal to \(\langle \mathtt{*this}, x \rangle\).

Reimplemented from ROL::Vector< Real >.

Definition at line 846 of file example_06.hpp.

References H1VectorPrimal< Real >::getVector(), and H1VectorDual< Real >::vec_.

template<class Real>
void H1VectorDual< Real >::set ( const ROL::Vector< Real > &  x)
inlinevirtual

Set \(y \leftarrow x\) where \(y = \mathtt{*this}\).

Parameters
[in]xis a vector.

On return \(\mathtt{*this} = x\). Uses zero and plus methods for the computation. Please overload if a more efficient implementation is needed.


Reimplemented from ROL::Vector< Real >.

Definition at line 778 of file example_07.hpp.

References H1VectorDual< Real >::getVector(), and H1VectorDual< Real >::vec_.

template<class Real>
void H1VectorDual< Real >::plus ( const ROL::Vector< Real > &  x)
inlinevirtual

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

Parameters
[in]xis the vector to be added to \(\mathtt{*this}\).

On return \(\mathtt{*this} = \mathtt{*this} + x\).


Implements ROL::Vector< Real >.

Definition at line 784 of file example_07.hpp.

References H1VectorDual< Real >::dimension(), H1VectorDual< Real >::getVector(), and H1VectorDual< Real >::vec_.

template<class Real>
void H1VectorDual< Real >::scale ( const Real  alpha)
inlinevirtual

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

Parameters
[in]alphais the scaling of \(\mathtt{*this}\).

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


Implements ROL::Vector< Real >.

Definition at line 793 of file example_07.hpp.

References H1VectorDual< Real >::dimension(), and H1VectorDual< Real >::vec_.

template<class Real>
Real H1VectorDual< Real >::dot ( const ROL::Vector< Real > &  x) const
inlinevirtual

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

Parameters
[in]xis the vector that forms the dot product with \(\mathtt{*this}\).
Returns
The number equal to \(\langle \mathtt{*this}, x \rangle\).

Implements ROL::Vector< Real >.

Definition at line 800 of file example_07.hpp.

References H1VectorDual< Real >::dimension(), H1VectorDual< Real >::fem_, H1VectorDual< Real >::getVector(), and H1VectorDual< Real >::vec_.

template<class Real>
Real H1VectorDual< Real >::norm ( ) const
inlinevirtual

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

Returns
A nonnegative number equal to the norm of \(\mathtt{*this}\).

Implements ROL::Vector< Real >.

Definition at line 813 of file example_07.hpp.

References H1VectorDual< Real >::dot().

template<class Real>
ROL::Ptr<ROL::Vector<Real> > H1VectorDual< Real >::clone ( ) const
inlinevirtual

Clone to make a new (uninitialized) vector.

Returns
A reference-counted pointer to the cloned vector.

Provides the means of allocating temporary memory in ROL.


Implements ROL::Vector< Real >.

Definition at line 819 of file example_07.hpp.

References H1VectorDual< Real >::fem_, and H1VectorDual< Real >::vec_.

template<class Real>
ROL::Ptr<const std::vector<Real> > H1VectorDual< Real >::getVector ( void  ) const
inline

Definition at line 823 of file example_07.hpp.

References H1VectorDual< Real >::vec_.

template<class Real>
ROL::Ptr<std::vector<Real> > H1VectorDual< Real >::getVector ( void  )
inline

Definition at line 827 of file example_07.hpp.

References H1VectorDual< Real >::vec_.

template<class Real>
ROL::Ptr<ROL::Vector<Real> > H1VectorDual< Real >::basis ( const int  i) const
inlinevirtual

Return i-th basis vector.

Parameters
[in]iis the index of the basis function.
Returns
A reference-counted pointer to the basis vector with index 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 831 of file example_07.hpp.

References H1VectorDual< Real >::fem_, and H1VectorDual< Real >::vec_.

template<class Real>
int H1VectorDual< Real >::dimension ( void  ) const
inlinevirtual

Return dimension of the vector space.

Returns
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 838 of file example_07.hpp.

References H1VectorDual< Real >::vec_.

template<class Real>
const ROL::Vector<Real>& H1VectorDual< Real >::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 842 of file example_07.hpp.

References H1VectorDual< Real >::dual_vec_, H1VectorDual< Real >::fem_, and H1VectorDual< Real >::vec_.

template<class Real>
Real H1VectorDual< Real >::apply ( const ROL::Vector< Real > &  x) const
inlinevirtual

Apply \(\mathtt{*this}\) to a dual vector. This is equivalent to the call \(\mathtt{this->dot(x.dual())}\).

Parameters
[in]xis a vector
Returns
The number equal to \(\langle \mathtt{*this}, x \rangle\).

Reimplemented from ROL::Vector< Real >.

Definition at line 850 of file example_07.hpp.

References H1VectorPrimal< Real >::getVector(), and H1VectorDual< Real >::vec_.

template<class Real>
Real H1VectorDual< Real >::dot ( const ROL::Vector< Real > &  x) const
inlinevirtual

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

Parameters
[in]xis the vector that forms the dot product with \(\mathtt{*this}\).
Returns
The number equal to \(\langle \mathtt{*this}, x \rangle\).

Implements ROL::Vector< Real >.

Definition at line 627 of file example_08.hpp.

References H1VectorDual< Real >::dimension(), H1VectorDual< Real >::fem_, ROL::StdVector< Real, Element >::getVector(), and H1VectorDual< Real >::getVector().

template<class Real>
ROL::Ptr<ROL::Vector<Real> > H1VectorDual< Real >::clone ( ) const
inlinevirtual

Clone to make a new (uninitialized) vector.

Returns
A reference-counted pointer to the cloned vector.

Provides the means of allocating temporary memory in ROL.


Implements ROL::Vector< Real >.

Definition at line 641 of file example_08.hpp.

References ROL::StdVector< Real, Element >::dimension(), and H1VectorDual< Real >::fem_.

template<class Real>
const ROL::Vector<Real>& H1VectorDual< Real >::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 646 of file example_08.hpp.

References ROL::StdVector< Real, Element >::dimension(), H1VectorDual< Real >::fem_, H1VectorDual< Real >::isPrimalInitialized_, and H1VectorDual< Real >::prim_vec_.

Member Data Documentation

template<class Real>
ROL::Ptr< BurgersFEM< Real > > H1VectorDual< Real >::fem_
private
template<class Real>
ROL::Ptr< H1VectorPrimal< Real > > H1VectorDual< Real >::dual_vec_
mutableprivate

Definition at line 627 of file test_04.hpp.

Referenced by H1VectorDual< Real >::dual().

template<class Real>
bool H1VectorDual< Real >::isDualInitialized_
mutableprivate

Definition at line 628 of file test_04.hpp.

Referenced by H1VectorDual< Real >::dual().

template<class Real>
ROL::Ptr< std::vector< Real > > H1VectorDual< Real >::vec_
private
template<class Real>
ROL::Ptr<H1VectorPrimal<Real> > H1VectorDual< Real >::prim_vec_
mutableprivate

Definition at line 618 of file example_08.hpp.

Referenced by H1VectorDual< Real >::dual().

template<class Real>
bool H1VectorDual< Real >::isPrimalInitialized_
mutableprivate

Definition at line 619 of file example_08.hpp.

Referenced by H1VectorDual< Real >::dual().


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