#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) | |
| 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... | |
| 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... | |
| 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... | |
| 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... | |
| 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< std::vector< Real > > | vec_ |
| ROL::Ptr< BurgersFEM< Real > > | fem_ |
| ROL::Ptr< H1VectorPrimal< Real > > | dual_vec_ |
| ROL::Ptr< H1VectorPrimal< Real > > | prim_vec_ |
| bool | isPrimalInitialized_ |
Detailed Description
template<class Real>
class H1VectorDual< Real >
Definition at line 66 of file test_04.hpp.
Constructor & Destructor Documentation
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Definition at line 789 of file test_04.hpp.
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Definition at line 782 of file example_04.hpp.
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Definition at line 786 of file example_06.hpp.
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Definition at line 790 of file example_07.hpp.
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Definition at line 656 of file example_08.hpp.
Member Function Documentation
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inlinevirtual |
Set \(y \leftarrow x\) where \(y = \mathtt{*this}\).
- Parameters
-
[in] x is 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 793 of file test_04.hpp.
References H1VectorDual< Real >::getVector(), and H1VectorDual< Real >::vec_.
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inlinevirtual |
Compute \(y \leftarrow y + x\), where \(y = \mathtt{*this}\).
- Parameters
-
[in] x is the vector to be added to \(\mathtt{*this}\).
On return \(\mathtt{*this} = \mathtt{*this} + x\).
Implements ROL::Vector< Real >.
Definition at line 799 of file test_04.hpp.
References H1VectorDual< Real >::dimension(), H1VectorDual< Real >::getVector(), and H1VectorDual< Real >::vec_.
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Compute \(y \leftarrow \alpha y\) where \(y = \mathtt{*this}\).
- Parameters
-
[in] alpha is the scaling of \(\mathtt{*this}\).
On return \(\mathtt{*this} = \alpha (\mathtt{*this}) \).
Implements ROL::Vector< Real >.
Definition at line 808 of file test_04.hpp.
References H1VectorDual< Real >::dimension(), and H1VectorDual< Real >::vec_.
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Compute \( \langle y,x \rangle \) where \(y = \mathtt{*this}\).
- Parameters
-
[in] x is 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 815 of file test_04.hpp.
References H1VectorDual< Real >::dimension(), H1VectorDual< Real >::fem_, H1VectorDual< Real >::getVector(), and H1VectorDual< Real >::vec_.
Referenced by H1VectorDual< Real >::norm().
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Returns \( \| y \| \) where \(y = \mathtt{*this}\).
- Returns
- A nonnegative number equal to the norm of \(\mathtt{*this}\).
Implements ROL::Vector< Real >.
Definition at line 828 of file test_04.hpp.
References H1VectorDual< Real >::dot().
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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 834 of file test_04.hpp.
References H1VectorDual< Real >::fem_, and H1VectorDual< Real >::vec_.
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Definition at line 838 of file test_04.hpp.
References H1VectorDual< Real >::vec_.
Referenced by H1VectorDual< Real >::dot(), H1VectorDual< Real >::plus(), and H1VectorDual< Real >::set().
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Definition at line 842 of file test_04.hpp.
References H1VectorDual< Real >::vec_.
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Return i-th basis vector.
- Parameters
-
[in] i is 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 846 of file test_04.hpp.
References H1VectorDual< Real >::fem_, and H1VectorDual< Real >::vec_.
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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 853 of file test_04.hpp.
References H1VectorDual< Real >::vec_.
Referenced by H1VectorDual< Real >::dot(), H1VectorDual< Real >::plus(), and H1VectorDual< Real >::scale().
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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 857 of file test_04.hpp.
References H1VectorDual< Real >::dual_vec_, H1VectorDual< Real >::fem_, and H1VectorDual< Real >::vec_.
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Set \(y \leftarrow x\) where \(y = \mathtt{*this}\).
- Parameters
-
[in] x is 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 786 of file example_04.hpp.
References H1VectorDual< Real >::getVector(), and H1VectorDual< Real >::vec_.
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inlinevirtual |
Compute \(y \leftarrow y + x\), where \(y = \mathtt{*this}\).
- Parameters
-
[in] x is the vector to be added to \(\mathtt{*this}\).
On return \(\mathtt{*this} = \mathtt{*this} + x\).
Implements ROL::Vector< Real >.
Definition at line 792 of file example_04.hpp.
References H1VectorDual< Real >::dimension(), H1VectorDual< Real >::getVector(), and H1VectorDual< Real >::vec_.
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Compute \(y \leftarrow \alpha y\) where \(y = \mathtt{*this}\).
- Parameters
-
[in] alpha is the scaling of \(\mathtt{*this}\).
On return \(\mathtt{*this} = \alpha (\mathtt{*this}) \).
Implements ROL::Vector< Real >.
Definition at line 801 of file example_04.hpp.
References H1VectorDual< Real >::dimension(), and H1VectorDual< Real >::vec_.
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Compute \( \langle y,x \rangle \) where \(y = \mathtt{*this}\).
- Parameters
-
[in] x is 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 808 of file example_04.hpp.
References H1VectorDual< Real >::dimension(), H1VectorDual< Real >::fem_, H1VectorDual< Real >::getVector(), and H1VectorDual< Real >::vec_.
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Returns \( \| y \| \) where \(y = \mathtt{*this}\).
- Returns
- A nonnegative number equal to the norm of \(\mathtt{*this}\).
Implements ROL::Vector< Real >.
Definition at line 821 of file example_04.hpp.
References H1VectorDual< Real >::dot().
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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 827 of file example_04.hpp.
References H1VectorDual< Real >::fem_, and H1VectorDual< Real >::vec_.
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Definition at line 831 of file example_04.hpp.
References H1VectorDual< Real >::vec_.
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Definition at line 835 of file example_04.hpp.
References H1VectorDual< Real >::vec_.
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Return i-th basis vector.
- Parameters
-
[in] i is 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 839 of file example_04.hpp.
References H1VectorDual< Real >::fem_, and H1VectorDual< Real >::vec_.
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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 846 of file example_04.hpp.
References H1VectorDual< Real >::vec_.
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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 850 of file example_04.hpp.
References H1VectorDual< Real >::dual_vec_, H1VectorDual< Real >::fem_, and H1VectorDual< Real >::vec_.
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inlinevirtual |
Set \(y \leftarrow x\) where \(y = \mathtt{*this}\).
- Parameters
-
[in] x is 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 790 of file example_06.hpp.
References H1VectorDual< Real >::getVector(), and H1VectorDual< Real >::vec_.
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Compute \(y \leftarrow y + x\), where \(y = \mathtt{*this}\).
- Parameters
-
[in] x is the vector to be added to \(\mathtt{*this}\).
On return \(\mathtt{*this} = \mathtt{*this} + x\).
Implements ROL::Vector< Real >.
Definition at line 796 of file example_06.hpp.
References H1VectorDual< Real >::dimension(), H1VectorDual< Real >::getVector(), and H1VectorDual< Real >::vec_.
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Compute \(y \leftarrow \alpha y\) where \(y = \mathtt{*this}\).
- Parameters
-
[in] alpha is the scaling of \(\mathtt{*this}\).
On return \(\mathtt{*this} = \alpha (\mathtt{*this}) \).
Implements ROL::Vector< Real >.
Definition at line 805 of file example_06.hpp.
References H1VectorDual< Real >::dimension(), and H1VectorDual< Real >::vec_.
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Compute \( \langle y,x \rangle \) where \(y = \mathtt{*this}\).
- Parameters
-
[in] x is 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 812 of file example_06.hpp.
References H1VectorDual< Real >::dimension(), H1VectorDual< Real >::fem_, H1VectorDual< Real >::getVector(), and H1VectorDual< Real >::vec_.
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Returns \( \| y \| \) where \(y = \mathtt{*this}\).
- Returns
- A nonnegative number equal to the norm of \(\mathtt{*this}\).
Implements ROL::Vector< Real >.
Definition at line 825 of file example_06.hpp.
References H1VectorDual< Real >::dot().
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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 831 of file example_06.hpp.
References H1VectorDual< Real >::fem_, and H1VectorDual< Real >::vec_.
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Definition at line 835 of file example_06.hpp.
References H1VectorDual< Real >::vec_.
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Definition at line 839 of file example_06.hpp.
References H1VectorDual< Real >::vec_.
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Return i-th basis vector.
- Parameters
-
[in] i is 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 843 of file example_06.hpp.
References H1VectorDual< Real >::fem_, and H1VectorDual< Real >::vec_.
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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 850 of file example_06.hpp.
References H1VectorDual< Real >::vec_.
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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 854 of file example_06.hpp.
References H1VectorDual< Real >::dual_vec_, H1VectorDual< Real >::fem_, and H1VectorDual< Real >::vec_.
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Set \(y \leftarrow x\) where \(y = \mathtt{*this}\).
- Parameters
-
[in] x is 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 794 of file example_07.hpp.
References H1VectorDual< Real >::getVector(), and H1VectorDual< Real >::vec_.
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Compute \(y \leftarrow y + x\), where \(y = \mathtt{*this}\).
- Parameters
-
[in] x is the vector to be added to \(\mathtt{*this}\).
On return \(\mathtt{*this} = \mathtt{*this} + x\).
Implements ROL::Vector< Real >.
Definition at line 800 of file example_07.hpp.
References H1VectorDual< Real >::dimension(), H1VectorDual< Real >::getVector(), and H1VectorDual< Real >::vec_.
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Compute \(y \leftarrow \alpha y\) where \(y = \mathtt{*this}\).
- Parameters
-
[in] alpha is the scaling of \(\mathtt{*this}\).
On return \(\mathtt{*this} = \alpha (\mathtt{*this}) \).
Implements ROL::Vector< Real >.
Definition at line 809 of file example_07.hpp.
References H1VectorDual< Real >::dimension(), and H1VectorDual< Real >::vec_.
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Compute \( \langle y,x \rangle \) where \(y = \mathtt{*this}\).
- Parameters
-
[in] x is 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 816 of file example_07.hpp.
References H1VectorDual< Real >::dimension(), H1VectorDual< Real >::fem_, H1VectorDual< Real >::getVector(), and H1VectorDual< Real >::vec_.
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Returns \( \| y \| \) where \(y = \mathtt{*this}\).
- Returns
- A nonnegative number equal to the norm of \(\mathtt{*this}\).
Implements ROL::Vector< Real >.
Definition at line 829 of file example_07.hpp.
References H1VectorDual< Real >::dot().
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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 835 of file example_07.hpp.
References H1VectorDual< Real >::fem_, and H1VectorDual< Real >::vec_.
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Definition at line 839 of file example_07.hpp.
References H1VectorDual< Real >::vec_.
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Definition at line 843 of file example_07.hpp.
References H1VectorDual< Real >::vec_.
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Return i-th basis vector.
- Parameters
-
[in] i is 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 847 of file example_07.hpp.
References H1VectorDual< Real >::fem_, and H1VectorDual< Real >::vec_.
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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 854 of file example_07.hpp.
References H1VectorDual< Real >::vec_.
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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 858 of file example_07.hpp.
References H1VectorDual< Real >::dual_vec_, H1VectorDual< Real >::fem_, and H1VectorDual< Real >::vec_.
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inlinevirtual |
Compute \( \langle y,x \rangle \) where \(y = \mathtt{*this}\).
- Parameters
-
[in] x is 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 661 of file example_08.hpp.
References H1VectorDual< Real >::dimension(), H1VectorDual< Real >::fem_, ROL::StdVector< Real, Element >::getVector(), and H1VectorDual< Real >::getVector().
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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 675 of file example_08.hpp.
References ROL::StdVector< Real, Element >::dimension(), and H1VectorDual< Real >::fem_.
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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 680 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
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private |
Definition at line 783 of file test_04.hpp.
Referenced by H1VectorDual< Real >::basis(), H1VectorDual< Real >::clone(), H1VectorDual< Real >::dimension(), H1VectorDual< Real >::dot(), H1VectorDual< Real >::dual(), H1VectorDual< Real >::getVector(), H1VectorDual< Real >::plus(), H1VectorDual< Real >::scale(), and H1VectorDual< Real >::set().
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private |
Definition at line 784 of file test_04.hpp.
Referenced by H1VectorDual< Real >::basis(), H1VectorDual< Real >::clone(), H1VectorDual< Real >::dot(), and H1VectorDual< Real >::dual().
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mutableprivate |
Definition at line 786 of file test_04.hpp.
Referenced by H1VectorDual< Real >::dual().
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mutableprivate |
Definition at line 652 of file example_08.hpp.
Referenced by H1VectorDual< Real >::dual().
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mutableprivate |
Definition at line 653 of file example_08.hpp.
Referenced by H1VectorDual< Real >::dual().
The documentation for this class was generated from the following files:
