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Class documentation of Concepts
Public Types | |
| typedef Realtype< F >::type | r_type |
| Real type of data type. | |
| typedef Cmplxtype< F >::type | c_type |
| Real type of data type. | |
| typedef F | type |
| Type of data, e.g. matrix entries. | |
Public Member Functions | |
| ShiftAndInvertOperatorForGEVPs (SparseMatrix< F > &A, SparseMatrix< F > &B, F shift) | |
| F | getShift () |
| virtual void | operator() (const Function< r_type > &fncY, Function< F > &fncX) |
| virtual void | operator() (const Function< c_type > &fncY, Function< c_type > &fncX) |
| virtual void | operator() (const Vector< r_type > &fncY, Vector< F > &fncX) |
| virtual void | operator() (const Vector< c_type > &fncY, Vector< c_type > &fncX) |
| void | operator() (const Matrix< r_type > &mX, Matrix< F > &mY) |
| Application method to real matrices. Calls function apply() | |
| void | operator() (const Matrix< c_type > &mX, Matrix< c_type > &mY) |
| Application method to complex matrices. Calls apply_() | |
| void | operator() () |
| Application method without second argument. Used for parallel solvers. | |
| virtual void | operator() (const Function< r_type > &fncY, Function< F > &fncX) |
| virtual const uint | dimX () const |
| virtual const uint | dimY () const |
| virtual void | show_messages () |
Protected Member Functions | |
| virtual std::ostream & | info (std::ostream &os) const |
| Returns information in an output stream. | |
| virtual void | apply_ (const Vector< F > &fncY, Vector< F > &fncX) |
| virtual void | apply_ () |
Protected Attributes | |
| uint | dimX_ |
| Dimension of image space and the source space. | |
| uint | dimY_ |
Detailed Description
class concepts::ShiftAndInvertOperatorForGEVPs< F >
Definition at line 18 of file gevp_solver.hh.
Member Typedef Documentation
◆ c_type
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inherited |
Real type of data type.
Definition at line 120 of file compositions.hh.
◆ r_type
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inherited |
Real type of data type.
Definition at line 118 of file compositions.hh.
◆ type
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inherited |
Type of data, e.g. matrix entries.
Definition at line 45 of file compositions.hh.
Constructor & Destructor Documentation
◆ ShiftAndInvertOperatorForGEVPs()
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inline |
Definition at line 22 of file gevp_solver.hh.
◆ ~ShiftAndInvertOperatorForGEVPs()
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inlinevirtual |
Definition at line 35 of file gevp_solver.hh.
Member Function Documentation
◆ apply_() [1/2]
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inlineprotectedvirtual |
Intrinsic application method without argument
Implements concepts::VecOperator< F >.
Definition at line 56 of file gevp_solver.hh.
◆ apply_() [2/2]
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inlineprotectedvirtual |
Intrinsic application method, i.e. real Operator and real Vector or complex Operator and real Vector.
Implements concepts::VecOperator< F >.
Definition at line 49 of file gevp_solver.hh.
◆ dimX()
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inlinevirtualinherited |
Returns the size of the image space of the operator (number of rows of the corresponding matrix)
- Examples
- hpFEM2d-simple.cc, hpFEM2d.cc, and matfileTutorial.cc.
Definition at line 93 of file compositions.hh.
◆ dimY()
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inlinevirtualinherited |
Returns the size of the source space of the operator (number of columns of the corresponding matrix)
- Examples
- matfileTutorial.cc.
Definition at line 98 of file compositions.hh.
◆ info()
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inlineprotectedvirtual |
Returns information in an output stream.
Reimplemented from concepts::VecOperator< F >.
Definition at line 43 of file gevp_solver.hh.
◆ operator()() [1/5]
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virtualinherited |
Application method without second argument. Used for parallel solvers.
Reimplemented from concepts::Operator< F >.
◆ operator()() [2/5]
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virtualinherited |
Application operator for complex function fncY.
Computes fncX = A(fncY) where A is this operator. fncX becomes complex.
In derived classes its enough to implement the operator() for complex Operator's. If a real counterpart is not implemented, the function fncY is splitted into real and imaginary part and the application operator for real functions is called for each. Then the result is combined.
If in a derived class the operator() for complex Operator's is not implemented, a exception is thrown from here.
Reimplemented from concepts::Operator< F >.
◆ operator()() [3/5]
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virtualinherited |
Application operator for real function fncY.
Computes fncX = A(fncY) where A is this operator.
fncX becomes the type of the operator, for real data it becomes real, for complex data it becomes complex.
In derived classes its enough to implement the operator() for real Operator's. If a complex counterpart is not implemented, the function fncY is transformed to a complex function and then the application operator for complex functions is called.
If in a derived class the operator() for real Operator's is not implemented, a exception is thrown from here.
Reimplemented in aglowav::C2W< F >, aglowav2::C2W< F >, aglowav::W2C< F >, aglowav2::W2C< F >, aglowav::C2_tl2< F >, aglowav::C2tl2< F >, aglowav::CGt2< F >, aglowav::ComposeN< F >, aglowav2::Operator00< F >, bem::D< F >, bem::D_1< F >, concepts::TrivExtendRestrict< F >, sparseqr::GivensRotations< F >, vectorial::BlockOperator< F >, concepts::TrivExtendRestrict< Real >, sparseqr::GivensRotations< Real >, concepts::AfterIteration< F >, concepts::Compose< F, H >, concepts::DDSolver< F, G >, concepts::Multiple< F >, concepts::LiCoI< F >, concepts::LiCo< F >, concepts::DenseMatrix< F >, concepts::DiagonalMatrix< F >, concepts::Permutation< F >, concepts::Matrix< F >, concepts::Matrix< F::type >, and concepts::DiagonalSolver< F >.
◆ operator()() [4/5]
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virtualinherited |
Application operator for complex function fncY.
Computes fncX = A(fncY) where A is this operator. fncX becomes complex.
In derived classes its enough to implement the operator() for complex Operator's. If a real counterpart is not implemented, the vector fncY is splitted into real and imaginary part and the application operator for real vectors is called for each. Then the result is combined
If in a derived class the operator() for complex Operator's i not implemented, a exception is thrown from here.
◆ operator()() [5/5]
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virtualinherited |
Application operator for real vector fncY.
Computes fncX = A(fncY) where A is this operator.
Type of fncX becomes that of the operator, for real data it becomes real, for complex data it becomes complex.
In derived classes its enough to implement the operator() for real Operator's. If a complex counterpart is not implemented, the vector fncY is transformed to a complex vector and then the application for complex vectors is called.
If in a derived class the operator() for real Operator's is not implemented, a exception is thrown from here.
◆ show_messages()
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inlinevirtualinherited |
Reimplemented in concepts::MumpsOverlap< F >.
Definition at line 100 of file compositions.hh.
Member Data Documentation
◆ dimX_
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protectedinherited |
Dimension of image space and the source space.
Definition at line 104 of file compositions.hh.
◆ dimY_
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protectedinherited |
Definition at line 104 of file compositions.hh.
The documentation for this class was generated from the following file:
- eigensolver/gevp_solver.hh
Generated on Wed Sep 13 2023 21:06:45 for Concepts by
1.9.8