#include <op.hh>
Inheritance diagram for RVL::Deriv2Evaluation< Scalar >:
Public Member Functions | |
~Deriv2Evaluation () | |
const Space< Scalar > & | getDomain () const |
access to domain, delegated to Evaluation datum | |
const Space< Scalar > & | getRange () const |
access to range, delegated to Evaluation datum | |
ostream & | write (ostream &str) const |
Protected Member Functions | |
Deriv2Evaluation (const Deriv2Evaluation< Scalar > &d) | |
Deriv2Evaluation (OperatorEvaluation< Scalar > &_fx) | |
Records reference to Evaluation object. | |
SymmetricBilinearOp< Scalar > * | clone () const |
Operator< Scalar > & | getOp () const |
supplied to enable child classes to access Operator data member directly | |
void | apply (const Vector< Scalar > &y0, const Vector< Scalar > &y1, Vector< Scalar > &z) const |
image, application, MatVec product, whatever, via protected method of Evaluation datum | |
void | applyAdj (const Vector< Scalar > &y0, const Vector< Scalar > &z, Vector< Scalar > &y1) const |
image of adjoint operator, via protected method of Evaluation datum | |
Protected Attributes | |
OperatorEvaluation< Scalar > & | fx |
Friends | |
class | OperatorEvaluation< Scalar > |
class | Operator< Scalar > |
As no access to internal state (consisting only of an Evaluation reference) is provided, instances are effectively immutable. Only manufactured by OperatorEvaluation class - the nontrivial constructor is protected (others are private and not implemented) and OperatorEvaluation is the only friend class.
Definition at line 2038 of file op.hh.
RVL::Deriv2Evaluation< Scalar >::Deriv2Evaluation | ( | const Deriv2Evaluation< Scalar > & | d | ) | [protected] |
RVL::Deriv2Evaluation< Scalar >::Deriv2Evaluation | ( | OperatorEvaluation< Scalar > & | _fx | ) | [protected] |
RVL::Deriv2Evaluation< Scalar >::~Deriv2Evaluation | ( | ) |
SymmetricBilinearOp<Scalar>* RVL::Deriv2Evaluation< Scalar >::clone | ( | ) | const [protected, virtual] |
Operator<Scalar>& RVL::Deriv2Evaluation< Scalar >::getOp | ( | ) | const [protected] |
supplied to enable child classes to access Operator data member directly
Definition at line 2064 of file op.hh.
References RVL::Deriv2Evaluation< Scalar >::fx.
void RVL::Deriv2Evaluation< Scalar >::apply | ( | const Vector< Scalar > & | y0, | |
const Vector< Scalar > & | y1, | |||
Vector< Scalar > & | z | |||
) | const [protected, virtual] |
image, application, MatVec product, whatever, via protected method of Evaluation datum
Implements RVL::SymmetricBilinearOp< Scalar >.
Definition at line 2068 of file op.hh.
References RVL::Deriv2Evaluation< Scalar >::fx.
void RVL::Deriv2Evaluation< Scalar >::applyAdj | ( | const Vector< Scalar > & | y0, | |
const Vector< Scalar > & | z, | |||
Vector< Scalar > & | y1 | |||
) | const [protected, virtual] |
image of adjoint operator, via protected method of Evaluation datum
Implements RVL::SymmetricBilinearOp< Scalar >.
Definition at line 2082 of file op.hh.
References RVL::Deriv2Evaluation< Scalar >::fx.
const Space<Scalar>& RVL::Deriv2Evaluation< Scalar >::getDomain | ( | ) | const [virtual] |
access to domain, delegated to Evaluation datum
Implements RVL::SymmetricBilinearOp< Scalar >.
Definition at line 2099 of file op.hh.
References RVL::Deriv2Evaluation< Scalar >::fx.
const Space<Scalar>& RVL::Deriv2Evaluation< Scalar >::getRange | ( | ) | const [virtual] |
access to range, delegated to Evaluation datum
Implements RVL::SymmetricBilinearOp< Scalar >.
Definition at line 2101 of file op.hh.
References RVL::Deriv2Evaluation< Scalar >::fx.
ostream& RVL::Deriv2Evaluation< Scalar >::write | ( | ostream & | str | ) | const [virtual] |
Implements RVL::Writeable.
Definition at line 2103 of file op.hh.
References RVL::Deriv2Evaluation< Scalar >::fx.
friend class OperatorEvaluation< Scalar > [friend] |
friend class Operator< Scalar > [friend] |
OperatorEvaluation<Scalar>& RVL::Deriv2Evaluation< Scalar >::fx [protected] |
Definition at line 2050 of file op.hh.
Referenced by RVL::Deriv2Evaluation< Scalar >::apply(), RVL::Deriv2Evaluation< Scalar >::applyAdj(), RVL::Deriv2Evaluation< Scalar >::getDomain(), RVL::Deriv2Evaluation< Scalar >::getOp(), RVL::Deriv2Evaluation< Scalar >::getRange(), and RVL::Deriv2Evaluation< Scalar >::write().