| CThyra::CatastrophicSolveFailure | Exception type thrown on an catastrophic solve failure |
| CThyra::ConstDetachedMultiVectorView< Scalar > | Create an explicit non-mutable (const) view of a MultiVectorBase object |
| CThyra::ConstDetachedSpmdVectorView< Scalar > | Create an explicit detached non-mutable (const) view of all of the local elements on this process of an VectorBase object |
| CThyra::ConstDetachedVectorView< Scalar > | Create an explicit non-mutable (const) view of a VectorBase object |
| CThyra::DefaultNonlinearSolverBuilder | Concrete subclass of Thyra::NonlinearSolverBuilderBase for creating NonlinearSolverBase objects and PreconditionerFactoryBase object on demand given configured factory objects |
| CThyra::ModelEvaluatorBase::Derivative< Scalar > | Simple aggregate class that stores a derivative object as a general linear operator or as a multi-vector |
| CThyra::ModelEvaluatorBase::DerivativeMultiVector< Scalar > | Simple aggregate class for a derivative object represented as a column-wise multi-vector or its transpose as a row-wise multi-vector |
| CThyra::ModelEvaluatorBase::DerivativeProperties | Simple public strict containing properties of a derivative object |
| CThyra::ModelEvaluatorBase::DerivativeSupport | Determines the forms of a general derivative that are supported |
| CThyra::DetachedMultiVectorView< Scalar > | Create an explicit mutable (non-const) view of a MultiVectorBase object |
| CThyra::DetachedSpmdVectorView< Scalar > | Create an explicit detached mutable (non-const) view of all of the local elements on this process of an VectorBase object |
| CThyra::DetachedVectorView< Scalar > | Create an explicit mutable (non-const) view of a VectorBase object |
| ▼CEpetra_Operator [external] | |
| CThyra::EpetraOperatorWrapper | Implements the Epetra_Operator interface with a Thyra LinearOperator |
| CThyra::Exceptions::IncompatibleVectorSpaces | Thrown if vector spaces are incompatible |
| ▼CTeuchos::LabeledObject [external] | |
| ►CTeuchos::Describable [external] | |
| ►CThyra::LinearOpBase< double > | |
| ►CThyra::RowStatLinearOpBase< double > | |
| CThyra::EpetraLinearOp | Concrete LinearOpBase adapter subclass for Epetra_Operator object |
| ►CThyra::ScaledLinearOpBase< double > | |
| CThyra::EpetraLinearOp | Concrete LinearOpBase adapter subclass for Epetra_Operator object |
| CThyra::EpetraLinearOp | Concrete LinearOpBase adapter subclass for Epetra_Operator object |
| ►CThyra::LinearOpTransformerBase< double > | |
| CThyra::EpetraExtAddTransformer | Transformer subclass for adding Epetra/Thyra operators using EpetraExt::MatrixMatrix |
| CThyra::EpetraExtDiagScaledMatProdTransformer | Transformer subclass for diagonally scaling and multiplying Epetra/Thyra operators |
| CThyra::EpetraExtDiagScalingTransformer | Transformer subclass for diagonally scaling a Epetra/Thyra operator |
| ►CThyra::LinearOpWithSolveFactoryBase< double > | |
| CThyra::DiagonalEpetraLinearOpWithSolveFactory | Create a DefaultDiagonalLinearOpWithSolve out of a diagonal Epetra_RowMatrix object |
| CThyra::ModelEvaluatorBase::InArgs< double > | |
| CThyra::ModelEvaluatorBase::OutArgs< double > | |
| ►CThyra::EpetraLinearOpBase | Abstract base class for all LinearOpBase objects that can return an Epetra_Operator view of themselves and details about how to apply the view |
| CThyra::EpetraLinearOp | Concrete LinearOpBase adapter subclass for Epetra_Operator object |
| ►CThyra::EpetraOperatorViewExtractorBase | Strategy interface for extracting an Epetra_Operator view out of a Thyra::LinearOpBase<double> object |
| CThyra::EpetraOperatorViewExtractorStd | Standard strategy subclass for extracting an Epetra_Operator view out of a Thyra::LinearOpBase<double> object by dynamic casting to the EpetraLinearOpBase interface |
| ►CThyra::LinearOpBase< Scalar > | Base class for all linear operators |
| ►CThyra::AddedLinearOpBase< Scalar > | Interface class for implicitly added linear operators |
| CThyra::DefaultAddedLinearOp< Scalar > | Concrete composite LinearOpBase subclass that creates an implicitly added linear operator out of one or more constituent LinearOpBase objects |
| ►CThyra::BlockedLinearOpBase< Scalar > | Base interface for linear operators that can be accessed as sub-blocks |
| ►CThyra::BlockedLinearOpWithSolveBase< Scalar > | Base interface for linear operators with a solve that can be accessed as sub-blocks |
| ►CThyra::PhysicallyBlockedLinearOpWithSolveBase< Scalar > | Base interface for linear operators with a solve that are composed out of individual LOB and LOWSB objects |
| CThyra::DefaultBlockedTriangularLinearOpWithSolve< Scalar > | Concrete composite LinearOpWithSolveBase subclass that creates single upper or lower block triangular LOWSB object out of a set of LOWSB objects along the diagonal with LOB objects off diagonal |
| ►CThyra::PhysicallyBlockedLinearOpBase< Scalar > | Base interface for physically blocked linear operators |
| CThyra::DefaultBlockedLinearOp< Scalar > | Concrete composite LinearOpBase subclass that creates single linear operator object out of a set of constituent LinearOpBase blocks |
| CThyra::PhysicallyBlockedLinearOpWithSolveBase< Scalar > | Base interface for linear operators with a solve that are composed out of individual LOB and LOWSB objects |
| ►CThyra::DiagonalLinearOpBase< Scalar > | Interface class for for diagonal linear operators |
| ►CThyra::DefaultDiagonalLinearOp< Scalar > | Default concrete LinearOpBase subclass for diagonal linear operators |
| CThyra::DefaultDiagonalLinearOpWithSolve< Scalar > | Concrete LinearOpWithSolveBase subclass for diagonal linear operators |
| ►CThyra::IdentityLinearOpBase< Scalar > | Interface class for identity linear operators |
| CThyra::DefaultIdentityLinearOp< Scalar > | Represents a identity linear operator M = I |
| ►CThyra::InverseLinearOpBase< Scalar > | Base interface for <ttLinearOpBase objects that are implemented in terms of the solve function on a LinearOpWithSolveBase object |
| CThyra::DefaultInverseLinearOp< Scalar > | Concrete LinearOpBase subclass that creates an implicit LinearOpBase object using the inverse action of a LinearOpWithSolveBase object |
| ►CThyra::LinearOpDefaultBase< Scalar > | Node subclass that provides a good default implementation for the describe() function |
| CExampleTridiagSerialLinearOp< Scalar > | Simple example subclass for serial tridiagonal matrices |
| CExampleTridiagSpmdLinearOp< Scalar > | Simple example subclass for Spmd tridiagonal matrices |
| ►CThyra::MultiVectorDefaultBase< Scalar > | Node subclass that uses a default MultiVectorBase implementation to provide default implementations for as many other functions in MultiVectorBase interface the as is reasonable |
| CThyra::DefaultColumnwiseMultiVector< Scalar > | Default subclass for MultiVectorBase implemented using columns of separate abstract vectors |
| CThyra::DefaultProductMultiVector< Scalar > | Concrete implementation of a product multi-vector |
| ►CThyra::MultiVectorAdapterBase< Scalar > | Node subclass for MultiVectorBase subclasses that allows the insertion of an application defined scalar product |
| ►CThyra::SpmdMultiVectorDefaultBase< Scalar > | Base node implementation class for SPMD multi-vectors |
| CThyra::DefaultSpmdMultiVector< Scalar > | Efficient concrete implementation subclass for SPMD multi-vectors |
| CThyra::TpetraMultiVector< Scalar, LocalOrdinal, GlobalOrdinal, Node > | Concrete implementation of Thyra::MultiVector in terms of Tpetra::MultiVector |
| ►CThyra::VectorDefaultBase< Scalar > | Convenient node subclass for concrete VectorBase subclasses that relies on a default MultiVectorBase implementation |
| CThyra::DefaultClusteredSpmdProductVector< Scalar > | Concrete implementation of a clustered Spmd-based product vector |
| CThyra::DefaultMultiVectorProductVector< Scalar > | Concrete implementation of a product vector which is really composed out of the columns of a multi-vector |
| CThyra::DefaultProductVector< Scalar > | Concrete implementation of a product vector |
| ►CThyra::SpmdVectorDefaultBase< Scalar > | Base class for SPMD vectors that can provide views of contiguous elements in a process |
| CThyra::DefaultSpmdVector< Scalar > | Efficient concrete implementation subclass for SPMD vectors |
| CThyra::TpetraVector< Scalar, LocalOrdinal, GlobalOrdinal, Node > | Concrete Thyra::SpmdVectorBase using Tpetra::Vector |
| CThyra::TpetraLinearOp< Scalar, LocalOrdinal, GlobalOrdinal, Node > | Concrete Thyra::LinearOpBase subclass for Tpetra::Operator |
| ►CThyra::LinearOpWithSolveBase< Scalar > | Base class for all linear operators that can support a high-level solve operation |
| CThyra::BlockedLinearOpWithSolveBase< Scalar > | Base interface for linear operators with a solve that can be accessed as sub-blocks |
| CThyra::DefaultAdjointLinearOpWithSolve< Scalar > | Default concreate decorator subclass for a transpose/adjoint LinearOpWithSolveBase object |
| CThyra::DefaultDiagonalLinearOpWithSolve< Scalar > | Concrete LinearOpWithSolveBase subclass for diagonal linear operators |
| CThyra::DefaultMultiVectorLinearOpWithSolve< Scalar > | Implicit concrete LinearOpWithSolveBase subclass that takes a flattended out multi-vector and performs a multi-RHS solve with it |
| CThyra::DefaultSerialDenseLinearOpWithSolve< Scalar > | Simple concreate subclass of LinearOpWithSolveBase for serial dense matrices implemented using LAPACK |
| CThyra::DelayedLinearOpWithSolve< Scalar > | Delayed linear solver construction LinearOpWithSolveBase decorator class |
| ►CThyra::MultiVectorBase< Scalar > | Interface for a collection of column vectors called a multi-vector |
| CThyra::MultiVectorDefaultBase< Scalar > | Node subclass that uses a default MultiVectorBase implementation to provide default implementations for as many other functions in MultiVectorBase interface the as is reasonable |
| ►CThyra::ProductMultiVectorBase< Scalar > | Base interface for product multi-vectors |
| CThyra::DefaultProductMultiVector< Scalar > | Concrete implementation of a product multi-vector |
| ►CThyra::ProductVectorBase< Scalar > | Base interface for product vectors |
| CThyra::DefaultClusteredSpmdProductVector< Scalar > | Concrete implementation of a clustered Spmd-based product vector |
| CThyra::DefaultMultiVectorProductVector< Scalar > | Concrete implementation of a product vector which is really composed out of the columns of a multi-vector |
| CThyra::DefaultProductVector< Scalar > | Concrete implementation of a product vector |
| ►CThyra::SpmdMultiVectorBase< Scalar > | Base interface class for SPMD multi-vectors |
| CThyra::SpmdMultiVectorDefaultBase< Scalar > | Base node implementation class for SPMD multi-vectors |
| ►CThyra::SpmdVectorBase< Scalar > | Base class for SPMD vectors that can provide views of contiguous elements in a process |
| CThyra::SpmdVectorDefaultBase< Scalar > | Base class for SPMD vectors that can provide views of contiguous elements in a process |
| ►CThyra::VectorBase< Scalar > | Abstract interface for finite-dimensional dense vectors |
| CThyra::ProductVectorBase< Scalar > | Base interface for product vectors |
| CThyra::SpmdVectorBase< Scalar > | Base class for SPMD vectors that can provide views of contiguous elements in a process |
| CThyra::VectorDefaultBase< Scalar > | Convenient node subclass for concrete VectorBase subclasses that relies on a default MultiVectorBase implementation |
| ►CThyra::MultipliedLinearOpBase< Scalar > | Interface class for implicitly multiplied linear operators |
| CThyra::DefaultMultipliedLinearOp< Scalar > | Concrete composite LinearOpBase subclass that creates an implicitly multiplied linear operator out of one or more constituent LinearOpBase objects |
| ►CThyra::RowStatLinearOpBase< Scalar > | Interface for exxtracting row statistics as a VectorBase from a supporting LinearOpBase object |
| CThyra::DefaultBlockedLinearOp< Scalar > | Concrete composite LinearOpBase subclass that creates single linear operator object out of a set of constituent LinearOpBase blocks |
| CThyra::DefaultZeroLinearOp< Scalar > | Represents a zero linear operator M = 0 |
| CThyra::MultiVectorBase< Scalar > | Interface for a collection of column vectors called a multi-vector |
| CThyra::TpetraLinearOp< Scalar, LocalOrdinal, GlobalOrdinal, Node > | Concrete Thyra::LinearOpBase subclass for Tpetra::Operator |
| ►CThyra::ScaledAdjointLinearOpBase< Scalar > | Base class for LinearOpBase decorator subclasses that wrap a LinearOpBase object and adds on an extra scaling factor and/or a new transpose enum |
| CThyra::DefaultScaledAdjointLinearOp< Scalar > | Concrete decorator LinearOpBase subclass that wraps a LinearOpBase object and adds on an extra scaling factor and/or a transpose enum |
| ►CThyra::ScaledLinearOpBase< Scalar > | Applies left or right sclaing to the linear operator |
| CThyra::DefaultBlockedLinearOp< Scalar > | Concrete composite LinearOpBase subclass that creates single linear operator object out of a set of constituent LinearOpBase blocks |
| CThyra::DefaultZeroLinearOp< Scalar > | Represents a zero linear operator M = 0 |
| CThyra::MultiVectorBase< Scalar > | Interface for a collection of column vectors called a multi-vector |
| CThyra::TpetraLinearOp< Scalar, LocalOrdinal, GlobalOrdinal, Node > | Concrete Thyra::LinearOpBase subclass for Tpetra::Operator |
| ►CThyra::ZeroLinearOpBase< Scalar > | Interface class for zero linear operators |
| CThyra::DefaultZeroLinearOp< Scalar > | Represents a zero linear operator M = 0 |
| ►CThyra::LinearOpSourceBase< Scalar > | Base interface for objects that can return a linear operator |
| CThyra::DefaultLinearOpSource< Scalar > | Default implementation of a LinearOpSourceBase that just accepts and gives up a single linear operator object |
| CThyra::LinearOpTransformerBase< Scalar > | Base interface for transforming a LinearOpBase object |
| ►CThyra::LinearOpWithSolveFactoryBase< Scalar > | Factory interface for creating LinearOpWithSolveBase objects from compatible LinearOpBase objects |
| CThyra::DefaultBlockedTriangularLinearOpWithSolveFactory< Scalar > | Implicit subclass that takes a blocked triangular LOWB object and turns it into a LOWSB object |
| CThyra::DefaultSerialDenseLinearOpWithSolveFactory< Scalar > | Concreate LinearOpWithSolveFactoryBase subclass that creates DefaultSerialDenseLinearOpWithSolve objects that use LAPACK |
| CThyra::DelayedLinearOpWithSolveFactory< Scalar > | General delayed construction LinearOpWithSolveFactoryBase subclass |
| ►CThyra::ModelEvaluatorBase | Base subclass for ModelEvaluator that defines some basic types |
| ►CThyra::ModelEvaluator< double > | |
| ►CThyra::ModelEvaluatorDefaultBase< double > | |
| CThyra::EpetraModelEvaluator | Concrete Adapter subclass that takes an EpetraExt::ModelEvaluator object and wraps it as a Thyra::ModelEvaluator object |
| ►CThyra::ModelEvaluator< Scalar > | Pure abstract base interface for evaluating a stateless "model" that can be mapped into a number of different types of problems |
| ►CThyra::ModelEvaluatorDefaultBase< Scalar > | Default base class for concrete model evaluators |
| CThyra::DefaultMultiPeriodModelEvaluator< Scalar > | Composite subclass that takes a single ModelEvaluator object and represents it as a single aggregate multi-period ModelEvalator object |
| CThyra::DummyTestModelEvaluator< Scalar > | Test helper ModelEvaluator |
| ►CThyra::ModelEvaluatorDelegatorBase< Scalar > | This is a base class that delegetes almost all function to a wrapped model evaluator object |
| CThyra::DefaultEvaluationLoggerModelEvaluator< Scalar > | This class wraps any ModelEvaluator object and logs the evaluation of various functions |
| CThyra::DefaultFinalPointCaptureModelEvaluator< Scalar > | This class wraps any ModelEvaluator object and allows the client to capture the final point that is returned by a client |
| CThyra::DefaultFiniteDifferenceModelEvaluator< Scalar > | This class wraps any ModelEvaluator object and computes certain derivatives using finite differences |
| CThyra::DefaultInverseModelEvaluator< Scalar > | This class wraps any ModelEvaluator object and adds a simple, but fairly general, inverse response function |
| CThyra::DefaultLumpedParameterModelEvaluator< Scalar > | Decorator class that wraps any ModelEvaluator object and lumps parameters together using a linear basis matrix |
| CThyra::DefaultModelEvaluatorWithSolveFactory< Scalar > | This class wraps any ModelEvaluator object and uses a compatible LinearOpWithSolveFactory object to create a LinearOpWithSolveBase version of W |
| CThyra::DefaultNominalBoundsOverrideModelEvaluator< Scalar > | This class wraps any ModelEvaluator object and allows the client to overide the state contained in the nominal values and the upper and lower bounds |
| CThyra::DefaultStateEliminationModelEvaluator< Scalar > | This class wraps any ModelEvaluator object along with a NonlinearSolverBase object and eliminates the steady-state equations f(x,...)=0 |
| CThyra::ScaledModelEvaluator< Scalar > | This class decorates a ModelEvaluator and returns scaled residual and Jacobian values |
| CThyra::TpetraExplicitAdjointModelEvaluator< Scalar, LocalOrdinal, GlobalOrdinal, Node > | A model evaluator decorator for computing an explicit adjoint |
| ►CThyra::ResponseOnlyModelEvaluatorBase< Scalar > | This base class defines default function implementations appropritate for a response-only model evaluator (p) -> g(j), for j=0...Ng-1 |
| CThyra::DiagonalQuadraticResponseOnlyModelEvaluator< Scalar > | Simple parallel response-only ModelEvaluator |
| ►CThyra::StateFuncModelEvaluatorBase< Scalar > | This base class defines default function implementations appropritate for a set of nonlinear state functions of the form x -> f(x) |
| CThyra::Simple2DModelEvaluator< Scalar > | Simple 2d simulation only ModelEvaluator for f(x) = 0 |
| ►CThyra::ModelEvaluatorBase::InArgs< Scalar > | Concrete aggregate class for all input arguments computable by a ModelEvaluator subclass object |
| CThyra::ModelEvaluatorBase::InArgsSetup< Scalar > | Protected subclass of InArgs that only ModelEvaluator subclasses can access to set up the selection of supported input arguments |
| ►CThyra::ModelEvaluatorBase::OutArgs< Scalar > | Concrete aggregate class for all output arguments computable by a ModelEvaluator subclass object |
| CThyra::ModelEvaluatorBase::OutArgsSetup< Scalar > | Protected subclass of OutArgs that only ModelEvaluator subclasses can access to set up the selection of supported input arguments |
| CThyra::MultiVectorTester< Scalar > | Unit testing class for a MultiVectorBase object |
| ►CThyra::NonlinearSolverBase< Scalar > | Base class for all nonlinear equation solvers |
| CThyra::DampenedNewtonNonlinearSolver< Scalar > | Simple dampended Newton solver using a Armijo line search :-) |
| CThyra::LinearNonlinearSolver< Scalar > | Concrete nonlinear solver for linear equations |
| ►CThyra::PreconditionerBase< Scalar > | Simple interface class to access a precreated preconditioner as one or more linear operators objects and information on how they are meant to be applied |
| CThyra::DefaultPreconditioner< Scalar > | Default implementation of a PreconditionerBase that just accepts precreated preconditioner linear operators |
| CThyra::PreconditionerFactoryBase< Scalar > | Factory interface for creating preconditioner objects from LinearOpBase objects |
| CThyra::ReductionFunctional< Scalar > | A general reduction functional to be used in specialized solve convergence criteria |
| ►CThyra::ScalarProdBase< Scalar > | Abstract interface for scalar products |
| CThyra::DiagonalScalarProd< Scalar > | Concrete implementation of a scalar product using a diagonal vector |
| ►CThyra::EuclideanScalarProd< Scalar > | Concrete implementation of a scalar product for a Euclidean vector space (i.e. using the dot product) |
| CThyra::TpetraEuclideanScalarProd< Scalar, LocalOrdinal, GlobalOrdinal, Node > | Extends concrete implementation of a Euclidean scalar product for specifically Tpetra vectors/multivectors |
| CThyra::LinearOpScalarProd< Scalar > | Concrete implementation of a scalar product using a symmetric positive-definite linear operator |
| ►CThyra::VectorSpaceBase< Scalar > | Abstract interface for objects that represent a space for vectors |
| ►CThyra::ProductVectorSpaceBase< Scalar > | |
| CThyra::DefaultClusteredSpmdProductVectorSpace< Scalar > | |
| CThyra::DefaultMultiVectorProductVectorSpace< Scalar > | Standard concrete implementation of a product vector space that creates product vectors fromed implicitly from the columns of a multi-vector |
| CThyra::DefaultProductVectorSpace< Scalar > | |
| ►CThyra::SpmdVectorSpaceBase< Scalar > | Base abstract VectorSpaceBase class for all SPMD-based vector spaces |
| ►CThyra::SpmdVectorSpaceDefaultBase< Scalar > | Base VectorSpaceBase class for all SPMD vector spaces with contiguous local-to-global indexing |
| CThyra::DefaultSpmdVectorSpace< Scalar > | Concrete implementation of an SPMD vector space subclass which creates DefaultSpmdVector and DefaultSpmdMultiVector objects |
| CThyra::TpetraVectorSpace< Scalar, LocalOrdinal, GlobalOrdinal, Node > | Concrete implementation of an SPMD vector space for Tpetra |
| ►CThyra::VectorSpaceDefaultBase< Scalar > | Node VectorSpaceBase subclass that provides default implementations for many functions using a default multi-vectors implementation |
| CThyra::DefaultClusteredSpmdProductVectorSpace< Scalar > | |
| CThyra::DefaultMultiVectorProductVectorSpace< Scalar > | Standard concrete implementation of a product vector space that creates product vectors fromed implicitly from the columns of a multi-vector |
| CThyra::DefaultProductVectorSpace< Scalar > | |
| ►CThyra::ScalarProdVectorSpaceBase< Scalar > | Forward decl |
| CThyra::SpmdVectorSpaceDefaultBase< Scalar > | Base VectorSpaceBase class for all SPMD vector spaces with contiguous local-to-global indexing |
| ►CThyra::VectorSpaceFactoryBase< Scalar > | Abstract interface for objects that can create vector spaces of a specified dimension |
| CThyra::DefaultSpmdVectorSpaceFactory< Scalar > | Concrete implementation of a vector-space factory for a locally-replicated distributed DefaultSpmdVectorSpace objects |
| CTeuchos::Describable [external] | |
| CTeuchos::Describable [external] | |
| ▼CThyra::LinearOpChanger< Scalar > | Silly abstract strategy interface for changing Thyra::LinearOpBase objects |
| CThyra::NullLinearOpChanger< Scalar > | No-op changer |
| CThyra::LinearOpTester< Scalar > | Testing class for LinearOpBase |
| CThyra::ModelEvaluatorBase::MPDerivative | Simple aggregate class that stores a derivative object as a general linear operator or as a multi-vector |
| CThyra::ModelEvaluatorBase::MPDerivativeMultiVector | Simple aggregate class for a derivative object represented as a column-wise multi-vector or its transpose as a row-wise multi-vector |
| CThyra::MultiVectorAllocator< Scalar > | Allocator class to be used with Teuchos::AbstractFactoryStd to create MultiVectorBase objects of a given size |
| ▼CThyra::MultiVectorRandomizerBase< Scalar > | Base interface for a strategy object for randomizing a multi-vector |
| CThyra::ListedMultiVectorRandomizer< Scalar > | MultiVectorRandomizerBase subclass that returns a revolving list of preset MultiVectorBase objects |
| CThyra::UniversalMultiVectorRandomizer< Scalar > | Univeral MultiVectorRandomizerBase subclass that is compatible with all MultiVectorBase objects |
| CThyra::MultiVectorStdOpsTester< Scalar > | Testing class that tests all of the standard vector operations defined in ??? using an arbitrary vector space |
| CThyra::Exceptions::OpNotSupported | |
| ▼CTeuchos::ParameterListAcceptor [external] | |
| CThyra::LinearOpWithSolveFactoryBase< double > | |
| ►CTeuchos::ParameterListAcceptorDefaultBase [external] | |
| CThyra::DefaultSerialDenseLinearOpWithSolveFactory< Scalar > | Concreate LinearOpWithSolveFactoryBase subclass that creates DefaultSerialDenseLinearOpWithSolve objects that use LAPACK |
| CThyra::LinearOpWithSolveTester< Scalar > | Testing class for LinearOpWithSolveBase |
| CTeuchos::ParameterListAcceptorDefaultBase [external] | |
| CTeuchos::ParameterListAcceptorDefaultBase [external] | |
| CThyra::DefaultInverseModelEvaluator< Scalar > | This class wraps any ModelEvaluator object and adds a simple, but fairly general, inverse response function |
| CThyra::DefaultLumpedParameterModelEvaluator< Scalar > | Decorator class that wraps any ModelEvaluator object and lumps parameters together using a linear basis matrix |
| CThyra::DirectionalFiniteDiffCalculator< Scalar > | Utility class for computing directional finite differences of a model |
| CThyra::EpetraModelEvaluator | Concrete Adapter subclass that takes an EpetraExt::ModelEvaluator object and wraps it as a Thyra::ModelEvaluator object |
| CThyra::LinearOpWithSolveFactoryBase< Scalar > | Factory interface for creating LinearOpWithSolveBase objects from compatible LinearOpBase objects |
| CThyra::LinearSolverBuilderBase< Scalar > | Abstract interface for an object that can create LinearOpWithSolveFactoryBase objects on demand |
| CThyra::NonlinearSolverBase< Scalar > | Base class for all nonlinear equation solvers |
| CThyra::ParameterDrivenMultiVectorInput< Scalar > | Concrete utility class that an ANA can use for reading in a (multi)vector as directed by a parameter sublist |
| CThyra::PreconditionerFactoryBase< Scalar > | Factory interface for creating preconditioner objects from LinearOpBase objects |
| CTeuchos::PolynomialTraits< Thyra::VectorBase< Scalar > > | Specilization of Teuchos::PolynomialTraits for Thyra vectors |
| ▼CTeuchos::RCP< class T > [external] | |
| CThyra::ModelEvaluatorBase::Evaluation< Thyra::VectorBase< double > > | |
| CThyra::ModelEvaluatorBase::Evaluation< Thyra::VectorBase< Scalar > > | |
| CThyra::ModelEvaluatorBase::Evaluation< ObjType > | Type to embed evaluation accuracy with an RCP-managed object |
| CThyra::DirectionalFiniteDiffCalculatorTypes::SelectedDerivatives | Simple utility class used to select finite difference derivatives for OutArgs object |
| CThyra::SolveCriteria< Scalar > | Simple struct that defines the requested solution criteria for a solve |
| CThyra::SolveMeasureType | Solve tolerance type |
| CThyra::SolveStatus< Scalar > | Simple struct for the return status from a solve |
| CThyra::SpmdMultiVectorSerializer< Scalar > | Concrete utility class for reading and writing SPMD-based MultiVectorBase objects to and from standard streams |
| CThyra::TestResultsPrinter | Control printing of test results |
| CThyra::TpetraOperatorVectorExtraction< Scalar, LocalOrdinal, GlobalOrdinal, Node > | Traits class that enables the extraction of Tpetra operator/vector objects wrapped in Thyra operator/vector objects |
| CThyra::Exceptions::UnInitialized | Thrown if any member functions are called before initialize() has been called |
| ▼CThyra::VectorSpaceConverterBase< ScalarFrom, ScalarTo > | Base interface for a factory that converts vector space types and vectors and multi-vectors from one scalar type to another |
| ►CThyra::SerialVectorSpaceConverterBase< ScalarFrom, ScalarTo > | Node base class for converting serial multi-vectors (and vectors) from one scalar type to another |
| CThyra::DefaultSerialVectorSpaceConverter< ScalarFrom, ScalarTo > | Concrete subclass for a converter subclass for converting serial multi-vectors and vectors |
| CThyra::VectorSpaceTester< Scalar > | Testing class for VectorSpace and the VectorBase and MultiVectorBase objects that it creates |
| CThyra::VectorStdOpsTester< Scalar > | Testing class that tests all of the standard vector operations defined in ??? using an arbitrary vector space |
| CThyra::VectorTester< Scalar > | Unit testing class for a VectorBase object |
| ▼CTeuchos::VerboseObjectBase [external] | |
| ►CTeuchos::VerboseObject< LinearOpWithSolveFactoryBase< double > > [external] | |
| CThyra::LinearOpWithSolveFactoryBase< double > | |
| ►CTeuchos::VerboseObject< DirectionalFiniteDiffCalculator< Scalar > > [external] | |
| CThyra::DirectionalFiniteDiffCalculator< Scalar > | Utility class for computing directional finite differences of a model |
| ►CTeuchos::VerboseObject< LinearOpTransformerBase< double > > [external] | |
| CThyra::LinearOpTransformerBase< double > | |
| ►CTeuchos::VerboseObject< LinearOpTransformerBase< Scalar > > [external] | |
| CThyra::LinearOpTransformerBase< Scalar > | Base interface for transforming a LinearOpBase object |
| ►CTeuchos::VerboseObject< LinearOpWithSolveBase< Scalar > > [external] | |
| CThyra::LinearOpWithSolveBase< Scalar > | Base class for all linear operators that can support a high-level solve operation |
| ►CTeuchos::VerboseObject< LinearOpWithSolveFactoryBase< Scalar > > [external] | |
| CThyra::LinearOpWithSolveFactoryBase< Scalar > | Factory interface for creating LinearOpWithSolveBase objects from compatible LinearOpBase objects |
| ►CTeuchos::VerboseObject< ModelEvaluatorBase > [external] | |
| CThyra::ModelEvaluatorBase | Base subclass for ModelEvaluator that defines some basic types |
| ►CTeuchos::VerboseObject< MultiVectorFileIOBase< Scalar > > [external] | |
| ►CThyra::MultiVectorFileIOBase< Scalar > | Abstract strategy interface for reading and writing (multi)vector objects to and from files |
| CThyra::DefaultSpmdMultiVectorFileIO< Scalar > | Concrete implementation of MultiVectorFileIO that reads and writes SPMD-based (multi)vectors to and from files |
| ►CTeuchos::VerboseObject< NonlinearSolverBase< Scalar > > [external] | |
| CThyra::NonlinearSolverBase< Scalar > | Base class for all nonlinear equation solvers |
| ►CTeuchos::VerboseObject< ParameterDrivenMultiVectorInput< Scalar > > [external] | |
| CThyra::ParameterDrivenMultiVectorInput< Scalar > | Concrete utility class that an ANA can use for reading in a (multi)vector as directed by a parameter sublist |
| ►CTeuchos::VerboseObject< PreconditionerFactoryBase< Scalar > > [external] | |
| CThyra::PreconditionerFactoryBase< Scalar > | Factory interface for creating preconditioner objects from LinearOpBase objects |
| CTeuchos::VerboseObject< LinearOpWithSolveFactoryBase< double > > [external] | |
| CTeuchos::VerboseObject< DirectionalFiniteDiffCalculator< Scalar > > [external] | |
| CTeuchos::VerboseObject< LinearOpTransformerBase< double > > [external] | |
| CTeuchos::VerboseObject< LinearOpTransformerBase< Scalar > > [external] | |
| CTeuchos::VerboseObject< LinearOpWithSolveBase< Scalar > > [external] | |
| CTeuchos::VerboseObject< LinearOpWithSolveFactoryBase< Scalar > > [external] | |
| CTeuchos::VerboseObject< ModelEvaluatorBase > [external] | |
| CTeuchos::VerboseObject< MultiVectorFileIOBase< Scalar > > [external] | |
| CTeuchos::VerboseObject< NonlinearSolverBase< Scalar > > [external] | |
| CTeuchos::VerboseObject< ParameterDrivenMultiVectorInput< Scalar > > [external] | |
| CTeuchos::VerboseObject< PreconditionerFactoryBase< Scalar > > [external] | |
| CTeuchos::VerboseObject< LinearOpWithSolveFactoryBase< double > > [external] | |
| CTeuchos::VerboseObject< DirectionalFiniteDiffCalculator< Scalar > > [external] | |
| CTeuchos::VerboseObject< LinearOpTransformerBase< double > > [external] | |
| CTeuchos::VerboseObject< LinearOpTransformerBase< Scalar > > [external] | |
| CTeuchos::VerboseObject< LinearOpWithSolveBase< Scalar > > [external] | |
| CTeuchos::VerboseObject< LinearOpWithSolveFactoryBase< Scalar > > [external] | |
| CTeuchos::VerboseObject< ModelEvaluatorBase > [external] | |
| CTeuchos::VerboseObject< MultiVectorFileIOBase< Scalar > > [external] | |
| CTeuchos::VerboseObject< NonlinearSolverBase< Scalar > > [external] | |
| CTeuchos::VerboseObject< ParameterDrivenMultiVectorInput< Scalar > > [external] | |
| CTeuchos::VerboseObject< PreconditionerFactoryBase< Scalar > > [external] | |
