RTOpPack::BasicReductObjReductionOp< ConcreteReductObj, ReductionType > | |
RTOpPack::BasicReductObjReductionOp< ConcreteReductObj, REDUCT_TYPE_MAX > | |
RTOpPack::BasicReductObjReductionOp< ConcreteReductObj, REDUCT_TYPE_MIN > | |
RTOpPack::BasicReductObjReductionOp< ConcreteReductObj, REDUCT_TYPE_SUM > | |
RTOpPack::ConstSubMultiVectorView< Scalar > | Class for a non-changeable sub-multi-vector (submatrix) |
RTOpPack::ConstSubVectorView< Scalar > | Class for a non-changeable sub-vector |
RTOpPack::DefaultReductTarget< ConcreteReductObj > | Simple ReductTarget subclass for simple scalar objects |
RTOpPack::IncompatibleReductObj | |
RTOpPack::IncompatibleVecs | |
RTOpPack::InvalidNumTargVecs | |
RTOpPack::InvalidNumVecs | |
RTOpPack::InvalidUsage | |
RTOpPack::PrimitiveTypeTraits< Scalar, ConcreteObj > | A templated traits class for decomposing object into an array of primitive objects |
RTOpPack::PrimitiveTypeTraits< Scalar, index_type > | Specialization for index_type concrete object |
RTOpPack::PrimitiveTypeTraits< Scalar, Scalar > | Specialization where the scalar type is the same as the concrete object type |
RTOpPack::PrimitiveTypeTraits< Scalar, ScalarIndex< Scalar > > | Partial specialization of PrimitiveTypeTraits for ScalarIndex |
RTOpPack::ReductTarget | Abstract base class for all reduction objects |
RTOpPack::ReductTargetReductionOp< Scalar > | ReductionOp subclass for ReductTarget objects |
RTOpPack::ReductTargetSerializer< Scalar > | Serializer subclass for ReductTarget objects |
RTOpPack::ROp_1_CoordVariantScalarReduction< Scalar, ReductScalar, EleWiseReduction, ReductObjReduction > | Base class for coordinate-variant scalar reduction RTOps with one input vector |
RTOpPack::ROp_1_ScalarReduction< Scalar, ConcreteReductObj, EleWiseReduction, ReductObjReduction > | Base class for scalar reduction RTOps with one input vector |
RTOpPack::ROp_2_ScalarReduction< Scalar, ReductScalar, EleWiseReduction, ReductObjReduction > | Base class for scalar reduction RTOps with two input vectors |
RTOpPack::ROpGetElement< Scalar > | Returns the value of the element at index global_i |
RTOpPack::ROpGetElementEleWiseReductionOp< Scalar > | |
RTOpPack::ROpGetSubVector< Scalar > | Reduction operator that extracts a sub-vector in the range of global zero-based indexes [l,u] |
RTOpPack::ROpMaxIndex< Scalar > | Returns the maximum element and its index: result.scalar = x(k) and result.index = k such that x(k) >= x(i) for i=0...n-1 and k is the minimum index to break ties |
RTOpPack::ROpMaxIndexEleWiseReductionOp< Scalar > | |
RTOpPack::ROpMaxIndexLessThanBound< Scalar > | Returns the maximum element less than some bound along with its index: result.scalar = x(k) and result.index = k such that x(k) >= x(i) for all i where x(i) < bound and k is the minimum index to break ties |
RTOpPack::ROpMaxIndexLessThanBoundEleWiseReductionOp< Scalar > | |
RTOpPack::ROpMaxIndexReductObjReductionOp< Scalar > | |
RTOpPack::ROpMinIndex< Scalar > | Returns the minimum element and its index: result.scalar = x(k) and result.index = k such that x(k) <= x(i) for i=0...n-1 and k is the minimum index to break ties |
RTOpPack::ROpMinIndexEleWiseReductionOp< Scalar > | |
RTOpPack::ROpMinIndexGreaterThanBound< Scalar > | Returns the minimum element greater than some bound along with its index: result.scalar = x(k) and result.index = k such that x(k) <= x(i) for all i where x(i) > bound and k is the minimum index to break ties |
RTOpPack::ROpMinIndexGreaterThanBoundEleWiseReductionOp< Scalar > | |
RTOpPack::ROpMinIndexReductObjReductionOp< Scalar > | |
RTOpPack::ROpNorm2< Scalar > | Two (Euclidean) norm reduction operator: result = sqrt( sum( conj(v0[i])*v0[i], i=0...n-1 ) ) |
RTOpPack::ROpNorm2EleWiseReduction< Scalar > | |
RTOpPack::ROpScalarReductionWithOpBase< Scalar, ConcreteReductObj, ReductObjReduction > | |
RTOpPack::ROpWeightedNorm2< Scalar > | Weighted Two (Euclidean) norm reduction operator: result = sqrt( sum( v0[i]*conj(v1[i])*v1[i], i=0...n-1 ) ) |
RTOpPack::ROpWeightedNorm2EleWiseReduction< Scalar > | |
RTOpPack::RTOpServer< Scalar > | Server for creating RTOpT objects given just the operators name |
RTOpPack::RTOpSubRangeDecorator< Scalar > | Decorator subclass that restricts the range of elements to apply the underlying RTOpT object to |
RTOpPack::RTOpT< Scalar > | Templated interface to vector reduction/transformation operators {abstract} |
RTOpPack::ScalarIndex< Scalar > | Simple struct for a Scalar and an Ordinal object |
RTOpPack::SparseSubVectorT< Scalar > | Class for a (sparse or dense) sub-vector |
RTOpPack::SubMultiVectorView< Scalar > | Class for a changeable sub-vector |
RTOpPack::SubVectorView< Scalar > | Class for a changeable sub-vector |
RTOpPack::SumScalarReductObjReduction< Scalar > | Null reduction object reduction operator |
RTOpPack::TOp_0_1_Base< Scalar, EleWiseTransformation > | Base class for transformations for 0 input and 1 output vector |
RTOpPack::TOp_0_1_CoordVariantBase< Scalar, EleWiseTransformation > | Base class for coordinate variant transformations for 0 input and 1 output vector |
RTOpPack::TOp_1_1_Base< Scalar, EleWiseTransformation > | Base class for transformations for 1 input and 1 output vector |
RTOpPack::TOp_2_1_Base< Scalar, EleWiseTransformation > | Base class for transformations for 1 input and 1 output vector |
RTOpPack::TOpAddScalar< Scalar > | Add a scalar to a vector transformation operator: z0[i] += alpha, i=0...n-1 |
RTOpPack::TOpAddScalarEleWiseTransformation< Scalar > | Element-wise transformation operator for TOpAddScalar |
RTOpPack::TOpAssignScalar< Scalar > | Assign a scalar to a vector transformation operator: z0[i] = alpha, i=0...n-1 |
RTOpPack::TOpAssignScalarEleWiseTransformation< Scalar > | Element-wise transformation operator for TOpAssignScalar |
RTOpPack::TOpAXPY< Scalar > | AXPY transformation operator: z0[i] += alpha*v0[i], i=0...n-1 |
RTOpPack::TOpAXPYEleWiseTransformation< Scalar > | Element-wise transformation operator for TOpAXPY |
RTOpPack::TOpEleWiseConjProd< Scalar > | Element-wise product transformation operator: z0[i] += alpha*conj(v0[i])*v1[i], i=0...n-1 |
RTOpPack::TOpEleWiseConjProdEleWiseTransformation< Scalar > | Element-wise transformation operator for TOpEleWiseConjProd |
RTOpPack::TOpEleWiseDivide< Scalar > | Element-wise division transformation operator: z0[i] += alpha*v0[i]/v1[i], i=0...n-1 |
RTOpPack::TOpEleWiseDivideEleWiseTransformation< Scalar > | Element-wise transformation operator for TOpEleWiseDivide |
RTOpPack::TOpEleWiseProd< Scalar > | Element-wise product transformation operator: z0[i] += alpha*v0[i]*v1[i], i=0...n-1 |
RTOpPack::TOpEleWiseProdEleWiseTransformation< Scalar > | Element-wise transformation operator for TOpEleWiseProd |
RTOpPack::TOpEleWiseProdUpdate< Scalar > | Element-wise product update transformation operator: z0[i] *= alpha*v0[i], i=0...n-1 |
RTOpPack::TOpEleWiseProdUpdateEleWiseTransformation< Scalar > | Element-wise transformation operator for TOpEleWiseProdUpdate |
RTOpPack::TOpLinearCombination< Scalar > | Linear combination transformation operator: z0[i] = beta*z0[i] + sum( alpha[k]*v[k][i], k=0...num_vecs-1 ), i=0...n-1 |
RTOpPack::TOpRandomize< Scalar > | Generate a random vector in the range [l,u]: z0[i] = 0.5*((u-l)*Teuchos::ScalarTraits<Scalar>::random()+(u+l)), i=0...n-1 |
RTOpPack::TOpScaleVector< Scalar > | Simple transformation operator that scales every vector element by a scalar alpha |
RTOpPack::TOpScaleVectorEleWiseTransformation< Scalar > | Element-wise transformation operator for TOpScaleVector |
RTOpPack::TOpSetAssendingValues< Scalar > | Set the elements of a vector to: z0[i] = i+offset+1, i=0...n-1 |
RTOpPack::TOpSetAssendingValuesEleWiseTransformation< Scalar > | Element-wise transformation for TOpSetAssendingValues |
RTOpPack::TOpSetElement< Scalar > | Set the elements of a vector to: z0[i] = i+global_i+1, i=0...n-1 |
RTOpPack::TOpSetElementEleWiseTransformation< Scalar > | Element-wise transformation for TOpSetElement |
RTOpPack::TOpSetSubVector< Scalar > | Advanced transformation operator that assigns elements from a sparse explicit vector |
RTOpPack::TOpUnaryFuncPtr< Scalar > | RTOpT subclass for unary transformation functions using a function pointer |
RTOpPack::UnknownError | |