Class List
Here are the classes, structs, unions and interfaces with brief descriptions:
Eigen::internal::abs2_impl< Scalar >
Eigen::internal::abs2_impl< std::complex< RealScalar > >
Eigen::internal::abs2_retval< Scalar >
Eigen::internal::abs_impl< Scalar >
Eigen::internal::abs_retval< Scalar >
Eigen::internal::accessors_level< Derived >
Eigen::internal::add_const< T >
Eigen::internal::add_const< T & >
Eigen::internal::add_const_on_value_type< T >
Eigen::internal::add_const_on_value_type< T & >
Eigen::internal::add_const_on_value_type< T * >
Eigen::internal::add_const_on_value_type< T *const >
Eigen::internal::add_const_on_value_type< T const *const >
Eigen::internal::add_const_on_value_type_if_arithmetic< T >
Eigen::aligned_allocator< T >STL compatible allocator to use with with 16 byte aligned types
Eigen::aligned_allocator_indirection< T >
Eigen::internal::aligned_stack_memory_handler< T >
Eigen::AlignedBox< _Scalar, _AmbientDim >An axis aligned box
Eigen::internal::all_unroller< Derived, UnrollCount >
Eigen::internal::all_unroller< Derived, 1 >
Eigen::internal::all_unroller< Derived, Dynamic >
Eigen::internal::always_void< T >
Eigen::internal::AmbiVector< _Scalar, _Index >
Eigen::AngleAxis< _Scalar >Represents a 3D rotation as a rotation angle around an arbitrary 3D axis
Eigen::internal::any_unroller< Derived, UnrollCount >
Eigen::internal::any_unroller< Derived, 1 >
Eigen::internal::any_unroller< Derived, Dynamic >
Eigen::Array< _Scalar, _Rows, _Cols, _Options, _MaxRows, _MaxCols >General-purpose arrays with easy API for coefficient-wise operations
Eigen::ArrayBase< Derived >Base class for all 1D and 2D array, and related expressions
Eigen::ArrayWrapper< ExpressionType >Expression of a mathematical vector or matrix as an array object
Eigen::ArrayXpr
Eigen::internal::assign_DefaultTraversal_CompleteUnrolling< Derived1, Derived2, Index, Stop >
Eigen::internal::assign_DefaultTraversal_CompleteUnrolling< Derived1, Derived2, Stop, Stop >
Eigen::internal::assign_DefaultTraversal_InnerUnrolling< Derived1, Derived2, Index, Stop >
Eigen::internal::assign_DefaultTraversal_InnerUnrolling< Derived1, Derived2, Stop, Stop >
Eigen::internal::assign_impl< Derived1, Derived2, DefaultTraversal, CompleteUnrolling, Version >
Eigen::internal::assign_impl< Derived1, Derived2, DefaultTraversal, InnerUnrolling, Version >
Eigen::internal::assign_impl< Derived1, Derived2, DefaultTraversal, NoUnrolling, Version >
Eigen::internal::assign_impl< Derived1, Derived2, InnerVectorizedTraversal, CompleteUnrolling, Version >
Eigen::internal::assign_impl< Derived1, Derived2, InnerVectorizedTraversal, InnerUnrolling, Version >
Eigen::internal::assign_impl< Derived1, Derived2, InnerVectorizedTraversal, NoUnrolling, Version >
Eigen::internal::assign_impl< Derived1, Derived2, InvalidTraversal, Unrolling, Version >
Eigen::internal::assign_impl< Derived1, Derived2, LinearTraversal, CompleteUnrolling, Version >
Eigen::internal::assign_impl< Derived1, Derived2, LinearTraversal, NoUnrolling, Version >
Eigen::internal::assign_impl< Derived1, Derived2, LinearVectorizedTraversal, CompleteUnrolling, Version >
Eigen::internal::assign_impl< Derived1, Derived2, LinearVectorizedTraversal, NoUnrolling, Version >
Eigen::internal::assign_impl< Derived1, Derived2, SliceVectorizedTraversal, NoUnrolling, Version >
Eigen::internal::assign_innervec_CompleteUnrolling< Derived1, Derived2, Index, Stop >
Eigen::internal::assign_innervec_CompleteUnrolling< Derived1, Derived2, Stop, Stop >
Eigen::internal::assign_innervec_InnerUnrolling< Derived1, Derived2, Index, Stop >
Eigen::internal::assign_innervec_InnerUnrolling< Derived1, Derived2, Stop, Stop >
Eigen::internal::assign_LinearTraversal_CompleteUnrolling< Derived1, Derived2, Index, Stop >
Eigen::internal::assign_LinearTraversal_CompleteUnrolling< Derived1, Derived2, Stop, Stop >
Eigen::internal::assign_selector< Derived, OtherDerived, false, false >
Eigen::internal::assign_selector< Derived, OtherDerived, false, true >
Eigen::internal::assign_selector< Derived, OtherDerived, true, false >
Eigen::internal::assign_selector< Derived, OtherDerived, true, true >
Eigen::internal::assign_traits< Derived, OtherDerived >
Eigen::internal::atan2_default_impl< Scalar, IsInteger >
Eigen::internal::atan2_default_impl< Scalar, true >
Eigen::internal::atan2_impl< Scalar >
Eigen::internal::atan2_retval< Scalar >
Eigen::internal::auto_diff_special_op< _DerType, false >
Eigen::internal::auto_diff_special_op< _DerType, true >
Eigen::AutoDiffJacobian< Functor >
Eigen::AutoDiffScalar< _DerType >A scalar type replacement with automatic differentation capability
Eigen::AutoDiffVector< ValueType, JacobianType >
Eigen::internal::BandMatrix< _Scalar, Rows, Cols, Supers, Subs, Options >Represents a rectangular matrix with a banded storage
Eigen::internal::BandMatrixBase< Derived >
Eigen::internal::BandMatrixWrapper< _CoefficientsType, _Rows, _Cols, _Supers, _Subs, _Options >
Eigen::BiCGSTAB< _MatrixType, _Preconditioner >A bi conjugate gradient stabilized solver for sparse square problems
Eigen::internal::binary_result_of_select< Func, ArgType0, ArgType1, SizeOf >
Eigen::internal::binary_result_of_select< Func, ArgType0, ArgType1, sizeof(has_std_result_type)>
Eigen::internal::binary_result_of_select< Func, ArgType0, ArgType1, sizeof(has_tr1_result)>
Eigen::internal::blas_data_mapper< Scalar, Index, StorageOrder >
Eigen::internal::blas_traits< XprType >
Eigen::internal::blas_traits< const T >
Eigen::internal::blas_traits< CwiseUnaryOp< scalar_conjugate_op< Scalar >, NestedXpr > >
Eigen::internal::blas_traits< CwiseUnaryOp< scalar_multiple_op< Scalar >, NestedXpr > >
Eigen::internal::blas_traits< CwiseUnaryOp< scalar_opposite_op< Scalar >, NestedXpr > >
Eigen::internal::blas_traits< SelfCwiseBinaryOp< BinOp, NestedXpr, Rhs > >
Eigen::internal::blas_traits< Transpose< NestedXpr > >
Eigen::Block< XprType, BlockRows, BlockCols, InnerPanel, HasDirectAccess >Expression of a fixed-size or dynamic-size block
Eigen::Block< XprType, BlockRows, BlockCols, InnerPanel, true >
Eigen::internal::cast_impl
Eigen::internal::cast_return_type< XprType, CastType >
Eigen::internal::check_transpose_aliasing_compile_time_selector< DestIsTransposed, OtherDerived >
Eigen::internal::check_transpose_aliasing_compile_time_selector< DestIsTransposed, CwiseBinaryOp< BinOp, DerivedA, DerivedB > >
Eigen::internal::check_transpose_aliasing_run_time_selector< Scalar, DestIsTransposed, OtherDerived >
Eigen::internal::check_transpose_aliasing_run_time_selector< Scalar, DestIsTransposed, CwiseBinaryOp< BinOp, DerivedA, DerivedB > >
Eigen::internal::checkTransposeAliasing_impl< Derived, OtherDerived, MightHaveTransposeAliasing >
Eigen::internal::checkTransposeAliasing_impl< Derived, OtherDerived, false >
Eigen::CholmodBase< _MatrixType, _UpLo, Derived >The base class for the direct Cholesky factorization of Cholmod
Eigen::CholmodDecomposition< _MatrixType, _UpLo >A general Cholesky factorization and solver based on Cholmod
Eigen::CholmodSimplicialLDLT< _MatrixType, _UpLo >A simplicial direct Cholesky (LDLT) factorization and solver based on Cholmod
Eigen::CholmodSimplicialLLT< _MatrixType, _UpLo >A simplicial direct Cholesky (LLT) factorization and solver based on Cholmod
Eigen::CholmodSupernodalLLT< _MatrixType, _UpLo >A supernodal Cholesky (LLT) factorization and solver based on Cholmod
Eigen::internal::coeff_visitor< Derived >
Eigen::CoeffBasedProduct< LhsNested, RhsNested, NestingFlags >
Eigen::ColPivHouseholderQR< _MatrixType >Householder rank-revealing QR decomposition of a matrix with column-pivoting
Eigen::CommaInitializer< XprType >Helper class used by the comma initializer operator
Eigen::internal::companion< _Scalar, _Deg >
Eigen::internal::complex_schur_reduce_to_hessenberg< MatrixType, IsComplex >
Eigen::internal::complex_schur_reduce_to_hessenberg< MatrixType, false >
Eigen::ComplexEigenSolver< _MatrixType >Computes eigenvalues and eigenvectors of general complex matrices
Eigen::ComplexSchur< _MatrixType >Performs a complex Schur decomposition of a real or complex square matrix
Eigen::internal::CompressedStorage< _Scalar, _Index >
Eigen::internal::compute_inverse< MatrixType, ResultType, Size >
Eigen::internal::compute_inverse< MatrixType, ResultType, 1 >
Eigen::internal::compute_inverse< MatrixType, ResultType, 2 >
Eigen::internal::compute_inverse< MatrixType, ResultType, 3 >
Eigen::internal::compute_inverse< MatrixType, ResultType, 4 >
Eigen::internal::compute_inverse_and_det_with_check< MatrixType, ResultType, Size >
Eigen::internal::compute_inverse_and_det_with_check< MatrixType, ResultType, 1 >
Eigen::internal::compute_inverse_and_det_with_check< MatrixType, ResultType, 2 >
Eigen::internal::compute_inverse_and_det_with_check< MatrixType, ResultType, 3 >
Eigen::internal::compute_inverse_and_det_with_check< MatrixType, ResultType, 4 >
Eigen::internal::compute_inverse_size4< Arch, Scalar, MatrixType, ResultType >
Eigen::internal::compute_inverse_size4< Architecture::SSE, double, MatrixType, ResultType >
Eigen::internal::compute_inverse_size4< Architecture::SSE, float, MatrixType, ResultType >
Eigen::internal::compute_matrix_flags< Scalar, Rows, Cols, Options, MaxRows, MaxCols >
Eigen::internal::conditional< Condition, Then, Else >
Eigen::internal::conditional< false, Then, Else >
Eigen::internal::conj_expr_if< Cond, T >
Eigen::internal::conj_helper< Packet1cd, Packet1cd, false, true >
Eigen::internal::conj_helper< Packet1cd, Packet1cd, true, false >
Eigen::internal::conj_helper< Packet1cd, Packet1cd, true, true >
Eigen::internal::conj_helper< Packet1cd, Packet2d, false, false >
Eigen::internal::conj_helper< Packet2cf, Packet2cf, false, true >
Eigen::internal::conj_helper< Packet2cf, Packet2cf, true, false >
Eigen::internal::conj_helper< Packet2cf, Packet2cf, true, true >
Eigen::internal::conj_helper< Packet2cf, Packet4f, false, false >
Eigen::internal::conj_helper< Packet2d, Packet1cd, false, false >
Eigen::internal::conj_helper< Packet4f, Packet2cf, false, false >
Eigen::internal::conj_helper< RealScalar, std::complex< RealScalar >, false, Conj >
Eigen::internal::conj_helper< Scalar, Scalar, false, false >
Eigen::internal::conj_helper< std::complex< RealScalar >, RealScalar, Conj, false >
Eigen::internal::conj_helper< std::complex< RealScalar >, std::complex< RealScalar >, false, true >
Eigen::internal::conj_helper< std::complex< RealScalar >, std::complex< RealScalar >, true, false >
Eigen::internal::conj_helper< std::complex< RealScalar >, std::complex< RealScalar >, true, true >
Eigen::internal::conj_if< false >
Eigen::internal::conj_if< true >
Eigen::internal::conj_impl< Scalar >
Eigen::internal::conj_impl< std::complex< RealScalar > >
Eigen::internal::conj_retval< Scalar >
Eigen::ConjugateGradient< _MatrixType, _UpLo, _Preconditioner >A conjugate gradient solver for sparse self-adjoint problems
Eigen::internal::conservative_resize_like_impl< Derived, OtherDerived, IsVector >
Eigen::internal::conservative_resize_like_impl< Derived, OtherDerived, true >
Eigen::internal::conservative_sparse_sparse_product_selector< Lhs, Rhs, ResultType, ColMajor, ColMajor, ColMajor >
Eigen::internal::conservative_sparse_sparse_product_selector< Lhs, Rhs, ResultType, ColMajor, ColMajor, RowMajor >
Eigen::internal::conservative_sparse_sparse_product_selector< Lhs, Rhs, ResultType, ColMajor, RowMajor, ColMajor >
Eigen::internal::conservative_sparse_sparse_product_selector< Lhs, Rhs, ResultType, ColMajor, RowMajor, RowMajor >
Eigen::internal::conservative_sparse_sparse_product_selector< Lhs, Rhs, ResultType, RowMajor, ColMajor, ColMajor >
Eigen::internal::conservative_sparse_sparse_product_selector< Lhs, Rhs, ResultType, RowMajor, ColMajor, RowMajor >
Eigen::internal::conservative_sparse_sparse_product_selector< Lhs, Rhs, ResultType, RowMajor, RowMajor, ColMajor >
Eigen::internal::conservative_sparse_sparse_product_selector< Lhs, Rhs, ResultType, RowMajor, RowMajor, RowMajor >
Eigen::internal::const_blas_data_mapper< Scalar, Index, StorageOrder >
Eigen::MatrixBase< Derived >::ConstDiagonalIndexReturnType< Index >
Eigen::DenseBase< Derived >::ConstFixedSegmentReturnType< Size >
ConstNColsBlockXpr< N >
Eigen::DenseBase< Derived >::ConstNColsBlockXpr< N >
ConstNRowsBlockXpr< N >
Eigen::DenseBase< Derived >::ConstNRowsBlockXpr< N >
Eigen::Transform< _Scalar, _Dim >::construct_from_matrix< OtherDerived, BigMatrix >
Eigen::Transform< _Scalar, _Dim >::construct_from_matrix< OtherDerived, true >
Eigen::internal::constructor_without_unaligned_array_assert
Eigen::MatrixBase< Derived >::ConstSelfAdjointViewReturnType< UpLo >
Eigen::MatrixBase< Derived >::ConstTriangularViewReturnType< Mode >
Eigen::internal::member_redux< BinaryOp, Scalar >::Cost< _Scalar, Size >
Eigen::internal::cross3_impl< Arch, VectorLhs, VectorRhs, Scalar, Vectorizable >
Eigen::internal::cross3_impl< Architecture::SSE, VectorLhs, VectorRhs, float, true >
Eigen::MatrixBase< Derived >::cross_product_return_type< OtherDerived >
Eigen::Cwise< ExpressionType >Pseudo expression providing additional coefficient-wise operations
Eigen::CwiseBinaryOp< BinaryOp, Lhs, Rhs >Generic expression where a coefficient-wise binary operator is applied to two expressions
Eigen::CwiseBinaryOpImpl< BinaryOp, Lhs, Rhs, Dense >
Eigen::CwiseBinaryOpImpl< BinaryOp, Lhs, Rhs, Sparse >
Eigen::CwiseNullaryOp< NullaryOp, PlainObjectType >Generic expression of a matrix where all coefficients are defined by a functor
Eigen::CwiseUnaryOp< UnaryOp, XprType >Generic expression where a coefficient-wise unary operator is applied to an expression
Eigen::CwiseUnaryOpImpl< UnaryOp, MatrixType, Sparse >
Eigen::CwiseUnaryOpImpl< UnaryOp, XprType, Dense >
Eigen::CwiseUnaryView< ViewOp, MatrixType >Generic lvalue expression of a coefficient-wise unary operator of a matrix or a vector
Eigen::CwiseUnaryViewImpl< ViewOp, MatrixType, Dense >
Eigen::CwiseUnaryViewImpl< ViewOp, MatrixType, Sparse >
Eigen::internal::decrement_if_fixed_size< Size >
Eigen::internal::decrement_size< n >
Eigen::internal::default_packet_traits
Eigen::SparseMatrix< _Scalar, _Options, _Index >::default_prunning_func
Eigen::Dense
Eigen::internal::dense_xpr_base< Derived, XprKind >
Eigen::internal::dense_xpr_base< Derived, ArrayXpr >
Eigen::internal::dense_xpr_base< Derived, MatrixXpr >
Eigen::DenseBase< Derived >Base class for all dense matrices, vectors, and arrays
DenseCoeffsBase
Eigen::DenseCoeffsBase< Derived, DirectAccessors >Base class providing direct read-only coefficient access to matrices and arrays
Eigen::DenseCoeffsBase< Derived, DirectWriteAccessors >Base class providing direct read/write coefficient access to matrices and arrays
Eigen::DenseCoeffsBase< Derived, ReadOnlyAccessors >Base class providing read-only coefficient access to matrices and arrays
Eigen::DenseCoeffsBase< Derived, WriteAccessors >Base class providing read/write coefficient access to matrices and arrays
Eigen::DenseSparseProductReturnType< Lhs, Rhs, InnerSize >
Eigen::DenseSparseProductReturnType< Lhs, Rhs, 1 >
Eigen::DenseStorage< T, Size, _Rows, _Cols, _Options >
Eigen::DenseStorage< T, 0, _Rows, _Cols, _Options >
Eigen::DenseStorage< T, 0, _Rows, Dynamic, _Options >
Eigen::DenseStorage< T, 0, Dynamic, _Cols, _Options >
Eigen::DenseStorage< T, 0, Dynamic, Dynamic, _Options >
Eigen::DenseStorage< T, Dynamic, _Rows, Dynamic, _Options >
Eigen::DenseStorage< T, Dynamic, Dynamic, _Cols, _Options >
Eigen::DenseStorage< T, Dynamic, Dynamic, Dynamic, _Options >
Eigen::DenseStorage< T, Size, _Rows, Dynamic, _Options >
Eigen::DenseStorage< T, Size, Dynamic, _Cols, _Options >
Eigen::DenseStorage< T, Size, Dynamic, Dynamic, _Options >
Eigen::DenseTimeSparseProduct< Lhs, Rhs >
Eigen::DenseTimeSparseSelfAdjointProduct< Lhs, Rhs, UpLo >
std::deque< T, EIGEN_ALIGNED_ALLOCATOR< T > >
Eigen::internal::determinant_impl< Derived, DeterminantType >
Eigen::internal::determinant_impl< Derived, 1 >
Eigen::internal::determinant_impl< Derived, 2 >
Eigen::internal::determinant_impl< Derived, 3 >
Eigen::internal::determinant_impl< Derived, 4 >
Eigen::Diagonal< MatrixType, DiagIndex >Expression of a diagonal/subdiagonal/superdiagonal in a matrix
Eigen::DiagonalBase< Derived >
Eigen::MatrixBase< Derived >::DiagonalIndexReturnType< Index >
Eigen::internal::BandMatrixBase< Derived >::DiagonalIntReturnType< Index >
Eigen::DiagonalMatrix< _Scalar, SizeAtCompileTime, MaxSizeAtCompileTime >Represents a diagonal matrix with its storage
Eigen::DiagonalPreconditioner< _Scalar >A preconditioner based on the digonal entries
Eigen::DiagonalProduct< MatrixType, DiagonalType, ProductOrder >
Eigen::DiagonalWrapper< _DiagonalVectorType >Expression of a diagonal matrix
Eigen::internal::direct_selfadjoint_eigenvalues< SolverType, Size, IsComplex >
Eigen::internal::direct_selfadjoint_eigenvalues< SolverType, 2, false >
Eigen::internal::direct_selfadjoint_eigenvalues< SolverType, 3, false >
Eigen::internal::dot_nocheck< T, U, NeedToTranspose >
Eigen::internal::dot_nocheck< T, U, true >
Eigen::internal::gebp_traits< std::complex< RealScalar >, std::complex< RealScalar >, _ConjLhs, _ConjRhs >::DoublePacket
Eigen::DynamicSparseMatrix< _Scalar, _Options, _Index >A sparse matrix class designed for matrix assembly purpose
Eigen::ei_cleantype< T >
Eigen::ei_cleantype< const T & >
Eigen::ei_cleantype< const T * >
Eigen::ei_cleantype< const T >
Eigen::ei_cleantype< T & >
Eigen::ei_cleantype< T * >
Eigen::ei_is_same_type< T, U >
Eigen::ei_is_same_type< T, T >
Eigen::ei_meta_false
Eigen::ei_meta_if< Condition, Then, Else >
Eigen::ei_meta_if< false, Then, Else >
Eigen::ei_meta_sqrt< Y, InfX, SupX, Done >
Eigen::ei_meta_sqrt< Y, InfX, SupX, true >
Eigen::ei_meta_true
Eigen::ei_quaternion_assign_impl< Other, 3, 3 >
Eigen::ei_quaternion_assign_impl< Other, 4, 1 >
Eigen::ei_traits< T >
Eigen::ei_traits< AngleAxis< _Scalar > >
Eigen::ei_traits< Quaternion< _Scalar > >
Eigen::ei_traits< Rotation2D< _Scalar > >
Eigen::ei_transform_product_impl< Other, Dim, HDim, Dim, 1 >
Eigen::ei_transform_product_impl< Other, Dim, HDim, Dim, Dim >
Eigen::ei_transform_product_impl< Other, Dim, HDim, HDim, 1 >
Eigen::ei_transform_product_impl< Other, Dim, HDim, HDim, HDim >
Eigen::ei_unconst< T >
Eigen::ei_unconst< const T >
Eigen::ei_unconst< T const & >
Eigen::ei_unconst< T const * >
Eigen::ei_unpointer< T >
Eigen::ei_unpointer< T * >
Eigen::ei_unpointer< T *const >
Eigen::ei_unref< T >
Eigen::ei_unref< T & >
Eigen::EigenBase< Derived >
Eigen::EigenSolver< _MatrixType >Computes eigenvalues and eigenvectors of general matrices
Eigen::internal::eigenvalues_selector< Derived, IsComplex >
Eigen::internal::eigenvalues_selector< Derived, false >
Eigen::internal::enable_if< true, T >
Eigen::internal::eval< Array< _Scalar, _Rows, _Cols, _Options, _MaxRows, _MaxCols >, Dense >
Eigen::internal::eval< Matrix< _Scalar, _Rows, _Cols, _Options, _MaxRows, _MaxCols >, Dense >
Eigen::internal::eval< T, Dense >
Eigen::internal::eval< T, IsSkyline >
Eigen::internal::eval< T, Sparse >
Eigen::VectorwiseOp< ExpressionType, Direction >::ExtendedType< OtherDerived >
Eigen::internal::extract_data_selector< T, HasUsableDirectAccess >
Eigen::internal::extract_data_selector< T, false >
Eigen::internal::false_type
Eigen::internal::fftw_impl< _Scalar >
Eigen::internal::fftw_plan< T >
Eigen::internal::fftw_plan< double >
Eigen::internal::fftw_plan< float >
Eigen::internal::fftw_plan< long double >
Eigen::internal::first_aligned_impl< Derived, JustReturnZero >
Eigen::internal::first_aligned_impl< Derived, false >
Eigen::DenseBase< Derived >::FixedSegmentReturnType< Size >
Eigen::Flagged< ExpressionType, Added, Removed >Expression with modified flags
Eigen::internal::floor_log2< n, lower, upper, selector >
Eigen::internal::floor_log2< n, lower, upper, floor_log2_bogus >
Eigen::internal::floor_log2< n, lower, upper, floor_log2_move_down >
Eigen::internal::floor_log2< n, lower, upper, floor_log2_move_up >
Eigen::internal::floor_log2< n, lower, upper, floor_log2_terminate >
Eigen::internal::floor_log2_selector< n, lower, upper >
Eigen::ForceAlignedAccess< ExpressionType >Enforce aligned packet loads and stores regardless of what is requested
Eigen::FullPivHouseholderQR< _MatrixType >Householder rank-revealing QR decomposition of a matrix with full pivoting
Eigen::internal::FullPivHouseholderQRMatrixQReturnType< MatrixType >Expression type for return value of FullPivHouseholderQR::matrixQ()
Eigen::FullPivLU< _MatrixType >LU decomposition of a matrix with complete pivoting, and related features
Eigen::internal::functor_allows_mixing_real_and_complex< Functor >
Eigen::internal::functor_allows_mixing_real_and_complex< scalar_conj_product_op< LhsScalar, RhsScalar > >
Eigen::internal::functor_allows_mixing_real_and_complex< scalar_product_op< LhsScalar, RhsScalar > >
Eigen::internal::functor_has_linear_access< Functor >
Eigen::internal::functor_has_linear_access< scalar_identity_op< Scalar > >
Eigen::internal::functor_traits< T >
Eigen::internal::functor_traits< linspaced_op< Scalar, RandomAccess > >
Eigen::internal::functor_traits< max_coeff_visitor< Scalar > >
Eigen::internal::functor_traits< min_coeff_visitor< Scalar > >
Eigen::internal::functor_traits< scalar_abs2_op< Scalar > >
Eigen::internal::functor_traits< scalar_abs_op< Scalar > >
Eigen::internal::functor_traits< scalar_acos_op< Scalar > >
Eigen::internal::functor_traits< scalar_add_op< Scalar > >
Eigen::internal::functor_traits< scalar_asin_op< Scalar > >
Eigen::internal::functor_traits< scalar_binary_pow_op< Scalar, OtherScalar > >
Eigen::internal::functor_traits< scalar_boolean_and_op >
Eigen::internal::functor_traits< scalar_boolean_or_op >
Eigen::internal::functor_traits< scalar_cast_op< Scalar, NewType > >
Eigen::internal::functor_traits< scalar_conj_product_op< LhsScalar, RhsScalar > >
Eigen::internal::functor_traits< scalar_conjugate_op< Scalar > >
Eigen::internal::functor_traits< scalar_constant_op< Scalar > >
Eigen::internal::functor_traits< scalar_cos_op< Scalar > >
Eigen::internal::functor_traits< scalar_cube_op< Scalar > >
Eigen::internal::functor_traits< scalar_difference_op< Scalar > >
Eigen::internal::functor_traits< scalar_exp_op< Scalar > >
Eigen::internal::functor_traits< scalar_hypot_op< Scalar > >
Eigen::internal::functor_traits< scalar_identity_op< Scalar > >
Eigen::internal::functor_traits< scalar_imag_op< Scalar > >
Eigen::internal::functor_traits< scalar_imag_ref_op< Scalar > >
Eigen::internal::functor_traits< scalar_inverse_op< Scalar > >
Eigen::internal::functor_traits< scalar_log_op< Scalar > >
Eigen::internal::functor_traits< scalar_max_op< Scalar > >
Eigen::internal::functor_traits< scalar_min_op< Scalar > >
Eigen::internal::functor_traits< scalar_multiple2_op< Scalar1, Scalar2 > >
Eigen::internal::functor_traits< scalar_multiple_op< Scalar > >
Eigen::internal::functor_traits< scalar_opposite_op< Scalar > >
Eigen::internal::functor_traits< scalar_pow_op< Scalar > >
Eigen::internal::functor_traits< scalar_product_op< LhsScalar, RhsScalar > >
Eigen::internal::functor_traits< scalar_quotient1_op< Scalar > >
Eigen::internal::functor_traits< scalar_quotient_op< Scalar > >
Eigen::internal::functor_traits< scalar_random_op< Scalar > >
Eigen::internal::functor_traits< scalar_real_op< Scalar > >
Eigen::internal::functor_traits< scalar_real_ref_op< Scalar > >
Eigen::internal::functor_traits< scalar_sin_op< Scalar > >
Eigen::internal::functor_traits< scalar_sqrt_op< Scalar > >
Eigen::internal::functor_traits< scalar_square_op< Scalar > >
Eigen::internal::functor_traits< scalar_sum_op< Scalar > >
Eigen::internal::functor_traits< scalar_tan_op< Scalar > >
Eigen::internal::functor_traits< std::binary_negate< T > >
Eigen::internal::functor_traits< std::binder1st< T > >
Eigen::internal::functor_traits< std::binder2nd< T > >
Eigen::internal::functor_traits< std::divides< T > >
Eigen::internal::functor_traits< std::equal_to< T > >
Eigen::internal::functor_traits< std::greater< T > >
Eigen::internal::functor_traits< std::greater_equal< T > >
Eigen::internal::functor_traits< std::less< T > >
Eigen::internal::functor_traits< std::less_equal< T > >
Eigen::internal::functor_traits< std::logical_and< T > >
Eigen::internal::functor_traits< std::logical_not< T > >
Eigen::internal::functor_traits< std::logical_or< T > >
Eigen::internal::functor_traits< std::minus< T > >
Eigen::internal::functor_traits< std::multiplies< T > >
Eigen::internal::functor_traits< std::negate< T > >
Eigen::internal::functor_traits< std::not_equal_to< T > >
Eigen::internal::functor_traits< std::plus< T > >
Eigen::internal::functor_traits< std::unary_negate< T > >
Eigen::internal::gebp_kernel< LhsScalar, RhsScalar, Index, mr, nr, ConjugateLhs, ConjugateRhs >
Eigen::internal::gebp_madd_selector< CJ, A, B, C, T >
Eigen::internal::gebp_madd_selector< CJ, T, T, T, T >
Eigen::internal::gebp_traits< _LhsScalar, _RhsScalar, _ConjLhs, _ConjRhs >
Eigen::internal::gebp_traits< RealScalar, std::complex< RealScalar >, false, _ConjRhs >
Eigen::internal::gebp_traits< std::complex< RealScalar >, RealScalar, _ConjLhs, false >
Eigen::internal::gebp_traits< std::complex< RealScalar >, std::complex< RealScalar >, _ConjLhs, _ConjRhs >
Eigen::internal::gemm_blocking_space< StorageOrder, _LhsScalar, _RhsScalar, MaxRows, MaxCols, MaxDepth, KcFactor, false >
Eigen::internal::gemm_blocking_space< StorageOrder, _LhsScalar, _RhsScalar, MaxRows, MaxCols, MaxDepth, KcFactor, true >
Eigen::internal::gemm_functor< Scalar, Index, Gemm, Lhs, Rhs, Dest, BlockingType >
Eigen::internal::gemm_pack_lhs< Scalar, Index, Pack1, Pack2, StorageOrder, Conjugate, PanelMode >
Eigen::internal::gemm_pack_rhs< Scalar, Index, nr, ColMajor, Conjugate, PanelMode >
Eigen::internal::gemm_pack_rhs< Scalar, Index, nr, RowMajor, Conjugate, PanelMode >
Eigen::internal::GemmParallelInfo< Index >
Eigen::internal::gemv_selector< OnTheLeft, StorageOrder, BlasCompatible >
Eigen::internal::gemv_selector< OnTheRight, ColMajor, false >
Eigen::internal::gemv_selector< OnTheRight, ColMajor, true >
Eigen::internal::gemv_selector< OnTheRight, RowMajor, false >
Eigen::internal::gemv_selector< OnTheRight, RowMajor, true >
Eigen::internal::gemv_static_vector_if< Scalar, Size, Dynamic, true >
Eigen::internal::gemv_static_vector_if< Scalar, Size, MaxSize, false >
Eigen::internal::gemv_static_vector_if< Scalar, Size, MaxSize, true >
Eigen::internal::general_matrix_matrix_product< Index, LhsScalar, LhsStorageOrder, ConjugateLhs, RhsScalar, RhsStorageOrder, ConjugateRhs, ColMajor >
Eigen::internal::general_matrix_matrix_product< Index, LhsScalar, LhsStorageOrder, ConjugateLhs, RhsScalar, RhsStorageOrder, ConjugateRhs, RowMajor >
Eigen::internal::general_matrix_matrix_rankupdate< Index, Scalar, AStorageOrder, ConjugateA, ResStorageOrder, UpLo >
Eigen::internal::general_matrix_matrix_triangular_product< Index, LhsScalar, LhsStorageOrder, ConjugateLhs, RhsScalar, RhsStorageOrder, ConjugateRhs, ColMajor, UpLo, Version >
Eigen::internal::general_matrix_matrix_triangular_product< Index, LhsScalar, LhsStorageOrder, ConjugateLhs, RhsScalar, RhsStorageOrder, ConjugateRhs, RowMajor, UpLo, Version >
Eigen::internal::general_matrix_vector_product< Index, LhsScalar, ColMajor, ConjugateLhs, RhsScalar, ConjugateRhs, Version >
Eigen::internal::general_matrix_vector_product< Index, LhsScalar, RowMajor, ConjugateLhs, RhsScalar, ConjugateRhs, Version >
Eigen::internal::general_matrix_vector_product_gemv< Index, LhsScalar, LhsStorageOrder, ConjugateLhs, RhsScalar, ConjugateRhs >
Eigen::GeneralizedSelfAdjointEigenSolver< _MatrixType >Computes eigenvalues and eigenvectors of the generalized selfadjoint eigen problem
GeneralProductExpression of the product of two general matrices or vectors
Eigen::GeneralProduct< Lhs, Rhs, GemmProduct >
Eigen::GeneralProduct< Lhs, Rhs, GemvProduct >
Eigen::GeneralProduct< Lhs, Rhs, InnerProduct >
Eigen::GeneralProduct< Lhs, Rhs, OuterProduct >
Eigen::GenericNumTraits< T >
Eigen::internal::get_boxes_helper< ObjectList, VolumeList, BoxIter >
Eigen::internal::get_boxes_helper< ObjectList, VolumeList, int >
Eigen::internal::get_factor< From, To >
Eigen::internal::get_factor< Scalar, typename NumTraits< Scalar >::Real >
Eigen::internal::global_math_functions_filtering_base< T, dummy >
Eigen::internal::global_math_functions_filtering_base< T, typename always_void< typename T::Eigen_BaseClassForSpecializationOfGlobalMathFuncImpl >::type >
Eigen::GMRES< _MatrixType, _Preconditioner >A GMRES solver for sparse square problems
Eigen::internal::has_direct_access< Derived >
Eigen::internal::has_none
Eigen::internal::has_std_result_type
Eigen::internal::has_tr1_result
Eigen::HessenbergDecomposition< _MatrixType >Reduces a square matrix to Hessenberg form by an orthogonal similarity transformation
Eigen::internal::HessenbergDecompositionMatrixHReturnType< MatrixType >Expression type for return value of HessenbergDecomposition::matrixH()
Eigen::Homogeneous< MatrixType, _Direction >Expression of one (or a set of) homogeneous vector(s)
Eigen::internal::homogeneous_left_product_impl< Homogeneous< MatrixType, Vertical >, Lhs >
Eigen::internal::homogeneous_right_product_impl< Homogeneous< MatrixType, Horizontal >, Rhs >
Eigen::HouseholderQR< _MatrixType >Householder QR decomposition of a matrix
Eigen::HouseholderSequence< VectorsType, CoeffsType, Side >Sequence of Householder reflections acting on subspaces with decreasing size
Eigen::internal::hseq_side_dependent_impl< VectorsType, CoeffsType, Side >
Eigen::internal::hseq_side_dependent_impl< VectorsType, CoeffsType, OnTheRight >
Eigen::HybridNonLinearSolver< FunctorType, Scalar >Finds a zero of a system of n nonlinear functions in n variables by a modification of the Powell hybrid method ("dogleg")
Eigen::Hyperplane< _Scalar, _AmbientDim >A hyperplane
Eigen::internal::hypot_impl< Scalar >
Eigen::internal::hypot_retval< Scalar >
Eigen::IdentityPreconditionerA naive preconditioner which approximates any matrix as the identity matrix
Eigen::internal::imag_impl< Scalar >
Eigen::internal::imag_impl< std::complex< RealScalar > >
Eigen::internal::imag_ref_default_impl< Scalar, IsComplex >
Eigen::internal::imag_ref_default_impl< Scalar, false >
Eigen::internal::imag_ref_impl< Scalar >
Eigen::internal::imag_ref_retval< Scalar >
Eigen::internal::imag_retval< Scalar >
Eigen::internal::image_retval< FullPivLU< _MatrixType > >
Eigen::internal::image_retval_base< _DecompositionType >
Eigen::IncompleteLU< _Scalar >
Eigen::IncompleteLUT< _Scalar >Incomplete LU factorization with dual-threshold strategy During the numerical factorization, two dropping rules are used : 1) any element whose magnitude is less than some tolerance is dropped. This tolerance is obtained by multiplying the input tolerance droptol by the average magnitude of all the original elements in the current row. 2) After the elimination of the row, only the fill largest elements in the L part and the fill largest elements in the U part are kept (in addition to the diagonal element ). Note that fill is computed from the input parameter fillfactor which is used the ratio to control the fill_in relatively to the initial number of nonzero elements
Eigen::internal::inner_stride_at_compile_time< Derived, HasDirectAccess >
Eigen::internal::inner_stride_at_compile_time< Derived, false >
Eigen::DenseBase< Derived >::InnerIterator
Eigen::MappedSparseMatrix< _Scalar, _Flags, _Index >::InnerIterator
Eigen::SparseInnerVectorSet< MatrixType, Size >::InnerIterator
Eigen::SparseInnerVectorSet< SparseMatrix< _Scalar, _Options, _Index >, Size >::InnerIterator
Eigen::CwiseBinaryOpImpl< BinaryOp, Lhs, Rhs, Sparse >::InnerIterator
Eigen::CwiseUnaryOpImpl< UnaryOp, MatrixType, Sparse >::InnerIterator
Eigen::CwiseUnaryViewImpl< ViewOp, MatrixType, Sparse >::InnerIterator
Eigen::SparseDenseOuterProduct< Lhs, Rhs, Tr >::InnerIterator
Eigen::SparseMatrix< _Scalar, _Options, _Index >::InnerIterator
Eigen::TransposeImpl< MatrixType, Sparse >::InnerIterator
Eigen::SparseTriangularView< MatrixType, Mode >::InnerIterator
Eigen::SparseVector< _Scalar, _Options, _Index >::InnerIterator
Eigen::SparseView< MatrixType >::InnerIterator
Eigen::SparseInnerVectorSet< DynamicSparseMatrix< _Scalar, _Options, _Index >, Size >::InnerIterator
Eigen::DynamicSparseMatrix< _Scalar, _Options, _Index >::InnerIterator
InnerIteratorAn InnerIterator allows to loop over the element of a sparse (or dense) matrix or expression
Eigen::SkylineMatrix< _Scalar, _Options >::InnerLowerIterator
Eigen::InnerStride< Value >Convenience specialization of Stride to specify only an inner stride See class Map for some examples
Eigen::SkylineMatrix< _Scalar, _Options >::InnerUpperIterator
Eigen::internal::inplace_transpose_selector< MatrixType, false >
Eigen::internal::inplace_transpose_selector< MatrixType, true >
Eigen::internal::intersector_helper1< Volume1, Object1, Object2, Intersector >
Eigen::internal::intersector_helper2< Volume2, Object2, Object1, Intersector >
Eigen::internal::inverse_impl< MatrixType >
Eigen::IOFormatStores a set of parameters controlling the way matrices are printed
Eigen::internal::is_arithmetic< T >
Eigen::internal::is_arithmetic< __m128 >
Eigen::internal::is_arithmetic< __m128d >
Eigen::internal::is_arithmetic< __m128i >
Eigen::internal::is_arithmetic< bool >
Eigen::internal::is_arithmetic< char >
Eigen::internal::is_arithmetic< double >
Eigen::internal::is_arithmetic< float >
Eigen::internal::is_arithmetic< long double >
Eigen::internal::is_arithmetic< signed char >
Eigen::internal::is_arithmetic< signed int >
Eigen::internal::is_arithmetic< signed long >
Eigen::internal::is_arithmetic< signed short >
Eigen::internal::is_arithmetic< unsigned char >
Eigen::internal::is_arithmetic< unsigned int >
Eigen::internal::is_arithmetic< unsigned long >
Eigen::internal::is_arithmetic< unsigned short >
Eigen::internal::is_const< T >
Eigen::internal::is_const< T const >
Eigen::internal::is_diagonal< T >
Eigen::internal::is_diagonal< DiagonalBase< T > >
Eigen::internal::is_diagonal< DiagonalMatrix< T, S > >
Eigen::internal::is_diagonal< DiagonalWrapper< T > >
Eigen::internal::is_lvalue< ExpressionType >
Eigen::internal::is_same< T, U >
Eigen::internal::is_same< T, T >
Eigen::internal::isApprox_selector< Derived, OtherDerived, is_integer >
Eigen::internal::isApprox_selector< Derived, OtherDerived, true >
Eigen::internal::isMuchSmallerThan_object_selector< Derived, OtherDerived, is_integer >
Eigen::internal::isMuchSmallerThan_object_selector< Derived, OtherDerived, true >
Eigen::internal::isMuchSmallerThan_scalar_selector< Derived, is_integer >
Eigen::internal::isMuchSmallerThan_scalar_selector< Derived, true >
Eigen::IterationControllerControls the iterations of the iterative solvers
Eigen::IterativeSolverBase< Derived >Base class for linear iterative solvers
Eigen::internal::AmbiVector< _Scalar, _Index >::Iterator
Eigen::JacobiRotation< Scalar >Rotation given by a cosine-sine pair
Eigen::JacobiSVD< _MatrixType, QRPreconditioner >Two-sided Jacobi SVD decomposition of a rectangular matrix
Eigen::KdBVH< _Scalar, _Dim, _Object >A simple bounding volume hierarchy based on AlignedBox
Eigen::IncompleteLUT< _Scalar >::keep_diag
Eigen::SimplicialCholeskyBase< Derived >::keep_diag
Eigen::internal::kernel_retval< FullPivLU< _MatrixType > >
Eigen::internal::kernel_retval_base< _DecompositionType >
Eigen::internal::kiss_cpx_fft< _Scalar >
Eigen::internal::kissfft_impl< _Scalar >
Eigen::LazyProductReturnType< Lhs, Rhs >
Eigen::LDLT< _MatrixType, _UpLo >Robust Cholesky decomposition of a matrix with pivoting
Eigen::internal::ldlt_inplace< Lower >
Eigen::internal::ldlt_inplace< Upper >
Eigen::internal::LDLT_Traits< MatrixType, Lower >
Eigen::internal::LDLT_Traits< MatrixType, Upper >
Eigen::internal::level3_blocking< _LhsScalar, _RhsScalar >
Eigen::LevenbergMarquardt< FunctorType, Scalar >Performs non linear optimization over a non-linear function, using a variant of the Levenberg Marquardt algorithm
Eigen::internal::linspaced_op< Scalar, RandomAccess >
Eigen::internal::linspaced_op_impl< Scalar, false >
Eigen::internal::linspaced_op_impl< Scalar, true >
std::list< T, EIGEN_ALIGNED_ALLOCATOR< T > >
Eigen::internal::AmbiVector< _Scalar, _Index >::ListEl
Eigen::LLT< _MatrixType, _UpLo >Standard Cholesky decomposition (LL^T) of a matrix and associated features
Eigen::internal::llt_inplace< Scalar, Lower >
Eigen::internal::llt_inplace< Scalar, Upper >
Eigen::internal::LLT_Traits< MatrixType, Lower >
Eigen::internal::LLT_Traits< MatrixType, Upper >
Eigen::internal::lpNorm_selector< Derived, p >
Eigen::internal::lpNorm_selector< Derived, 1 >
Eigen::internal::lpNorm_selector< Derived, 2 >
Eigen::internal::lpNorm_selector< Derived, Infinity >
Eigen::LU< MatrixType >
Eigen::internal::make_coherent_impl< A, B >
Eigen::internal::make_coherent_impl< A, Matrix< B_Scalar, B_Rows, B_Cols, B_Options, B_MaxRows, B_MaxCols > >
Eigen::internal::make_coherent_impl< Matrix< A_Scalar, A_Rows, A_Cols, A_Options, A_MaxRows, A_MaxCols >, B >
Eigen::internal::make_coherent_impl< Matrix< A_Scalar, A_Rows, A_Cols, A_Options, A_MaxRows, A_MaxCols >, Matrix< B_Scalar, B_Rows, B_Cols, B_Options, B_MaxRows, B_MaxCols > >
Eigen::internal::make_proper_matrix_type< _Scalar, _Rows, _Cols, _Options, _MaxRows, _MaxCols >
Eigen::Map< PlainObjectType, MapOptions, StrideType >A matrix or vector expression mapping an existing array of data
Eigen::Map< const Quaternion< _Scalar >, _Options >Quaternion expression mapping a constant memory buffer
Eigen::Map< PermutationMatrix< SizeAtCompileTime, MaxSizeAtCompileTime, IndexType >, _PacketAccess >
Eigen::Map< Quaternion< _Scalar >, _Options >Expression of a quaternion from a memory buffer
Eigen::Map< Transpositions< SizeAtCompileTime, MaxSizeAtCompileTime, IndexType >, PacketAccess >
MapBaseBase class for Map and Block expression with direct access
Eigen::MapBase< Derived, ReadOnlyAccessors >
Eigen::MapBase< Derived, WriteAccessors >
Eigen::MappedSparseMatrix< _Scalar, _Flags, _Index >Sparse matrix
Eigen::Matrix< _Scalar, _Rows, _Cols, _Options, _MaxRows, _MaxCols >The matrix class, also used for vectors and row-vectors
Eigen::internal::matrix_swap_impl< MatrixTypeA, MatrixTypeB, SwapPointers >
Eigen::internal::matrix_swap_impl< MatrixTypeA, MatrixTypeB, true >
Eigen::internal::matrix_type_times_scalar_type< OtherScalarType, MatrixType >
Eigen::MatrixBase< Derived >Base class for all dense matrices, vectors, and expressions
Eigen::MatrixExponential< MatrixType >Class for computing the matrix exponential
Eigen::MatrixExponentialReturnValue< Derived >Proxy for the matrix exponential of some matrix (expression)
Eigen::MatrixFunction< MatrixType, AtomicType, IsComplex >Class for computing matrix functions
Eigen::MatrixFunction< MatrixType, AtomicType, 0 >
Eigen::MatrixFunction< MatrixType, AtomicType, 1 >
Eigen::MatrixFunctionAtomic< MatrixType >Helper class for computing matrix functions of atomic matrices
Eigen::MatrixFunctionReturnValue< Derived >Proxy for the matrix function of some matrix (expression)
Eigen::MatrixLogarithmAtomic< MatrixType >Helper class for computing matrix logarithm of atomic matrices
Eigen::MatrixLogarithmReturnValue< Derived >Proxy for the matrix logarithm of some matrix (expression)
Eigen::MatrixMarketIterator< Scalar >Iterator to browse matrices from a specified folder
Eigen::MatrixSquareRoot< MatrixType, IsComplex >Class for computing matrix square roots of general matrices
Eigen::MatrixSquareRoot< MatrixType, 0 >
Eigen::MatrixSquareRoot< MatrixType, 1 >
Eigen::MatrixSquareRootQuasiTriangular< MatrixType >Class for computing matrix square roots of upper quasi-triangular matrices
Eigen::MatrixSquareRootReturnValue< Derived >Proxy for the matrix square root of some matrix (expression)
Eigen::MatrixSquareRootTriangular< MatrixType >Class for computing matrix square roots of upper triangular matrices
Eigen::MatrixWrapper< ExpressionType >Expression of an array as a mathematical vector or matrix
Eigen::MatrixXpr
Eigen::internal::max_coeff_visitor< Derived >
Eigen::internal::member_redux< BinaryOp, Scalar >
Eigen::internal::meta_sqrt< Y, InfX, SupX, Done >
Eigen::internal::meta_sqrt< Y, InfX, SupX, true >
Eigen::internal::min_coeff_visitor< Derived >
Eigen::internal::minimizer_helper1< Volume1, Object1, Object2, Minimizer >
Eigen::internal::minimizer_helper2< Volume2, Object2, Object1, Minimizer >
Eigen::Minor< MatrixType >Expression of a minor
Eigen::internal::must_nest_by_value< T >
NColsBlockXpr< N >
Eigen::DenseBase< Derived >::NColsBlockXpr< N >
Eigen::NestByValue< ExpressionType >Expression which must be nested by value
Eigen::internal::nested< T, n, PlainObject >
Eigen::internal::nested< CoeffBasedProduct< Lhs, Rhs, EvalBeforeNestingBit|EvalBeforeAssigningBit >, N, PlainObject >
Eigen::internal::nested< GeneralProduct< Lhs, Rhs, Mode >, N, PlainObject >
Eigen::internal::nested< ReturnByValue< Derived >, n, PlainObject >
Eigen::internal::no_assignment_operator
Eigen::NoAlias< ExpressionType, StorageBase >Pseudo expression providing an operator = assuming no aliasing
Eigen::internal::noncopyable
Eigen::internal::norm1_default_impl< Scalar, IsComplex >
Eigen::internal::norm1_default_impl< Scalar, false >
Eigen::internal::norm1_impl< Scalar >
Eigen::internal::norm1_retval< Scalar >
NRowsBlockXpr< N >
Eigen::DenseBase< Derived >::NRowsBlockXpr< N >
Eigen::NumericalDiff< _Functor, mode >
Eigen::NumTraits< T >Holds information about the various numeric (i.e. scalar) types allowed by Eigen
Eigen::NumTraits< Array< Scalar, Rows, Cols, Options, MaxRows, MaxCols > >
Eigen::NumTraits< double >
Eigen::NumTraits< float >
Eigen::NumTraits< long double >
Eigen::NumTraits< std::complex< _Real > >
Eigen::internal::outer_product_selector< ColMajor >
Eigen::internal::outer_product_selector< RowMajor >
Eigen::internal::outer_stride_at_compile_time< Derived, HasDirectAccess >
Eigen::internal::outer_stride_at_compile_time< Derived, false >
Eigen::OuterStride< Value >Convenience specialization of Stride to specify only an outer stride See class Map for some examples
Eigen::internal::Packet1cd
Eigen::internal::Packet2cf
Eigen::internal::packet_traits< T >
Eigen::internal::packet_traits< double >
Eigen::internal::packet_traits< float >
Eigen::internal::packet_traits< int >
Eigen::internal::packet_traits< std::complex< double > >
Eigen::internal::packet_traits< std::complex< float > >
Eigen::internal::palign_impl< Offset, PacketType >
Eigen::internal::palign_impl< Offset, Packet1cd >
Eigen::internal::palign_impl< Offset, Packet2cf >
Eigen::internal::palign_impl< Offset, Packet2d >
Eigen::internal::palign_impl< Offset, Packet4f >
Eigen::internal::palign_impl< Offset, Packet4i >
Eigen::LevenbergMarquardt< FunctorType, Scalar >::Parameters
Eigen::HybridNonLinearSolver< FunctorType, Scalar >::Parameters
Eigen::ParametrizedLine< _Scalar, _AmbientDim >A parametrized line
Eigen::internal::pardiso_run_selector< Index >
Eigen::internal::pardiso_run_selector< long long int >
Eigen::internal::pardiso_traits< PardisoLDLT< _MatrixType, Options > >
Eigen::internal::pardiso_traits< PardisoLLT< _MatrixType, Options > >
Eigen::internal::pardiso_traits< PardisoLU< _MatrixType > >
Eigen::PardisoImpl< Derived >
Eigen::PardisoLDLT< MatrixType, Options >A sparse direct Cholesky (LDLT) factorization and solver based on the PARDISO library
Eigen::PardisoLLT< MatrixType, _UpLo >A sparse direct Cholesky (LLT) factorization and solver based on the PARDISO library
Eigen::PardisoLU< MatrixType >A sparse direct LU factorization and solver based on the PARDISO library
Eigen::internal::partial_lu_impl< Scalar, StorageOrder, PivIndex >
Eigen::PartialPivLU< _MatrixType >LU decomposition of a matrix with partial pivoting, and related features
Eigen::PartialReduxExpr< MatrixType, MemberOp, Direction >Generic expression of a partially reduxed matrix
Eigen::internal::pastix_traits< PastixLDLT< _MatrixType, Options > >
Eigen::internal::pastix_traits< PastixLLT< _MatrixType, Options > >
Eigen::internal::pastix_traits< PastixLU< _MatrixType > >
Eigen::PastixBase< Derived >
Eigen::PastixLDLT< _MatrixType, _UpLo >A sparse direct supernodal Cholesky (LLT) factorization and solver based on the PaStiX library
Eigen::PastixLLT< _MatrixType, _UpLo >A sparse direct supernodal Cholesky (LLT) factorization and solver based on the PaStiX library
Eigen::PastixLU< _MatrixType, IsStrSym >Sparse direct LU solver based on PaStiX library
Eigen::internal::permut_matrix_product_retval< PermutationType, MatrixType, Side, Transposed >
Eigen::internal::permut_sparsematrix_product_retval< PermutationType, MatrixType, Side, Transposed >
Eigen::PermutationBase< Derived >Base class for permutations
Eigen::PermutationMatrix< SizeAtCompileTime, MaxSizeAtCompileTime, IndexType >Permutation matrix
Eigen::PermutationStorage
Eigen::PermutationWrapper< _IndicesType >Class to view a vector of integers as a permutation matrix
Eigen::internal::plain_array< T, Size, MatrixOrArrayOptions, Alignment >
Eigen::internal::plain_array< T, 0, MatrixOrArrayOptions, Alignment >
Eigen::internal::plain_array< T, Size, MatrixOrArrayOptions, 16 >
Eigen::internal::plain_col_type< ExpressionType, Scalar >
Eigen::internal::plain_diag_type< ExpressionType, Scalar >
Eigen::internal::plain_matrix_type< T, Dense >
Eigen::internal::plain_matrix_type< T, Sparse >
Eigen::internal::plain_matrix_type_column_major< T >
Eigen::internal::plain_matrix_type_dense< T, ArrayXpr >
Eigen::internal::plain_matrix_type_dense< T, MatrixXpr >
Eigen::internal::plain_matrix_type_row_major< T >
Eigen::internal::plain_row_type< ExpressionType, Scalar >
Eigen::PlainObjectBase< Derived >Dense storage base class for matrices and arrays
Eigen::PolynomialSolver< _Scalar, _Deg >A polynomial solver
Eigen::PolynomialSolver< _Scalar, 1 >
Eigen::PolynomialSolverBase< _Scalar, _Deg >Defined to be inherited by polynomial solvers: it provides convenient methods such as
Eigen::internal::pow_default_impl
Eigen::internal::pow_default_impl< Scalar, true >
Eigen::internal::pow_impl< Scalar >
Eigen::internal::pow_retval< Scalar >
Product< Lhs, Rhs >Expression of the product of two arbitrary matrices or vectors
Eigen::internal::product_coeff_impl< DefaultTraversal, 0, Lhs, Rhs, RetScalar >
Eigen::internal::product_coeff_impl< DefaultTraversal, Dynamic, Lhs, Rhs, RetScalar >
Eigen::internal::product_coeff_impl< DefaultTraversal, UnrollingIndex, Lhs, Rhs, RetScalar >
Eigen::internal::product_coeff_impl< InnerVectorizedTraversal, Dynamic, Lhs, Rhs, RetScalar >
Eigen::internal::product_coeff_impl< InnerVectorizedTraversal, UnrollingIndex, Lhs, Rhs, RetScalar >
Eigen::internal::product_coeff_vectorized_dyn_selector< Lhs, Rhs, LhsRows, RhsCols >
Eigen::internal::product_coeff_vectorized_dyn_selector< Lhs, Rhs, 1, 1 >
Eigen::internal::product_coeff_vectorized_dyn_selector< Lhs, Rhs, 1, RhsCols >
Eigen::internal::product_coeff_vectorized_dyn_selector< Lhs, Rhs, LhsRows, 1 >
Eigen::internal::product_coeff_vectorized_unroller< UnrollingIndex, Lhs, Rhs, Packet >
Eigen::internal::product_coeff_vectorized_unroller< 0, Lhs, Rhs, Packet >
Eigen::internal::product_packet_impl< ColMajor, 0, Lhs, Rhs, Packet, LoadMode >
Eigen::internal::product_packet_impl< ColMajor, Dynamic, Lhs, Rhs, Packet, LoadMode >
Eigen::internal::product_packet_impl< ColMajor, UnrollingIndex, Lhs, Rhs, Packet, LoadMode >
Eigen::internal::product_packet_impl< RowMajor, 0, Lhs, Rhs, Packet, LoadMode >
Eigen::internal::product_packet_impl< RowMajor, Dynamic, Lhs, Rhs, Packet, LoadMode >
Eigen::internal::product_packet_impl< RowMajor, UnrollingIndex, Lhs, Rhs, Packet, LoadMode >
Eigen::internal::product_selfadjoint_matrix< Scalar, Index, LhsStorageOrder, false, ConjugateLhs, RhsStorageOrder, true, ConjugateRhs, ColMajor >
Eigen::internal::product_selfadjoint_matrix< Scalar, Index, LhsStorageOrder, LhsSelfAdjoint, ConjugateLhs, RhsStorageOrder, RhsSelfAdjoint, ConjugateRhs, RowMajor >
Eigen::internal::product_selfadjoint_matrix< Scalar, Index, LhsStorageOrder, true, ConjugateLhs, RhsStorageOrder, false, ConjugateRhs, ColMajor >
Eigen::internal::product_size_category< Size, MaxSize >
Eigen::internal::product_triangular_matrix_matrix< Scalar, Index, Mode, false, LhsStorageOrder, ConjugateLhs, RhsStorageOrder, ConjugateRhs, ColMajor, Version >
Eigen::internal::product_triangular_matrix_matrix< Scalar, Index, Mode, LhsIsTriangular, LhsStorageOrder, ConjugateLhs, RhsStorageOrder, ConjugateRhs, RowMajor, Version >
Eigen::internal::product_triangular_matrix_matrix< Scalar, Index, Mode, true, LhsStorageOrder, ConjugateLhs, RhsStorageOrder, ConjugateRhs, ColMajor, Version >
Eigen::internal::product_triangular_matrix_matrix_trmm< Scalar, Index, Mode, LhsIsTriangular, LhsStorageOrder, ConjugateLhs, RhsStorageOrder, ConjugateRhs, ResStorageOrder >
Eigen::internal::product_type< Lhs, Rhs >
Eigen::internal::product_type_selector< 1, 1, 1 >
Eigen::internal::product_type_selector< 1, 1, Depth >
Eigen::internal::product_type_selector< 1, Large, Large >
Eigen::internal::product_type_selector< 1, Large, Small >
Eigen::internal::product_type_selector< 1, Small, Large >
Eigen::internal::product_type_selector< 1, Small, Small >
Eigen::internal::product_type_selector< Large, 1, Large >
Eigen::internal::product_type_selector< Large, 1, Small >
Eigen::internal::product_type_selector< Large, Large, Large >
Eigen::internal::product_type_selector< Large, Large, Small >
Eigen::internal::product_type_selector< Large, Small, 1 >
Eigen::internal::product_type_selector< Large, Small, Large >
Eigen::internal::product_type_selector< Large, Small, Small >
Eigen::internal::product_type_selector< M, N, 1 >
Eigen::internal::product_type_selector< Small, 1, Large >
Eigen::internal::product_type_selector< Small, 1, Small >
Eigen::internal::product_type_selector< Small, Large, 1 >
Eigen::internal::product_type_selector< Small, Large, Large >
Eigen::internal::product_type_selector< Small, Large, Small >
Eigen::internal::product_type_selector< Small, Small, 1 >
Eigen::internal::product_type_selector< Small, Small, Large >
Eigen::internal::product_type_selector< Small, Small, Small >
Eigen::ProductBase< Derived, Lhs, Rhs >
ProductImpl< Lhs, Rhs, Dense >
Eigen::ProductReturnType< Lhs, Rhs, ProductType >Helper class to get the correct and optimized returned type of operator*
Eigen::ProductReturnType< Lhs, Rhs, CoeffBasedProductMode >
Eigen::ProductReturnType< Lhs, Rhs, LazyCoeffBasedProductMode >
Eigen::internal::projective_transform_inverse< TransformType, Mode >
Eigen::internal::projective_transform_inverse< TransformType, Projective >
Eigen::internal::promote_index_type< I1, I2 >
Eigen::internal::promote_storage_type< A, A >
Eigen::internal::promote_storage_type< Dense, Sparse >
Eigen::internal::promote_storage_type< Sparse, Dense >
Eigen::QR< MatrixType >
Eigen::internal::qr_preconditioner_impl< MatrixType, QRPreconditioner, Case, DoAnything >
Eigen::internal::qr_preconditioner_impl< MatrixType, ColPivHouseholderQRPreconditioner, PreconditionIfMoreColsThanRows, true >
Eigen::internal::qr_preconditioner_impl< MatrixType, ColPivHouseholderQRPreconditioner, PreconditionIfMoreRowsThanCols, true >
Eigen::internal::qr_preconditioner_impl< MatrixType, FullPivHouseholderQRPreconditioner, PreconditionIfMoreColsThanRows, true >
Eigen::internal::qr_preconditioner_impl< MatrixType, FullPivHouseholderQRPreconditioner, PreconditionIfMoreRowsThanCols, true >
Eigen::internal::qr_preconditioner_impl< MatrixType, HouseholderQRPreconditioner, PreconditionIfMoreColsThanRows, true >
Eigen::internal::qr_preconditioner_impl< MatrixType, HouseholderQRPreconditioner, PreconditionIfMoreRowsThanCols, true >
Eigen::internal::qr_preconditioner_impl< MatrixType, QRPreconditioner, Case, false >
Eigen::internal::qr_preconditioner_should_do_anything< MatrixType, QRPreconditioner, Case >
Eigen::internal::quat_product< Arch, Derived1, Derived2, Scalar, _Options >
Eigen::internal::quat_product< Architecture::SSE, Derived, OtherDerived, double, Aligned >
Eigen::internal::quat_product< Architecture::SSE, Derived, OtherDerived, float, Aligned >
Eigen::Quaternion< _Scalar >The quaternion class used to represent 3D orientations and rotations
Eigen::QuaternionBase< Derived >Base class for quaternion expressions
Eigen::internal::quaternionbase_assign_impl< Other, 3, 3 >
Eigen::internal::quaternionbase_assign_impl< Other, 4, 1 >
Eigen::internal::random_default_impl
Eigen::internal::random_default_impl< Scalar, false, false >
Eigen::internal::random_default_impl< Scalar, false, true >
Eigen::internal::random_default_impl< Scalar, true, false >
Eigen::internal::random_impl< Scalar >
Eigen::internal::random_impl< bool >
Eigen::internal::random_retval< Scalar >
Eigen::RandomSetter< SparseMatrixType, MapTraits, OuterPacketBits >The RandomSetter is a wrapper object allowing to set/update a sparse matrix with random access
Eigen::internal::real_impl< Scalar >
Eigen::internal::real_impl< std::complex< RealScalar > >
Eigen::internal::real_ref_impl< Scalar >
Eigen::internal::real_ref_retval< Scalar >
Eigen::internal::real_retval< Scalar >
Eigen::RealSchur< _MatrixType >Performs a real Schur decomposition of a square matrix
Eigen::aligned_allocator_indirection< T >::rebind< U >
Eigen::aligned_allocator< T >::rebind< U >
Eigen::internal::redux_impl< Func, Derived, DefaultTraversal, CompleteUnrolling >
Eigen::internal::redux_impl< Func, Derived, DefaultTraversal, NoUnrolling >
Eigen::internal::redux_impl< Func, Derived, LinearVectorizedTraversal, CompleteUnrolling >
Eigen::internal::redux_impl< Func, Derived, LinearVectorizedTraversal, NoUnrolling >
Eigen::internal::redux_impl< Func, Derived, SliceVectorizedTraversal, NoUnrolling >
Eigen::internal::redux_novec_unroller< Func, Derived, Start, Length >
Eigen::internal::redux_novec_unroller< Func, Derived, Start, 0 >
Eigen::internal::redux_novec_unroller< Func, Derived, Start, 1 >
Eigen::internal::redux_traits< Func, Derived >
Eigen::internal::redux_vec_unroller< Func, Derived, Start, Length >
Eigen::internal::redux_vec_unroller< Func, Derived, Start, 1 >
Eigen::VectorwiseOp< ExpressionType, Direction >::ReduxReturnType< BinaryOp >
Eigen::internal::ref_selector< T >
Eigen::internal::remove_all< T >
Eigen::internal::remove_all< const T >
Eigen::internal::remove_all< T & >
Eigen::internal::remove_all< T * >
Eigen::internal::remove_all< T const & >
Eigen::internal::remove_all< T const * >
Eigen::internal::remove_const< T >
Eigen::internal::remove_const< const T >
Eigen::internal::remove_const< const T[]>
Eigen::internal::remove_const< const T[Size]>
Eigen::internal::remove_pointer< T >
Eigen::internal::remove_pointer< T * >
Eigen::internal::remove_pointer< T *const >
Eigen::internal::remove_reference< T >
Eigen::internal::remove_reference< T & >
Eigen::Replicate< MatrixType, RowFactor, ColFactor >Expression of the multiple replication of a matrix or vector
Eigen::internal::result_of< T >
Eigen::internal::result_of< Func(ArgType)>
Eigen::internal::result_of< Func(ArgType0, ArgType1)>
Eigen::ReturnByValue< Derived >
Eigen::VectorwiseOp< ExpressionType, Direction >::ReturnType< Functor, Scalar >
Eigen::Reverse< MatrixType, Direction >Expression of the reverse of a vector or matrix
Eigen::internal::reverse_packet_cond< PacketScalar, ReversePacket >
Eigen::internal::reverse_packet_cond< PacketScalar, false >
Eigen::MappedSparseMatrix< _Scalar, _Flags, _Index >::ReverseInnerIterator
Eigen::SparseInnerVectorSet< MatrixType, Size >::ReverseInnerIterator
Eigen::SparseInnerVectorSet< SparseMatrix< _Scalar, _Options, _Index >, Size >::ReverseInnerIterator
Eigen::CwiseUnaryOpImpl< UnaryOp, MatrixType, Sparse >::ReverseInnerIterator
Eigen::CwiseUnaryViewImpl< ViewOp, MatrixType, Sparse >::ReverseInnerIterator
Eigen::SparseMatrix< _Scalar, _Options, _Index >::ReverseInnerIterator
Eigen::TransposeImpl< MatrixType, Sparse >::ReverseInnerIterator
Eigen::SparseVector< _Scalar, _Options, _Index >::ReverseInnerIterator
Eigen::DynamicSparseMatrix< _Scalar, _Options, _Index >::ReverseInnerIterator
Eigen::SparseTriangularView< MatrixType, Mode >::ReverseInnerIterator
Eigen::Rotation2D< _Scalar >Represents a rotation/orientation in a 2 dimensional space
Eigen::internal::rotation_base_generic_product_selector< RotationDerived, DiagonalMatrix< Scalar, Dim, MaxDim >, false >
Eigen::internal::rotation_base_generic_product_selector< RotationDerived, MatrixType, false >
Eigen::internal::rotation_base_generic_product_selector< RotationDerived, OtherVectorType, true >
Eigen::RotationBase< Derived, _Dim >Common base class for compact rotation representations
Eigen::internal::scalar_abs2_op< Scalar >
Eigen::internal::scalar_abs_op< Scalar >
Eigen::internal::scalar_acos_op< Scalar >
Eigen::internal::scalar_add_op< Scalar >
Eigen::internal::scalar_asin_op< Scalar >
Eigen::internal::scalar_binary_pow_op< Scalar, OtherScalar >
Eigen::internal::scalar_boolean_and_op
Eigen::internal::scalar_boolean_or_op
Eigen::internal::scalar_cast_op< Scalar, NewType >
Eigen::internal::scalar_conj_product_op< LhsScalar, RhsScalar >
Eigen::internal::scalar_conjugate_op< Scalar >
Eigen::internal::scalar_constant_op< Scalar >
Eigen::internal::scalar_cos_op< Scalar >
Eigen::internal::scalar_cube_op< Scalar >
Eigen::internal::scalar_difference_op< Scalar >
Eigen::internal::scalar_exp_op< Scalar >
Eigen::internal::scalar_fuzzy_default_impl
Eigen::internal::scalar_fuzzy_default_impl< Scalar, false, false >
Eigen::internal::scalar_fuzzy_default_impl< Scalar, false, true >
Eigen::internal::scalar_fuzzy_default_impl< Scalar, true, false >
Eigen::internal::scalar_fuzzy_impl< Scalar >
Eigen::internal::scalar_fuzzy_impl< bool >
Eigen::internal::scalar_hypot_op< Scalar >
Eigen::internal::scalar_identity_op< Scalar >
Eigen::internal::scalar_imag_op< Scalar >
Eigen::internal::scalar_imag_ref_op< Scalar >
Eigen::internal::scalar_inverse_mult_op< Scalar >
Eigen::internal::scalar_inverse_op< Scalar >
Eigen::internal::scalar_log_op< Scalar >
Eigen::internal::scalar_max_op< Scalar >
Eigen::internal::scalar_min_op< Scalar >
Eigen::internal::scalar_multiple2_op< Scalar1, Scalar2 >
Eigen::internal::scalar_multiple_op< Scalar >
Eigen::internal::scalar_opposite_op< Scalar >
Eigen::internal::scalar_pow_op< Scalar >
Eigen::internal::scalar_product_op< LhsScalar, RhsScalar >
Eigen::internal::scalar_product_traits< A_Scalar, Matrix< A_Scalar, A_Rows, A_Cols, A_Options, A_MaxRows, A_MaxCols > >
Eigen::internal::scalar_product_traits< AutoDiffScalar< DerType >, typename DerType::Scalar >
Eigen::internal::scalar_product_traits< Matrix< A_Scalar, A_Rows, A_Cols, A_Options, A_MaxRows, A_MaxCols >, A_Scalar >
Eigen::internal::scalar_product_traits< std::complex< T >, T >
Eigen::internal::scalar_product_traits< T, std::complex< T > >
Eigen::internal::scalar_product_traits< T, T >
Eigen::internal::scalar_quotient1_op< Scalar >
Eigen::internal::scalar_quotient_op< Scalar >
Eigen::internal::scalar_random_op< Scalar >
Eigen::internal::scalar_real_op< Scalar >
Eigen::internal::scalar_real_ref_op< Scalar >
Eigen::internal::scalar_sin_op< Scalar >
Eigen::internal::scalar_sqrt_op< Scalar >
Eigen::internal::scalar_square_op< Scalar >
Eigen::internal::scalar_sum_op< Scalar >
Eigen::internal::scalar_tan_op< Scalar >
Eigen::RandomSetter< SparseMatrixType, MapTraits, OuterPacketBits >::ScalarWrapper
Eigen::ScaledProduct< NestedProduct >
Eigen::Scaling< _Scalar, _Dim >Represents a possibly non uniform scaling transformation
Scaling< _MatrixType >
Eigen::Select< ConditionMatrixType, ThenMatrixType, ElseMatrixType >Expression of a coefficient wise version of the C++ ternary operator ?:
Eigen::internal::selfadjoint_matrix_vector_product< Scalar, Index, StorageOrder, UpLo, ConjugateLhs, ConjugateRhs, Version >
Eigen::internal::selfadjoint_matrix_vector_product_symv< Scalar, Index, StorageOrder, UpLo, ConjugateLhs, ConjugateRhs >
Eigen::selfadjoint_product_selector< MatrixType, OtherType, UpLo, false >
Eigen::selfadjoint_product_selector< MatrixType, OtherType, UpLo, true >
Eigen::selfadjoint_rank1_update< Scalar, Index, ColMajor, UpLo, ConjLhs, ConjRhs >
Eigen::selfadjoint_rank1_update< Scalar, Index, RowMajor, UpLo, ConjLhs, ConjRhs >
Eigen::internal::selfadjoint_rank2_update_selector< Scalar, Index, UType, VType, Lower >
Eigen::internal::selfadjoint_rank2_update_selector< Scalar, Index, UType, VType, Upper >
Eigen::SelfAdjointEigenSolver< _MatrixType >Computes eigenvalues and eigenvectors of selfadjoint matrices
Eigen::SelfadjointProductMatrix< Lhs, 0, true, Rhs, RhsMode, false >
Eigen::SelfadjointProductMatrix< Lhs, LhsMode, false, Rhs, 0, true >
Eigen::SelfadjointProductMatrix< Lhs, LhsMode, false, Rhs, RhsMode, false >
Eigen::SelfAdjointView< MatrixType, UpLo >Expression of a selfadjoint matrix from a triangular part of a dense matrix
Eigen::MatrixBase< Derived >::SelfAdjointViewReturnType< UpLo >
Eigen::SelfCwiseBinaryOp< BinaryOp, Lhs, Rhs >
Eigen::internal::setIdentity_impl< Derived, Big >
Eigen::internal::setIdentity_impl< Derived, true >
Eigen::internal::significant_decimals_default_impl< Scalar, IsInteger >
Eigen::internal::significant_decimals_default_impl< Scalar, true >
Eigen::internal::significant_decimals_impl< Scalar >
Eigen::SimplicialCholesky< _MatrixType, _UpLo >
Eigen::SimplicialCholeskyBase< Derived >A direct sparse Cholesky factorizations
Eigen::SimplicialLDLT< _MatrixType, _UpLo >A direct sparse LDLT Cholesky factorizations without square root
Eigen::SimplicialLLT< _MatrixType, _UpLo >A direct sparse LLT Cholesky factorizations
Eigen::SparseMatrix< _Scalar, _Options, _Index >::SingletonVector
Eigen::internal::size_at_compile_time< _Rows, _Cols >
Eigen::internal::skyline_product_selector< Lhs, Rhs, ResultType, ColMajor >
Eigen::internal::skyline_product_selector< Lhs, Rhs, ResultType, RowMajor >
Eigen::SkylineInplaceLU< MatrixType >Inplace LU decomposition of a skyline matrix and associated features
Eigen::SkylineMatrix< _Scalar, _Options >The main skyline matrix class
Eigen::SkylineMatrixBase< Derived >Base class of any skyline matrices or skyline expressions
Eigen::internal::SkylineProduct< LhsNested, RhsNested, ProductMode >
Eigen::SkylineProductReturnType< Lhs, Rhs, ProductMode >
Eigen::SkylineStorage< Scalar >
Eigen::SluMatrix
Eigen::SluMatrixMapHelper< Matrix< Scalar, Rows, Cols, Options, MRows, MCols > >
Eigen::SluMatrixMapHelper< SparseMatrixBase< Derived > >
Eigen::internal::smart_copy_helper< T, false >
Eigen::internal::smart_copy_helper< T, true >
Eigen::internal::solve_retval< BiCGSTAB< _MatrixType, _Preconditioner >, Rhs >
Eigen::internal::solve_retval< CholmodBase< _MatrixType, _UpLo, Derived >, Rhs >
Eigen::internal::solve_retval< ColPivHouseholderQR< _MatrixType >, Rhs >
Eigen::internal::solve_retval< ConjugateGradient< _MatrixType, _UpLo, _Preconditioner >, Rhs >
Eigen::internal::solve_retval< DiagonalPreconditioner< _MatrixType >, Rhs >
Eigen::internal::solve_retval< FullPivHouseholderQR< _MatrixType >, Rhs >
Eigen::internal::solve_retval< FullPivLU< _MatrixType >, Rhs >
Eigen::internal::solve_retval< GMRES< _MatrixType, _Preconditioner >, Rhs >
Eigen::internal::solve_retval< HouseholderQR< _MatrixType >, Rhs >
Eigen::internal::solve_retval< IncompleteLU< _MatrixType >, Rhs >
Eigen::internal::solve_retval< IncompleteLUT< _MatrixType >, Rhs >
Eigen::internal::solve_retval< JacobiSVD< _MatrixType, QRPreconditioner >, Rhs >
Eigen::internal::solve_retval< LDLT< _MatrixType, _UpLo >, Rhs >
Eigen::internal::solve_retval< LLT< _MatrixType, UpLo >, Rhs >
Eigen::internal::solve_retval< PardisoImpl< _Derived >, Rhs >
Eigen::internal::solve_retval< PartialPivLU< _MatrixType >, Rhs >
Eigen::internal::solve_retval< PastixBase< _MatrixType >, Rhs >
Eigen::internal::solve_retval< SimplicialCholeskyBase< Derived >, Rhs >
Eigen::internal::solve_retval< SuperLUBase< _MatrixType, Derived >, Rhs >
Eigen::internal::solve_retval< UmfPackLU< _MatrixType >, Rhs >
Eigen::internal::solve_retval_base< _DecompositionType, Rhs >
Eigen::internal::solve_retval_with_guess< DecompositionType, Rhs, Guess >
Eigen::internal::sparse_cwise_binary_op_inner_iterator_selector< BinaryOp, Lhs, Rhs, Derived, Sparse, Sparse >
Eigen::internal::sparse_cwise_binary_op_inner_iterator_selector< scalar_product_op< T >, Lhs, Rhs, Derived, Dense, Sparse >
Eigen::internal::sparse_cwise_binary_op_inner_iterator_selector< scalar_product_op< T >, Lhs, Rhs, Derived, Sparse, Dense >
Eigen::internal::sparse_cwise_binary_op_inner_iterator_selector< scalar_product_op< T >, Lhs, Rhs, Derived, Sparse, Sparse >
Eigen::internal::sparse_diagonal_product_inner_iterator_selector< Lhs, Rhs, SparseDiagonalProductType, SDP_IsDiagonal, SDP_IsSparseColMajor >
Eigen::internal::sparse_diagonal_product_inner_iterator_selector< Lhs, Rhs, SparseDiagonalProductType, SDP_IsDiagonal, SDP_IsSparseRowMajor >
Eigen::internal::sparse_diagonal_product_inner_iterator_selector< Lhs, Rhs, SparseDiagonalProductType, SDP_IsSparseColMajor, SDP_IsDiagonal >
Eigen::internal::sparse_diagonal_product_inner_iterator_selector< Lhs, Rhs, SparseDiagonalProductType, SDP_IsSparseRowMajor, SDP_IsDiagonal >
Eigen::internal::sparse_eval< T, Rows, Cols >
Eigen::internal::sparse_eval< T, 1, 1 >
Eigen::internal::sparse_eval< T, 1, Cols >
Eigen::internal::sparse_eval< T, Rows, 1 >
Eigen::internal::sparse_solve_retval< CholmodBase< _MatrixType, _UpLo, Derived >, Rhs >
Eigen::internal::sparse_solve_retval< IterativeSolverBase< Derived >, Rhs >
Eigen::internal::sparse_solve_retval< PardisoImpl< Derived >, Rhs >
Eigen::internal::sparse_solve_retval< PastixBase< _MatrixType >, Rhs >
Eigen::internal::sparse_solve_retval< SimplicialCholeskyBase< Derived >, Rhs >
Eigen::internal::sparse_solve_retval< SuperLUBase< _MatrixType, Derived >, Rhs >
Eigen::internal::sparse_solve_retval< UmfPackLU< _MatrixType >, Rhs >
Eigen::internal::sparse_solve_retval_base< _DecompositionType, Rhs >
Eigen::internal::sparse_solve_triangular_selector< Lhs, Rhs, Mode, Lower, ColMajor >
Eigen::internal::sparse_solve_triangular_selector< Lhs, Rhs, Mode, Lower, RowMajor >
Eigen::internal::sparse_solve_triangular_selector< Lhs, Rhs, Mode, Upper, ColMajor >
Eigen::internal::sparse_solve_triangular_selector< Lhs, Rhs, Mode, Upper, RowMajor >
Eigen::internal::sparse_solve_triangular_sparse_selector< Lhs, Rhs, Mode, UpLo, ColMajor >
Eigen::internal::sparse_sparse_product_with_pruning_selector< Lhs, Rhs, ResultType, ColMajor, ColMajor, ColMajor >
Eigen::internal::sparse_sparse_product_with_pruning_selector< Lhs, Rhs, ResultType, ColMajor, ColMajor, RowMajor >
Eigen::internal::sparse_sparse_product_with_pruning_selector< Lhs, Rhs, ResultType, RowMajor, RowMajor, ColMajor >
Eigen::internal::sparse_sparse_product_with_pruning_selector< Lhs, Rhs, ResultType, RowMajor, RowMajor, RowMajor >
Eigen::internal::sparse_time_dense_product_impl< SparseLhsType, DenseRhsType, DenseResType, ColMajor, false >
Eigen::internal::sparse_time_dense_product_impl< SparseLhsType, DenseRhsType, DenseResType, ColMajor, true >
Eigen::internal::sparse_time_dense_product_impl< SparseLhsType, DenseRhsType, DenseResType, RowMajor, false >
Eigen::internal::sparse_time_dense_product_impl< SparseLhsType, DenseRhsType, DenseResType, RowMajor, true >
Eigen::SparseDenseOuterProduct< Lhs, Rhs, Tr >
Eigen::SparseDenseProductReturnType< Lhs, Rhs, InnerSize >
Eigen::SparseDenseProductReturnType< Lhs, Rhs, 1 >
Eigen::SparseDiagonalProduct< Lhs, Rhs >
Eigen::SparseInnerVectorSet< MatrixType, Size >
Eigen::SparseInnerVectorSet< DynamicSparseMatrix< _Scalar, _Options, _Index >, Size >
Eigen::SparseInnerVectorSet< SparseMatrix< _Scalar, _Options, _Index >, Size >
Eigen::SparseMatrix< _Scalar, _Options, _Index >A versatible sparse matrix representation
Eigen::SparseMatrixBase< Derived >Base class of any sparse matrices or sparse expressions
Eigen::SparseSelfAdjointTimeDenseProduct< Lhs, Rhs, UpLo >
Eigen::SparseSelfAdjointView< MatrixType, UpLo >Pseudo expression to manipulate a triangular sparse matrix as a selfadjoint matrix
Eigen::SparseSparseProduct< LhsNested, RhsNested >
Eigen::SparseSparseProductReturnType< Lhs, Rhs >
Eigen::SparseSymmetricPermutationProduct< MatrixType, UpLo >
Eigen::SparseTimeDenseProduct< Lhs, Rhs >
Eigen::SparseTriangularView< MatrixType, Mode >
Eigen::SparseVector< _Scalar, _Options, _Index >Sparse vector class
Eigen::SparseView< MatrixType >
Eigen::internal::special_scalar_op_base< Derived, Scalar, OtherScalar, EnableIt >
Eigen::internal::special_scalar_op_base< Derived, Scalar, OtherScalar, true >
Eigen::Spline< _Scalar, _Dim, _Degree >A class representing multi-dimensional spline curves
Eigen::SplineFitting< SplineType >Spline fitting methods
Eigen::SplineTraits< SplineType, DerivativeOrder >
Eigen::SplineTraits< Spline< _Scalar, _Dim, _Degree >, _DerivativeOrder >Compile-time attributes of the Spline class for fixed degree
Eigen::SplineTraits< Spline< _Scalar, _Dim, _Degree >, Dynamic >Compile-time attributes of the Spline class for Dynamic degree
Eigen::internal::sqrt_default_impl< Scalar, IsInteger >
Eigen::internal::sqrt_default_impl< Scalar, true >
Eigen::internal::sqrt_impl< Scalar >
Eigen::internal::sqrt_retval< Scalar >
Eigen::internal::static_assertion< condition >
Eigen::internal::static_assertion< true >
Eigen::StdMapTraits< Scalar >
Eigen::StdStemFunctions< Scalar >Stem functions corresponding to standard mathematical functions
Eigen::internal::stem_function< Scalar >
Eigen::Stride< _OuterStrideAtCompileTime, _InnerStrideAtCompileTime >Holds strides information for Map
Eigen::PlainObjectBase< Derived >::StridedAlignedMapType< StrideType >
Eigen::PlainObjectBase< Derived >::StridedConstAlignedMapType< StrideType >
Eigen::PlainObjectBase< Derived >::StridedConstMapType< StrideType >
Eigen::PlainObjectBase< Derived >::StridedMapType< StrideType >
Eigen::SuperLU< _MatrixType >A sparse direct LU factorization and solver based on the SuperLU library
Eigen::SuperLUBase< _MatrixType, Derived >The base class for the direct and incomplete LU factorization of SuperLU
Eigen::SVD< MatrixType >Standard SVD decomposition of a matrix and associated features
Eigen::internal::svd_precondition_2x2_block_to_be_real< MatrixType, QRPreconditioner, IsComplex >
Eigen::internal::svd_precondition_2x2_block_to_be_real< MatrixType, QRPreconditioner, false >
Eigen::internal::svd_precondition_2x2_block_to_be_real< MatrixType, QRPreconditioner, true >
Eigen::SwapWrapper< ExpressionType >
Eigen::internal::symm_pack_lhs< Scalar, Index, Pack1, Pack2, StorageOrder >
Eigen::internal::symm_pack_rhs< Scalar, Index, nr, StorageOrder >
Eigen::internal::take_matrix_for_product< MatrixOrTransformType >
Eigen::internal::take_matrix_for_product< Transform< Scalar, Dim, Mode, Options > >
Eigen::internal::take_matrix_for_product< Transform< Scalar, Dim, Projective, Options > >
Eigen::internal::traits< AngleAxis< _Scalar > >
Eigen::internal::traits< Array< _Scalar, _Rows, _Cols, _Options, _MaxRows, _MaxCols > >
Eigen::internal::traits< ArrayWrapper< ExpressionType > >
Eigen::internal::traits< BandMatrix< _Scalar, _Rows, _Cols, _Supers, _Subs, _Options > >
Eigen::internal::traits< BandMatrixWrapper< _CoefficientsType, _Rows, _Cols, _Supers, _Subs, _Options > >
Eigen::internal::traits< BiCGSTAB< _MatrixType, _Preconditioner > >
Eigen::internal::traits< Block< XprType, BlockRows, BlockCols, InnerPanel, HasDirectAccess > >
Eigen::internal::traits< CoeffBasedProduct< LhsNested, RhsNested, NestingFlags > >
Eigen::internal::traits< ConjugateGradient< _MatrixType, _UpLo, _Preconditioner > >
Eigen::internal::traits< const T >
Eigen::internal::traits< CwiseBinaryOp< BinaryOp, Lhs, Rhs > >
Eigen::internal::traits< CwiseNullaryOp< NullaryOp, PlainObjectType > >
Eigen::internal::traits< CwiseUnaryOp< UnaryOp, XprType > >
Eigen::internal::traits< CwiseUnaryView< ViewOp, MatrixType > >
Eigen::internal::traits< DenseTimeSparseProduct< Lhs, Rhs > >
Eigen::internal::traits< DenseTimeSparseSelfAdjointProduct< Lhs, Rhs, UpLo > >
Eigen::internal::traits< Diagonal< const SparseMatrix< _Scalar, _Options, _Index >, DiagIndex > >
Eigen::internal::traits< Diagonal< MatrixType, DiagIndex > >
Eigen::internal::traits< DiagonalMatrix< _Scalar, SizeAtCompileTime, MaxSizeAtCompileTime > >
Eigen::internal::traits< DiagonalProduct< MatrixType, DiagonalType, ProductOrder > >
Eigen::internal::traits< DiagonalWrapper< _DiagonalVectorType > >
Eigen::internal::traits< DynamicSparseMatrix< _Scalar, _Options, _Index > >
Eigen::internal::traits< Flagged< ExpressionType, Added, Removed > >
Eigen::internal::traits< ForceAlignedAccess< ExpressionType > >
Eigen::internal::traits< FullPivHouseholderQRMatrixQReturnType< MatrixType > >
Eigen::internal::traits< GeneralProduct< Lhs, Rhs, GemmProduct > >
Eigen::internal::traits< GeneralProduct< Lhs, Rhs, GemvProduct > >
Eigen::internal::traits< GeneralProduct< Lhs, Rhs, InnerProduct > >
Eigen::internal::traits< GeneralProduct< Lhs, Rhs, OuterProduct > >
Eigen::internal::traits< GMRES< _MatrixType, _Preconditioner > >
Eigen::internal::traits< HessenbergDecompositionMatrixHReturnType< MatrixType > >
Eigen::internal::traits< Homogeneous< MatrixType, Direction > >
Eigen::internal::traits< homogeneous_left_product_impl< Homogeneous< MatrixType, Vertical >, Lhs > >
Eigen::internal::traits< homogeneous_right_product_impl< Homogeneous< MatrixType, Horizontal >, Rhs > >
Eigen::internal::traits< HouseholderSequence< VectorsType, CoeffsType, Side > >
Eigen::internal::traits< image_retval_base< DecompositionType > >
Eigen::internal::traits< inverse_impl< MatrixType > >
Eigen::internal::traits< kernel_retval_base< DecompositionType > >
Eigen::internal::traits< Map< const Quaternion< _Scalar >, _Options > >
Eigen::internal::traits< Map< PermutationMatrix< SizeAtCompileTime, MaxSizeAtCompileTime, IndexType >, _PacketAccess > >
Eigen::internal::traits< Map< PlainObjectType, MapOptions, StrideType > >
Eigen::internal::traits< Map< Quaternion< _Scalar >, _Options > >
Eigen::internal::traits< Map< Transpositions< SizeAtCompileTime, MaxSizeAtCompileTime, IndexType >, _PacketAccess > >
Eigen::internal::traits< MappedSparseMatrix< _Scalar, _Flags, _Index > >
Eigen::internal::traits< Matrix< _Scalar, _Rows, _Cols, _Options, _MaxRows, _MaxCols > >
Eigen::internal::traits< MatrixExponentialReturnValue< Derived > >
Eigen::internal::traits< MatrixFunctionReturnValue< Derived > >
Eigen::internal::traits< MatrixLogarithmReturnValue< Derived > >
Eigen::internal::traits< MatrixSquareRootReturnValue< Derived > >
Eigen::internal::traits< MatrixWrapper< ExpressionType > >
Eigen::internal::traits< Minor< MatrixType > >
Eigen::internal::traits< NestByValue< ExpressionType > >
Eigen::internal::traits< PartialReduxExpr< MatrixType, MemberOp, Direction > >
Eigen::internal::traits< permut_matrix_product_retval< PermutationType, MatrixType, Side, Transposed > >
Eigen::internal::traits< permut_sparsematrix_product_retval< PermutationType, MatrixType, Side, Transposed > >
Eigen::internal::traits< PermutationMatrix< SizeAtCompileTime, MaxSizeAtCompileTime, IndexType > >
Eigen::internal::traits< PermutationWrapper< _IndicesType > >
internal::traits< Product< Lhs, Rhs > >
Eigen::internal::traits< ProductBase< Derived, _Lhs, _Rhs > >
Eigen::internal::traits< Quaternion< _Scalar, _Options > >
Eigen::internal::traits< Replicate< MatrixType, RowFactor, ColFactor > >
Eigen::internal::traits< ReturnByValue< Derived > >
Eigen::internal::traits< Reverse< MatrixType, Direction > >
Eigen::internal::traits< Rotation2D< _Scalar > >
Eigen::internal::traits< ScaledProduct< NestedProduct > >
Eigen::internal::traits< Select< ConditionMatrixType, ThenMatrixType, ElseMatrixType > >
Eigen::internal::traits< SelfadjointProductMatrix< Lhs, 0, true, Rhs, RhsMode, false > >
Eigen::internal::traits< SelfadjointProductMatrix< Lhs, LhsMode, false, Rhs, 0, true > >
Eigen::internal::traits< SelfadjointProductMatrix< Lhs, LhsMode, false, Rhs, RhsMode, false > >
Eigen::internal::traits< SelfAdjointView< MatrixType, UpLo > >
Eigen::internal::traits< SelfCwiseBinaryOp< BinaryOp, Lhs, Rhs > >
Eigen::internal::traits< SimplicialCholesky< _MatrixType, _UpLo > >
Eigen::internal::traits< SimplicialLDLT< _MatrixType, _UpLo > >
Eigen::internal::traits< SimplicialLLT< _MatrixType, _UpLo > >
Eigen::internal::traits< SkylineMatrix< _Scalar, _Options > >
Eigen::internal::traits< SkylineProduct< LhsNested, RhsNested, ProductMode > >
Eigen::internal::traits< solve_retval_base< DecompositionType, Rhs > >
Eigen::internal::traits< solve_retval_with_guess< DecompositionType, Rhs, Guess > >
Eigen::internal::traits< sparse_solve_retval_base< DecompositionType, Rhs > >
Eigen::internal::traits< SparseDenseOuterProduct< Lhs, Rhs, Tr > >
Eigen::internal::traits< SparseDiagonalProduct< Lhs, Rhs > >
Eigen::internal::traits< SparseInnerVectorSet< MatrixType, Size > >
Eigen::internal::traits< SparseMatrix< _Scalar, _Options, _Index > >
Eigen::internal::traits< SparseSelfAdjointTimeDenseProduct< Lhs, Rhs, UpLo > >
Eigen::internal::traits< SparseSelfAdjointView< MatrixType, UpLo > >
Eigen::internal::traits< SparseSparseProduct< LhsNested, RhsNested > >
Eigen::internal::traits< SparseSymmetricPermutationProduct< MatrixType, UpLo > >
Eigen::internal::traits< SparseTimeDenseProduct< Lhs, Rhs > >
Eigen::internal::traits< SparseTriangularView< MatrixType, Mode > >
Eigen::internal::traits< SparseVector< _Scalar, _Options, _Index > >
Eigen::internal::traits< SparseView< MatrixType > >
Eigen::internal::traits< SwapWrapper< ExpressionType > >
Eigen::internal::traits< Transpose< MatrixType > >
Eigen::internal::traits< Transpose< PermutationBase< Derived > > >
Eigen::internal::traits< transposition_matrix_product_retval< TranspositionType, MatrixType, Side, Transposed > >
Eigen::internal::traits< Transpositions< SizeAtCompileTime, MaxSizeAtCompileTime, IndexType > >
Eigen::internal::traits< TranspositionsWrapper< _IndicesType > >
Eigen::internal::traits< triangular_solve_retval< Side, TriangularType, Rhs > >
Eigen::internal::traits< TriangularProduct< Mode, LhsIsTriangular, Lhs, false, Rhs, false > >
Eigen::internal::traits< TriangularProduct< Mode, LhsIsTriangular, Lhs, false, Rhs, true > >
Eigen::internal::traits< TriangularProduct< Mode, LhsIsTriangular, Lhs, true, Rhs, false > >
Eigen::internal::traits< TriangularView< MatrixType, _Mode > >
Eigen::internal::traits< TridiagonalizationMatrixTReturnType< MatrixType > >
Eigen::internal::traits< VectorBlock< VectorType, Size > >
Eigen::internal::transfer_constness< T1, T2 >
Eigen::Transform< _Scalar, _Dim >Represents an homogeneous transformation in a N dimensional space
Eigen::internal::transform_construct_from_matrix< Other, AffineCompact, Options, Dim, HDim, HDim, HDim >
Eigen::internal::transform_construct_from_matrix< Other, Mode, Options, Dim, HDim, Dim, Dim >
Eigen::internal::transform_construct_from_matrix< Other, Mode, Options, Dim, HDim, Dim, HDim >
Eigen::internal::transform_construct_from_matrix< Other, Mode, Options, Dim, HDim, HDim, HDim >
Eigen::internal::transform_left_product_impl< Other, AffineCompact, Options, Dim, HDim, Dim, HDim >
Eigen::internal::transform_left_product_impl< Other, AffineCompact, Options, Dim, HDim, HDim, HDim >
Eigen::internal::transform_left_product_impl< Other, Mode, Options, Dim, HDim, Dim, Dim >
Eigen::internal::transform_left_product_impl< Other, Mode, Options, Dim, HDim, Dim, HDim >
Eigen::internal::transform_left_product_impl< Other, Mode, Options, Dim, HDim, HDim, HDim >
Eigen::internal::transform_product_result< LhsMode, RhsMode >
Eigen::internal::transform_right_product_impl< TransformType, MatrixType, 0 >
Eigen::internal::transform_right_product_impl< TransformType, MatrixType, 1 >
Eigen::internal::transform_right_product_impl< TransformType, MatrixType, 2 >
Eigen::internal::transform_take_affine_part< TransformType >
Eigen::internal::transform_take_affine_part< Transform< Scalar, Dim, AffineCompact, Options > >
Eigen::internal::transform_traits< Transform >
Eigen::internal::transform_transform_product_impl< Transform< Scalar, Dim, AffineCompact, LhsOptions >, Transform< Scalar, Dim, Projective, RhsOptions >, true >
Eigen::internal::transform_transform_product_impl< Transform< Scalar, Dim, LhsMode, LhsOptions >, Transform< Scalar, Dim, RhsMode, RhsOptions >, false >
Eigen::internal::transform_transform_product_impl< Transform< Scalar, Dim, LhsMode, LhsOptions >, Transform< Scalar, Dim, RhsMode, RhsOptions >, true >
Eigen::internal::transform_transform_product_impl< Transform< Scalar, Dim, Projective, LhsOptions >, Transform< Scalar, Dim, AffineCompact, RhsOptions >, true >
Eigen::Translation< _Scalar, _Dim >Represents a translation transformation
Eigen::Transpose< MatrixType >Expression of the transpose of a matrix
Eigen::Transpose< PermutationBase< Derived > >
Eigen::Transpose< TranspositionsBase< TranspositionsDerived > >
Eigen::TransposeImpl< MatrixType, Dense >
Eigen::TransposeImpl< MatrixType, Sparse >
Eigen::internal::TransposeImpl_base< MatrixType, HasDirectAccess >
Eigen::internal::TransposeImpl_base< MatrixType, false >
Eigen::internal::transposition_matrix_product_retval< TranspositionType, MatrixType, Side, Transposed >
Eigen::Transpositions< SizeAtCompileTime, MaxSizeAtCompileTime, IndexType >Represents a sequence of transpositions (row/column interchange)
Eigen::TranspositionsBase< Derived >
Eigen::TranspositionsWrapper< _IndicesType >
Eigen::internal::triangular_assignment_selector< Derived1, Derived2, Mode, UnrollCount, ClearOpposite >
Eigen::internal::triangular_assignment_selector< Derived1, Derived2, Lower, Dynamic, ClearOpposite >
Eigen::internal::triangular_assignment_selector< Derived1, Derived2, Mode, 0, ClearOpposite >
Eigen::internal::triangular_assignment_selector< Derived1, Derived2, SelfAdjoint|Lower, 0, ClearOpposite >
Eigen::internal::triangular_assignment_selector< Derived1, Derived2, SelfAdjoint|Lower, Dynamic, ClearOpposite >
Eigen::internal::triangular_assignment_selector< Derived1, Derived2, SelfAdjoint|Upper, 0, ClearOpposite >
Eigen::internal::triangular_assignment_selector< Derived1, Derived2, SelfAdjoint|Upper, Dynamic, ClearOpposite >
Eigen::internal::triangular_assignment_selector< Derived1, Derived2, StrictlyLower, Dynamic, ClearOpposite >
Eigen::internal::triangular_assignment_selector< Derived1, Derived2, StrictlyUpper, Dynamic, ClearOpposite >
Eigen::internal::triangular_assignment_selector< Derived1, Derived2, UnitLower, Dynamic, ClearOpposite >
Eigen::internal::triangular_assignment_selector< Derived1, Derived2, UnitUpper, Dynamic, ClearOpposite >
Eigen::internal::triangular_assignment_selector< Derived1, Derived2, Upper, Dynamic, ClearOpposite >
Eigen::internal::triangular_assignment_selector< Derived1, Derived2,(SelfAdjoint|Lower), UnrollCount, ClearOpposite >
Eigen::internal::triangular_assignment_selector< Derived1, Derived2,(SelfAdjoint|Upper), UnrollCount, ClearOpposite >
Eigen::internal::triangular_matrix_vector_product< Index, Mode, LhsScalar, ConjLhs, RhsScalar, ConjRhs, ColMajor, Version >
Eigen::internal::triangular_matrix_vector_product< Index, Mode, LhsScalar, ConjLhs, RhsScalar, ConjRhs, RowMajor, Version >
Eigen::internal::triangular_matrix_vector_product_trmv< Index, Mode, LhsScalar, ConjLhs, RhsScalar, ConjRhs, StorageOrder >
Eigen::internal::triangular_solve_matrix< Scalar, Index, OnTheLeft, Mode, Conjugate, TriStorageOrder, ColMajor >
Eigen::internal::triangular_solve_matrix< Scalar, Index, OnTheRight, Mode, Conjugate, TriStorageOrder, ColMajor >
Eigen::internal::triangular_solve_matrix< Scalar, Index, Side, Mode, Conjugate, TriStorageOrder, RowMajor >
Eigen::internal::triangular_solve_retval< Side, TriangularType, Rhs >
Eigen::internal::triangular_solve_vector< LhsScalar, RhsScalar, Index, OnTheLeft, Mode, Conjugate, ColMajor >
Eigen::internal::triangular_solve_vector< LhsScalar, RhsScalar, Index, OnTheLeft, Mode, Conjugate, RowMajor >
Eigen::internal::triangular_solve_vector< LhsScalar, RhsScalar, Index, OnTheRight, Mode, Conjugate, StorageOrder >
Eigen::internal::triangular_solver_selector< Lhs, Rhs, OnTheLeft, Mode, CompleteUnrolling, 1 >
Eigen::internal::triangular_solver_selector< Lhs, Rhs, OnTheRight, Mode, CompleteUnrolling, 1 >
Eigen::internal::triangular_solver_selector< Lhs, Rhs, Side, Mode, NoUnrolling, 1 >
Eigen::internal::triangular_solver_selector< Lhs, Rhs, Side, Mode, NoUnrolling, Dynamic >
Eigen::internal::triangular_solver_unroller< Lhs, Rhs, Mode, Index, Size, false >
Eigen::internal::triangular_solver_unroller< Lhs, Rhs, Mode, Index, Size, true >
Eigen::TriangularBase< Derived >
Eigen::TriangularProduct< Mode, false, Lhs, true, Rhs, false >
Eigen::TriangularProduct< Mode, LhsIsTriangular, Lhs, false, Rhs, false >
Eigen::TriangularProduct< Mode, true, Lhs, false, Rhs, true >
Eigen::TriangularView< _MatrixType, _Mode >Base class for triangular part in a matrix
Eigen::MatrixBase< Derived >::TriangularViewReturnType< Mode >
Eigen::internal::tribb_kernel< LhsScalar, RhsScalar, Index, mr, nr, ConjLhs, ConjRhs, UpLo >
Eigen::Tridiagonalization< _MatrixType >Tridiagonal decomposition of a selfadjoint matrix
Eigen::internal::tridiagonalization_inplace_selector< MatrixType, Size, IsComplex >
Eigen::internal::tridiagonalization_inplace_selector< MatrixType, 1, IsComplex >
Eigen::internal::tridiagonalization_inplace_selector< MatrixType, 3, false >
Eigen::internal::TridiagonalizationMatrixTReturnType< MatrixType >
Eigen::internal::TridiagonalMatrix< Scalar, Size, Options >Represents a tridiagonal matrix with a compact banded storage
Eigen::Triplet< Scalar, Index >A small structure to hold a non zero as a triplet (i,j,value)
Eigen::internal::trmv_selector< ColMajor >
Eigen::internal::trmv_selector< RowMajor >
Eigen::internal::trsolve_traits< Lhs, Rhs, Side >
Eigen::internal::true_type
type
Eigen::internal::umeyama_transform_matrix_type< MatrixType, OtherMatrixType >
Eigen::UmfPackLU< _MatrixType >A sparse LU factorization and solver based on UmfPack
Eigen::internal::unaligned_assign_impl< IsAligned >
Eigen::internal::unaligned_assign_impl< false >
Eigen::internal::unary_result_of_select< Func, ArgType, SizeOf >
Eigen::internal::unary_result_of_select< Func, ArgType, sizeof(has_std_result_type)>
Eigen::internal::unary_result_of_select< Func, ArgType, sizeof(has_tr1_result)>
Eigen::UniformScaling< _Scalar >
Eigen::internal::unitOrthogonal_selector< Derived, Size >
Eigen::internal::unitOrthogonal_selector< Derived, 2 >
Eigen::internal::unitOrthogonal_selector< Derived, 3 >
Eigen::internal::unpacket_traits< T >
Eigen::internal::unpacket_traits< Packet1cd >
Eigen::internal::unpacket_traits< Packet2cf >
Eigen::internal::unpacket_traits< Packet2d >
Eigen::internal::unpacket_traits< Packet4f >
Eigen::internal::unpacket_traits< Packet4i >
Eigen::ReturnByValue< Derived >::Unusable
Eigen::internal::UpperBidiagonalization< _MatrixType >
Eigen::internal::variable_if_dynamic< T, Value >
Eigen::internal::variable_if_dynamic< T, Dynamic >
std::vector< T, EIGEN_ALIGNED_ALLOCATOR< T > >
Eigen::internal::vector_int_pair< Scalar, Dim >
Eigen::VectorBlock< VectorType, Size >Expression of a fixed-size or dynamic-size sub-vector
Eigen::KdBVH< _Scalar, _Dim, _Object >::VectorComparator
Eigen::VectorwiseOp< ExpressionType, Direction >Pseudo expression providing partial reduction operations
Eigen::internal::visitor_impl< Visitor, Derived, UnrollCount >
Eigen::internal::visitor_impl< Visitor, Derived, 1 >
Eigen::internal::visitor_impl< Visitor, Derived, Dynamic >
Eigen::internal::vml_assign_impl< Derived1, Derived2, UnaryOp, Traversal, Unrolling, VmlTraversal >
Eigen::internal::vml_assign_impl< Derived1, Derived2, UnaryOp, Traversal, Unrolling, InnerVectorizedTraversal >
Eigen::internal::vml_assign_impl< Derived1, Derived2, UnaryOp, Traversal, Unrolling, LinearVectorizedTraversal >
Eigen::internal::vml_assign_traits< Dst, Src, UnaryOp >
Eigen::internal::vml_call< Op >
Eigen::WithFormat< ExpressionType >Pseudo expression providing matrix output with given format


win_eigen
Author(s): Daniel Stonier
autogenerated on Wed Sep 16 2015 07:13:04