Eigen::StaticSGroup< Gen > Class Template Reference

Static symmetry group. More...

#include <StaticSymmetry.h>

Public Member Functions
template<typename Tensor_ >
internal::tensor_symmetry_value_setter< Tensor_, StaticSGroup< Gen... > >	operator() (Tensor_ &tensor, std::array< typename Tensor_::Index, Tensor_::NumIndices > const &indices) const
template<typename Tensor_ , typename... IndexTypes>
internal::tensor_symmetry_value_setter< Tensor_, StaticSGroup< Gen... > >	operator() (Tensor_ &tensor, typename Tensor_::Index firstIndex, IndexTypes... otherIndices) const
constexpr	StaticSGroup ()
constexpr	StaticSGroup (const StaticSGroup< Gen... > &)
constexpr	StaticSGroup (StaticSGroup< Gen... > &&)

Static Public Member Functions
template<typename Op , typename RV , typename Index , std::size_t N, typename... Args>
static RV	apply (const std::array< Index, N > &idx, RV initial, Args &&... args)
template<typename Op , typename RV , typename Index , typename... Args>
static RV	apply (const std::vector< Index > &idx, RV initial, Args &&... args)
constexpr static int	globalFlags ()
constexpr static std::size_t	size ()

Static Public Attributes
constexpr static std::size_t	static_size = ge::count

Private Types
typedef group_elements::type	ge
typedef internal::group_theory::enumerate_group_elements< internal::tensor_static_symgroup_multiply, internal::tensor_static_symgroup_equality, typename internal::tensor_static_symgroup_identity_ctor< NumIndices >::type, internal::type_list< typename internal::tensor_static_symgroup_element_ctor< Gen, NumIndices >::type... > >	group_elements

Static Private Attributes
constexpr static std::size_t	NumIndices = internal::tensor_symmetry_num_indices<Gen...>::value

Detailed Description

template<typename... Gen>
class Eigen::StaticSGroup< Gen >

Static symmetry group.

This class represents a symmetry group that is known and resolved completely at compile time. Ideally, no run-time penalty is incurred compared to the manual unrolling of the symmetry.

CAUTION:

Do not use this class directly for large symmetry groups. The compiler may run into a limit, or segfault or in the very least will take a very, very, very long time to compile the code. Use the SGroup class instead if you want a static group. That class contains logic that will automatically select the DynamicSGroup class instead if the symmetry group becomes too large. (In that case, unrolling may not even be beneficial.)

Definition at line 181 of file StaticSymmetry.h.

Member Typedef Documentation

ge

template<typename... Gen>

typedef group_elements::type Eigen::StaticSGroup< Gen >::ge

private

Definition at line 190 of file StaticSymmetry.h.

group_elements

template<typename... Gen>

typedef internal::group_theory::enumerate_group_elements< internal::tensor_static_symgroup_multiply, internal::tensor_static_symgroup_equality, typename internal::tensor_static_symgroup_identity_ctor<NumIndices>::type, internal::type_list<typename internal::tensor_static_symgroup_element_ctor<Gen, NumIndices>::type...> > Eigen::StaticSGroup< Gen >::group_elements

private

Definition at line 189 of file StaticSymmetry.h.

Constructor & Destructor Documentation

StaticSGroup() [1/3]

template<typename... Gen>

constexpr Eigen::StaticSGroup< Gen >::StaticSGroup ( )

inlineconstexpr

Definition at line 192 of file StaticSymmetry.h.

StaticSGroup() [2/3]

template<typename... Gen>

constexpr Eigen::StaticSGroup< Gen >::StaticSGroup ( const StaticSGroup< Gen... > &  )

inlineconstexpr

Definition at line 193 of file StaticSymmetry.h.

StaticSGroup() [3/3]

template<typename... Gen>

constexpr Eigen::StaticSGroup< Gen >::StaticSGroup ( StaticSGroup< Gen... > &&  )

inlineconstexpr

Definition at line 194 of file StaticSymmetry.h.

Member Function Documentation

apply() [1/2]

template<typename... Gen>

template<typename Op , typename RV , typename Index , std::size_t N, typename... Args>

static RV Eigen::StaticSGroup< Gen >::apply ( const std::array< Index, N > &  idx, RV  initial, Args &&...  args  )

inlinestatic

Definition at line 197 of file StaticSymmetry.h.

apply() [2/2]

template<typename... Gen>

template<typename Op , typename RV , typename Index , typename... Args>

static RV Eigen::StaticSGroup< Gen >::apply ( const std::vector< Index > &  idx, RV  initial, Args &&...  args  )

inlinestatic

Definition at line 203 of file StaticSymmetry.h.

globalFlags()

template<typename... Gen>

constexpr static int Eigen::StaticSGroup< Gen >::globalFlags ( )

inlinestaticconstexpr

Definition at line 214 of file StaticSymmetry.h.

operator()() [1/2]

template<typename... Gen>

template<typename Tensor_ >

internal::tensor_symmetry_value_setter<Tensor_, StaticSGroup<Gen...> > Eigen::StaticSGroup< Gen >::operator() ( Tensor_ &  tensor, std::array< typename Tensor_::Index, Tensor_::NumIndices > const &  indices  ) const

inline

Definition at line 224 of file StaticSymmetry.h.

operator()() [2/2]

template<typename... Gen>

template<typename Tensor_ , typename... IndexTypes>

internal::tensor_symmetry_value_setter<Tensor_, StaticSGroup<Gen...> > Eigen::StaticSGroup< Gen >::operator() ( Tensor_ &  tensor, typename Tensor_::Index  firstIndex, IndexTypes...  otherIndices  ) const

inline

Definition at line 217 of file StaticSymmetry.h.

size()

template<typename... Gen>

constexpr static std::size_t Eigen::StaticSGroup< Gen >::size ( )

inlinestaticconstexpr

Definition at line 211 of file StaticSymmetry.h.

Member Data Documentation

NumIndices

template<typename... Gen>

constexpr static std::size_t Eigen::StaticSGroup< Gen >::NumIndices = internal::tensor_symmetry_num_indices<Gen...>::value

staticconstexprprivate

Definition at line 183 of file StaticSymmetry.h.

static_size

template<typename... Gen>

constexpr static std::size_t Eigen::StaticSGroup< Gen >::static_size = ge::count

staticconstexpr

Definition at line 209 of file StaticSymmetry.h.

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The documentation for this class was generated from the following file:

• StaticSymmetry.h