Blaze 3.9
blaze::HybridMatrix< Type, M, N, SO, AF, PF, Tag > Member List

This is the complete list of members for blaze::HybridMatrix< Type, M, N, SO, AF, PF, Tag >, including all inherited members.

addAssign(const DenseMatrix< MT, SO2 > &rhs) -> DisableIf_t< VectorizedAddAssign_v< MT > >blaze::HybridMatrix< Type, M, N, SO, AF, PF, Tag >inline
addAssign(const DenseMatrix< MT, SO2 > &rhs) -> EnableIf_t< VectorizedAddAssign_v< MT > > (defined in blaze::HybridMatrix< Type, M, N, SO, AF, PF, Tag >)blaze::HybridMatrix< Type, M, N, SO, AF, PF, Tag >inline
addAssign(const SparseMatrix< MT, SO > &rhs)blaze::HybridMatrix< Type, M, N, SO, AF, PF, Tag >inline
addAssign(const SparseMatrix< MT,!SO > &rhs)blaze::HybridMatrix< Type, M, N, SO, AF, PF, Tag >inline
AlignedStorage typedefblaze::HybridMatrix< Type, M, N, SO, AF, PF, Tag >private
Alignmentblaze::HybridMatrix< Type, M, N, SO, AF, PF, Tag >privatestatic
assign(const DenseMatrix< MT, SO2 > &rhs) -> DisableIf_t< VectorizedAssign_v< MT > >blaze::HybridMatrix< Type, M, N, SO, AF, PF, Tag >inline
assign(const DenseMatrix< MT, SO2 > &rhs) -> EnableIf_t< VectorizedAssign_v< MT > > (defined in blaze::HybridMatrix< Type, M, N, SO, AF, PF, Tag >)blaze::HybridMatrix< Type, M, N, SO, AF, PF, Tag >inline
assign(const SparseMatrix< MT, SO > &rhs)blaze::HybridMatrix< Type, M, N, SO, AF, PF, Tag >inline
assign(const SparseMatrix< MT,!SO > &rhs)blaze::HybridMatrix< Type, M, N, SO, AF, PF, Tag >inline
at(size_t i, size_t j)blaze::HybridMatrix< Type, M, N, SO, AF, PF, Tag >inline
at(size_t i, size_t j) constblaze::HybridMatrix< Type, M, N, SO, AF, PF, Tag >inline
BaseType typedefblaze::HybridMatrix< Type, M, N, SO, AF, PF, Tag >
begin(size_t i) noexceptblaze::HybridMatrix< Type, M, N, SO, AF, PF, Tag >
begin(size_t i) const noexceptblaze::HybridMatrix< Type, M, N, SO, AF, PF, Tag >
canAlias(const Other *alias) const noexceptblaze::HybridMatrix< Type, M, N, SO, AF, PF, Tag >inline
capacity() noexceptblaze::HybridMatrix< Type, M, N, SO, AF, PF, Tag >static
capacity(size_t i) const noexceptblaze::HybridMatrix< Type, M, N, SO, AF, PF, Tag >
cbegin(size_t i) const noexceptblaze::HybridMatrix< Type, M, N, SO, AF, PF, Tag >
cend(size_t i) const noexceptblaze::HybridMatrix< Type, M, N, SO, AF, PF, Tag >
clear()blaze::HybridMatrix< Type, M, N, SO, AF, PF, Tag >
columns() const noexceptblaze::HybridMatrix< Type, M, N, SO, AF, PF, Tag >
CompositeType typedefblaze::HybridMatrix< Type, M, N, SO, AF, PF, Tag >
ConstIterator typedefblaze::HybridMatrix< Type, M, N, SO, AF, PF, Tag >
ConstPointer typedefblaze::HybridMatrix< Type, M, N, SO, AF, PF, Tag >
ConstReference typedefblaze::HybridMatrix< Type, M, N, SO, AF, PF, Tag >
ctranspose()blaze::HybridMatrix< Type, M, N, SO, AF, PF, Tag >inline
data() noexceptblaze::HybridMatrix< Type, M, N, SO, AF, PF, Tag >
data() const noexceptblaze::HybridMatrix< Type, M, N, SO, AF, PF, Tag >
data(size_t i) noexceptblaze::HybridMatrix< Type, M, N, SO, AF, PF, Tag >
data(size_t i) const noexceptblaze::HybridMatrix< Type, M, N, SO, AF, PF, Tag >
ElementType typedefblaze::HybridMatrix< Type, M, N, SO, AF, PF, Tag >
end(size_t i) noexceptblaze::HybridMatrix< Type, M, N, SO, AF, PF, Tag >
end(size_t i) const noexceptblaze::HybridMatrix< Type, M, N, SO, AF, PF, Tag >
extend(size_t m, size_t n, bool preserve=true)blaze::HybridMatrix< Type, M, N, SO, AF, PF, Tag >
HybridMatrix()blaze::HybridMatrix< Type, M, N, SO, AF, PF, Tag >
HybridMatrix(size_t m, size_t n)blaze::HybridMatrix< Type, M, N, SO, AF, PF, Tag >
HybridMatrix(size_t m, size_t n, const Type &init)blaze::HybridMatrix< Type, M, N, SO, AF, PF, Tag >inline
HybridMatrix(initializer_list< initializer_list< Type > > list)blaze::HybridMatrix< Type, M, N, SO, AF, PF, Tag >
HybridMatrix(size_t m, size_t n, const Other *array)blaze::HybridMatrix< Type, M, N, SO, AF, PF, Tag >inline
HybridMatrix(const Other(&array)[Rows][Cols])blaze::HybridMatrix< Type, M, N, SO, AF, PF, Tag >inline
HybridMatrix(const std::array< std::array< Other, Cols >, Rows > &array)blaze::HybridMatrix< Type, M, N, SO, AF, PF, Tag >inline
HybridMatrix(const HybridMatrix &m)blaze::HybridMatrix< Type, M, N, SO, AF, PF, Tag >
HybridMatrix(const Matrix< MT, SO2 > &m)blaze::HybridMatrix< Type, M, N, SO, AF, PF, Tag >inline
isAliased(const Other *alias) const noexceptblaze::HybridMatrix< Type, M, N, SO, AF, PF, Tag >inline
isAligned() noexceptblaze::HybridMatrix< Type, M, N, SO, AF, PF, Tag >static
isIntact() const noexceptblaze::HybridMatrix< Type, M, N, SO, AF, PF, Tag >
Iterator typedefblaze::HybridMatrix< Type, M, N, SO, AF, PF, Tag >
load(size_t i, size_t j) const noexceptblaze::HybridMatrix< Type, M, N, SO, AF, PF, Tag >
loada(size_t i, size_t j) const noexceptblaze::HybridMatrix< Type, M, N, SO, AF, PF, Tag >
loadu(size_t i, size_t j) const noexceptblaze::HybridMatrix< Type, M, N, SO, AF, PF, Tag >
m_blaze::HybridMatrix< Type, M, N, SO, AF, PF, Tag >private
MatrixType typedefblaze::Matrix< HybridMatrix< Type, M, N, SO, AF, PF, Tag >, SO >
n_blaze::HybridMatrix< Type, M, N, SO, AF, PF, Tag >private
NNblaze::HybridMatrix< Type, M, N, SO, AF, PF, Tag >privatestatic
nonZeros() constblaze::HybridMatrix< Type, M, N, SO, AF, PF, Tag >inline
nonZeros(size_t i) constblaze::HybridMatrix< Type, M, N, SO, AF, PF, Tag >inline
operator delete(void *ptr)blaze::HybridMatrix< Type, M, N, SO, AF, PF, Tag >inlinestatic
operator delete(void *ptr, const std::nothrow_t &)blaze::HybridMatrix< Type, M, N, SO, AF, PF, Tag >inlinestatic
operator delete[](void *ptr)blaze::HybridMatrix< Type, M, N, SO, AF, PF, Tag >inlinestatic
operator delete[](void *ptr, const std::nothrow_t &)blaze::HybridMatrix< Type, M, N, SO, AF, PF, Tag >inlinestatic
operator new(std::size_t size)blaze::HybridMatrix< Type, M, N, SO, AF, PF, Tag >inlinestatic
operator new(std::size_t size, const std::nothrow_t &)blaze::HybridMatrix< Type, M, N, SO, AF, PF, Tag >inlinestatic
operator new[](std::size_t size)blaze::HybridMatrix< Type, M, N, SO, AF, PF, Tag >inlinestatic
operator new[](std::size_t size, const std::nothrow_t &)blaze::HybridMatrix< Type, M, N, SO, AF, PF, Tag >inlinestatic
operator%=(const Matrix< MT, SO2 > &rhs) & (defined in blaze::HybridMatrix< Type, M, N, SO, AF, PF, Tag >)blaze::HybridMatrix< Type, M, N, SO, AF, PF, Tag >inline
operator%=(const Matrix< MT, SO2 > &rhs) &blaze::HybridMatrix< Type, M, N, SO, AF, PF, Tag >inline
operator()(size_t i, size_t j) noexceptblaze::HybridMatrix< Type, M, N, SO, AF, PF, Tag >
operator()(size_t i, size_t j) const noexceptblaze::HybridMatrix< Type, M, N, SO, AF, PF, Tag >
operator*() noexceptblaze::Matrix< HybridMatrix< Type, M, N, SO, AF, PF, Tag >, SO >
operator*() const noexceptblaze::Matrix< HybridMatrix< Type, M, N, SO, AF, PF, Tag >, SO >
operator+=(const Matrix< MT, SO2 > &rhs) & (defined in blaze::HybridMatrix< Type, M, N, SO, AF, PF, Tag >)blaze::HybridMatrix< Type, M, N, SO, AF, PF, Tag >inline
operator+=(const Matrix< MT, SO2 > &rhs) &blaze::HybridMatrix< Type, M, N, SO, AF, PF, Tag >inline
operator-=(const Matrix< MT, SO2 > &rhs) & (defined in blaze::HybridMatrix< Type, M, N, SO, AF, PF, Tag >)blaze::HybridMatrix< Type, M, N, SO, AF, PF, Tag >inline
operator-=(const Matrix< MT, SO2 > &rhs) &blaze::HybridMatrix< Type, M, N, SO, AF, PF, Tag >inline
operator=(const Type &set) &blaze::HybridMatrix< Type, M, N, SO, AF, PF, Tag >
operator=(initializer_list< initializer_list< Type > > list) &blaze::HybridMatrix< Type, M, N, SO, AF, PF, Tag >
operator=(const Other(&array)[Rows][Cols]) & (defined in blaze::HybridMatrix< Type, M, N, SO, AF, PF, Tag >)blaze::HybridMatrix< Type, M, N, SO, AF, PF, Tag >
operator=(const std::array< std::array< Other, Cols >, Rows > &array) & (defined in blaze::HybridMatrix< Type, M, N, SO, AF, PF, Tag >)blaze::HybridMatrix< Type, M, N, SO, AF, PF, Tag >
operator=(const HybridMatrix &rhs) &blaze::HybridMatrix< Type, M, N, SO, AF, PF, Tag >
operator=(const Matrix< MT, SO2 > &rhs) & (defined in blaze::HybridMatrix< Type, M, N, SO, AF, PF, Tag >)blaze::HybridMatrix< Type, M, N, SO, AF, PF, Tag >inline
operator=(const Other(&array)[Rows][Cols]) &blaze::HybridMatrix< Type, M, N, SO, AF, PF, Tag >
operator=(const std::array< std::array< Other, Cols >, Rows > &array) &blaze::HybridMatrix< Type, M, N, SO, AF, PF, Tag >
operator=(const Matrix< MT, SO2 > &rhs) &blaze::HybridMatrix< Type, M, N, SO, AF, PF, Tag >inline
operator~() noexceptblaze::Matrix< HybridMatrix< Type, M, N, SO, AF, PF, Tag >, SO >
operator~() const noexceptblaze::Matrix< HybridMatrix< Type, M, N, SO, AF, PF, Tag >, SO >
OppositeType typedefblaze::HybridMatrix< Type, M, N, SO, AF, PF, Tag >
Pointer typedefblaze::HybridMatrix< Type, M, N, SO, AF, PF, Tag >
Reference typedefblaze::HybridMatrix< Type, M, N, SO, AF, PF, Tag >
reset()blaze::HybridMatrix< Type, M, N, SO, AF, PF, Tag >
reset(size_t i)blaze::HybridMatrix< Type, M, N, SO, AF, PF, Tag >
resize(size_t m, size_t n, bool preserve=true)blaze::HybridMatrix< Type, M, N, SO, AF, PF, Tag >
ResultType typedefblaze::HybridMatrix< Type, M, N, SO, AF, PF, Tag >
ReturnType typedefblaze::HybridMatrix< Type, M, N, SO, AF, PF, Tag >
rows() const noexceptblaze::HybridMatrix< Type, M, N, SO, AF, PF, Tag >
scale(const Other &scalar) (defined in blaze::HybridMatrix< Type, M, N, SO, AF, PF, Tag >)blaze::HybridMatrix< Type, M, N, SO, AF, PF, Tag >inline
scale(const Other &scalar)blaze::HybridMatrix< Type, M, N, SO, AF, PF, Tag >inline
schurAssign(const DenseMatrix< MT, SO2 > &rhs) -> DisableIf_t< VectorizedSchurAssign_v< MT > >blaze::HybridMatrix< Type, M, N, SO, AF, PF, Tag >inline
schurAssign(const DenseMatrix< MT, SO2 > &rhs) -> EnableIf_t< VectorizedSchurAssign_v< MT > > (defined in blaze::HybridMatrix< Type, M, N, SO, AF, PF, Tag >)blaze::HybridMatrix< Type, M, N, SO, AF, PF, Tag >inline
schurAssign(const SparseMatrix< MT, SO > &rhs)blaze::HybridMatrix< Type, M, N, SO, AF, PF, Tag >inline
schurAssign(const SparseMatrix< MT,!SO > &rhs)blaze::HybridMatrix< Type, M, N, SO, AF, PF, Tag >inline
simdEnabledblaze::HybridMatrix< Type, M, N, SO, AF, PF, Tag >static
SIMDSIZEblaze::HybridMatrix< Type, M, N, SO, AF, PF, Tag >privatestatic
SIMDType typedefblaze::HybridMatrix< Type, M, N, SO, AF, PF, Tag >
smpAssignableblaze::HybridMatrix< Type, M, N, SO, AF, PF, Tag >static
spacing() noexceptblaze::HybridMatrix< Type, M, N, SO, AF, PF, Tag >static
storageOrderblaze::Matrix< HybridMatrix< Type, M, N, SO, AF, PF, Tag >, SO >static
store(size_t i, size_t j, const SIMDType &value) noexceptblaze::HybridMatrix< Type, M, N, SO, AF, PF, Tag >
storea(size_t i, size_t j, const SIMDType &value) noexceptblaze::HybridMatrix< Type, M, N, SO, AF, PF, Tag >
storeu(size_t i, size_t j, const SIMDType &value) noexceptblaze::HybridMatrix< Type, M, N, SO, AF, PF, Tag >
stream(size_t i, size_t j, const SIMDType &value) noexceptblaze::HybridMatrix< Type, M, N, SO, AF, PF, Tag >
subAssign(const DenseMatrix< MT, SO2 > &rhs) -> DisableIf_t< VectorizedSubAssign_v< MT > >blaze::HybridMatrix< Type, M, N, SO, AF, PF, Tag >inline
subAssign(const DenseMatrix< MT, SO2 > &rhs) -> EnableIf_t< VectorizedSubAssign_v< MT > > (defined in blaze::HybridMatrix< Type, M, N, SO, AF, PF, Tag >)blaze::HybridMatrix< Type, M, N, SO, AF, PF, Tag >inline
subAssign(const SparseMatrix< MT, SO > &rhs)blaze::HybridMatrix< Type, M, N, SO, AF, PF, Tag >inline
subAssign(const SparseMatrix< MT,!SO > &rhs)blaze::HybridMatrix< Type, M, N, SO, AF, PF, Tag >inline
swap(HybridMatrix &m) noexceptblaze::HybridMatrix< Type, M, N, SO, AF, PF, Tag >inline
TagType typedefblaze::HybridMatrix< Type, M, N, SO, AF, PF, Tag >
This typedefblaze::HybridMatrix< Type, M, N, SO, AF, PF, Tag >
transpose()blaze::HybridMatrix< Type, M, N, SO, AF, PF, Tag >inline
TransposeType typedefblaze::HybridMatrix< Type, M, N, SO, AF, PF, Tag >
v_blaze::HybridMatrix< Type, M, N, SO, AF, PF, Tag >private
~HybridMatrix()=default (defined in blaze::HybridMatrix< Type, M, N, SO, AF, PF, Tag >)blaze::HybridMatrix< Type, M, N, SO, AF, PF, Tag >