Reference documentation for deal.II version 9.0.0
LinearAlgebra::distributed::BlockVector< Number > Member List

This is the complete list of members for LinearAlgebra::distributed::BlockVector< Number >, including all inherited members.

add(const std::vector< size_type > &indices, const ::Vector< OtherNumber > &values)LinearAlgebra::distributed::BlockVector< Number >
add(const Number a) overrideLinearAlgebra::distributed::BlockVector< Number >virtual
add(const Number a, const VectorSpaceVector< Number > &V) overrideLinearAlgebra::distributed::BlockVector< Number >virtual
add(const Number a, const VectorSpaceVector< Number > &V, const Number b, const VectorSpaceVector< Number > &W) overrideLinearAlgebra::distributed::BlockVector< Number >virtual
add(const std::vector< size_type > &indices, const std::vector< Number > &values)LinearAlgebra::distributed::BlockVector< Number >virtual
BlockVectorBase< Vector< Number > >::add(const std::vector< size_type > &indices, const Vector< Number > &values)BlockVectorBase< Vector< Number > >
BlockVectorBase< Vector< Number > >::add(const size_type n_elements, const size_type *indices, const Number *values)BlockVectorBase< Vector< Number > >
BlockVectorBase< Vector< Number > >::add(const value_type s)BlockVectorBase< Vector< Number > >
BlockVectorBase< Vector< Number > >::add(const value_type a, const BlockVectorBase &V)BlockVectorBase< Vector< Number > >
BlockVectorBase< Vector< Number > >::add(const value_type a, const BlockVectorBase &V, const value_type b, const BlockVectorBase &W)BlockVectorBase< Vector< Number > >
add_and_dot(const Number a, const VectorSpaceVector< Number > &V, const VectorSpaceVector< Number > &W) overrideLinearAlgebra::distributed::BlockVector< Number >virtual
BlockVectorBase< Vector< Number > >::add_and_dot(const value_type a, const BlockVectorBase &V, const BlockVectorBase &W)BlockVectorBase< Vector< Number > >
all_zero() const overrideLinearAlgebra::distributed::BlockVector< Number >virtual
BaseClass typedefLinearAlgebra::distributed::BlockVector< Number >
begin()BlockVectorBase< Vector< Number > >
begin() constBlockVectorBase< Vector< Number > >
block(const unsigned int i)BlockVectorBase< Vector< Number > >
block(const unsigned int i) constBlockVectorBase< Vector< Number > >
block_indicesBlockVectorBase< Vector< Number > >protected
BlockType typedefLinearAlgebra::distributed::BlockVector< Number >
BlockVector(const size_type num_blocks=0, const size_type block_size=0)LinearAlgebra::distributed::BlockVector< Number >explicit
BlockVector(const BlockVector< Number > &V)LinearAlgebra::distributed::BlockVector< Number >
BlockVector(const BlockVector< OtherNumber > &v)LinearAlgebra::distributed::BlockVector< Number >explicit
BlockVector(const std::vector< size_type > &block_sizes)LinearAlgebra::distributed::BlockVector< Number >
BlockVector(const std::vector< IndexSet > &local_ranges, const std::vector< IndexSet > &ghost_indices, const MPI_Comm communicator)LinearAlgebra::distributed::BlockVector< Number >
BlockVector(const std::vector< IndexSet > &local_ranges, const MPI_Comm communicator)LinearAlgebra::distributed::BlockVector< Number >
BlockVectorBase()=defaultBlockVectorBase< Vector< Number > >
BlockVectorBase(const BlockVectorBase &)=defaultBlockVectorBase< Vector< Number > >
BlockVectorBase(BlockVectorBase &&) noexcept=defaultBlockVectorBase< Vector< Number > >
collect_sizes()BlockVectorBase< Vector< Number > >
communication_block_sizeLinearAlgebra::distributed::BlockVector< Number >privatestatic
componentsBlockVectorBase< Vector< Number > >protected
compress(::VectorOperation::values operation) overrideLinearAlgebra::distributed::BlockVector< Number >virtual
LinearAlgebra::VectorSpaceVector::compress(VectorOperation::values)LinearAlgebra::VectorSpaceVector< Number >inlinevirtual
end()BlockVectorBase< Vector< Number > >
end() constBlockVectorBase< Vector< Number > >
equ(const Number a, const BlockVector< Number > &u, const Number b, const BlockVector< Number > &v)LinearAlgebra::distributed::BlockVector< Number >
equ(const Number a, const VectorSpaceVector< Number > &V) overrideLinearAlgebra::distributed::BlockVector< Number >virtual
BlockVectorBase< Vector< Number > >::equ(const value_type a, const BlockVector2 &V)BlockVectorBase< Vector< Number > >
BlockVectorBase< Vector< Number > >::equ(const value_type a, const BlockVectorBase &V, const value_type b, const BlockVectorBase &W)BlockVectorBase< Vector< Number > >
ExcInUse(int arg1, std::string arg2, std::string arg3)Subscriptorstatic
ExcIteratorRangeDoesNotMatchVectorSize()LinearAlgebra::distributed::BlockVector< Number >static
ExcNoSubscriber(std::string arg1, std::string arg2)Subscriptorstatic
ExcVectorTypeNotCompatible()LinearAlgebra::distributed::BlockVector< Number >static
extract_subvector_to(const std::vector< size_type > &indices, std::vector< OtherNumber > &values) constBlockVectorBase< Vector< Number > >
extract_subvector_to(ForwardIterator indices_begin, const ForwardIterator indices_end, OutputIterator values_begin) constBlockVectorBase< Vector< Number > >
get_block_indices() constBlockVectorBase< Vector< Number > >
has_ghost_elements() constLinearAlgebra::distributed::BlockVector< Number >
import(const LinearAlgebra::ReadWriteVector< Number > &V, VectorOperation::values operation, std::shared_ptr< const CommunicationPatternBase > communication_pattern=std::shared_ptr< const CommunicationPatternBase >()) overrideLinearAlgebra::distributed::BlockVector< Number >virtual
in_local_range(const size_type global_index) constBlockVectorBase< Vector< Number > >
is_non_negative() constBlockVectorBase< Vector< Number > >
l1_norm() const overrideLinearAlgebra::distributed::BlockVector< Number >virtual
l2_norm() const overrideLinearAlgebra::distributed::BlockVector< Number >virtual
linfty_norm() const overrideLinearAlgebra::distributed::BlockVector< Number >virtual
list_subscribers() constSubscriptor
locally_owned_elements() const overrideLinearAlgebra::distributed::BlockVector< Number >virtual
lp_norm(const real_type p) constLinearAlgebra::distributed::BlockVector< Number >
mean_value() const overrideLinearAlgebra::distributed::BlockVector< Number >virtual
memory_consumption() const overrideLinearAlgebra::distributed::BlockVector< Number >virtual
mmult(BlockVector< Number > &V, const FullMatrixType &matrix, const Number s=Number(0.), const Number b=Number(1.)) constLinearAlgebra::distributed::BlockVector< Number >
multivector_inner_product(FullMatrixType &matrix, const BlockVector< Number > &V, const bool symmetric=false) constLinearAlgebra::distributed::BlockVector< Number >
multivector_inner_product_with_metric(const FullMatrixType &matrix, const BlockVector< Number > &V, const bool symmetric=false) constLinearAlgebra::distributed::BlockVector< Number >
n_blocks() constBlockVectorBase< Vector< Number > >
n_subscriptions() constSubscriptor
norm_sqr() constLinearAlgebra::distributed::BlockVector< Number >
operator()(const size_type i) constBlockVectorBase< Vector< Number > >
operator()(const size_type i)BlockVectorBase< Vector< Number > >
operator*(const VectorSpaceVector< Number > &V) const overrideLinearAlgebra::distributed::BlockVector< Number >virtual
BlockVectorBase< Vector< Number > >::operator*(const BlockVectorBase &V) constBlockVectorBase< Vector< Number > >
operator*=(const Number factor) overrideLinearAlgebra::distributed::BlockVector< Number >virtual
BlockVectorBase< Vector< Number > >::operator*=(const value_type factor)BlockVectorBase< Vector< Number > >
operator+=(const VectorSpaceVector< Number > &V) overrideLinearAlgebra::distributed::BlockVector< Number >virtual
BlockVectorBase< Vector< Number > >::operator+=(const BlockVectorBase &V)BlockVectorBase< Vector< Number > >
operator-=(const VectorSpaceVector< Number > &V) overrideLinearAlgebra::distributed::BlockVector< Number >virtual
BlockVectorBase< Vector< Number > >::operator-=(const BlockVectorBase &V)BlockVectorBase< Vector< Number > >
operator/=(const Number factor) overrideLinearAlgebra::distributed::BlockVector< Number >virtual
BlockVectorBase< Vector< Number > >::operator/=(const value_type factor)BlockVectorBase< Vector< Number > >
operator=(const value_type s) overrideLinearAlgebra::distributed::BlockVector< Number >virtual
operator=(const BlockVector &V)LinearAlgebra::distributed::BlockVector< Number >
operator=(const BlockVector< Number2 > &V)LinearAlgebra::distributed::BlockVector< Number >
operator=(const Vector< Number > &V)LinearAlgebra::distributed::BlockVector< Number >
operator=(const PETScWrappers::MPI::BlockVector &petsc_vec)LinearAlgebra::distributed::BlockVector< Number >
operator=(const TrilinosWrappers::MPI::BlockVector &trilinos_vec)LinearAlgebra::distributed::BlockVector< Number >
BlockVectorBase< Vector< Number > >::operator=(const BlockVectorBase &V)BlockVectorBase< Vector< Number > >
BlockVectorBase< Vector< Number > >::operator=(BlockVectorBase &&)=defaultBlockVectorBase< Vector< Number > >
BlockVectorBase< Vector< Number > >::operator=(const BlockVectorBase< VectorType2 > &V)BlockVectorBase< Vector< Number > >
BlockVectorBase< Vector< Number > >::Subscriptor::operator=(const Subscriptor &)Subscriptor
BlockVectorBase< Vector< Number > >::Subscriptor::operator=(Subscriptor &&) noexceptSubscriptor
LinearAlgebra::VectorSpaceVector::operator=(const Number s)=0LinearAlgebra::VectorSpaceVector< Number >pure virtual
operator==(const BlockVectorBase< VectorType2 > &v) constBlockVectorBase< Vector< Number > >
operator[](const size_type i) constBlockVectorBase< Vector< Number > >
operator[](const size_type i)BlockVectorBase< Vector< Number > >
print(std::ostream &out, const unsigned int precision=3, const bool scientific=true, const bool across=true) const overrideLinearAlgebra::distributed::BlockVector< Number >virtual
reinit(const size_type num_blocks, const size_type block_size=0, const bool omit_zeroing_entries=false)LinearAlgebra::distributed::BlockVector< Number >
reinit(const std::vector< size_type > &N, const bool omit_zeroing_entries=false)LinearAlgebra::distributed::BlockVector< Number >
reinit(const BlockVector< Number2 > &V, const bool omit_zeroing_entries=false)LinearAlgebra::distributed::BlockVector< Number >
reinit(const VectorSpaceVector< Number > &V, const bool omit_zeroing_entries=false) overrideLinearAlgebra::distributed::BlockVector< Number >virtual
sadd(const Number s, const BlockVector< Number > &V)LinearAlgebra::distributed::BlockVector< Number >
sadd(const Number s, const Number a, const BlockVector< Number > &V, const Number b, const BlockVector< Number > &W)LinearAlgebra::distributed::BlockVector< Number >
sadd(const Number s, const Number a, const VectorSpaceVector< Number > &V) overrideLinearAlgebra::distributed::BlockVector< Number >virtual
BlockVectorBase< Vector< Number > >::sadd(const value_type s, const BlockVectorBase &V)BlockVectorBase< Vector< Number > >
BlockVectorBase< Vector< Number > >::sadd(const value_type s, const value_type a, const BlockVectorBase &V)BlockVectorBase< Vector< Number > >
BlockVectorBase< Vector< Number > >::sadd(const value_type s, const value_type a, const BlockVectorBase &V, const value_type b, const BlockVectorBase &W)BlockVectorBase< Vector< Number > >
BlockVectorBase< Vector< Number > >::sadd(const value_type s, const value_type a, const BlockVectorBase &V, const value_type b, const BlockVectorBase &W, const value_type c, const BlockVectorBase &X)BlockVectorBase< Vector< Number > >
scale(const VectorSpaceVector< Number > &scaling_factors) overrideLinearAlgebra::distributed::BlockVector< Number >virtual
BlockVectorBase< Vector< Number > >::scale(const BlockVector2 &v)BlockVectorBase< Vector< Number > >
serialize(Archive &ar, const unsigned int version)Subscriptorinline
size() const overrideLinearAlgebra::distributed::BlockVector< Number >virtual
subscribe(const char *identifier=nullptr) constSubscriptor
Subscriptor()Subscriptor
Subscriptor(const Subscriptor &)Subscriptor
Subscriptor(Subscriptor &&) noexceptSubscriptor
swap(BlockVector< Number > &v)LinearAlgebra::distributed::BlockVector< Number >
unsubscribe(const char *identifier=nullptr) constSubscriptor
update_ghost_values() constLinearAlgebra::distributed::BlockVector< Number >
value_type typedefLinearAlgebra::distributed::BlockVector< Number >
zero_out_ghosts() constLinearAlgebra::distributed::BlockVector< Number >
~Subscriptor()Subscriptorvirtual
~VectorSpaceVector()=defaultLinearAlgebra::VectorSpaceVector< Number >virtual