Reference documentation for deal.II version 9.4.1
\(\newcommand{\dealvcentcolon}{\mathrel{\mathop{:}}}\) \(\newcommand{\dealcoloneq}{\dealvcentcolon\mathrel{\mkern-1.2mu}=}\) \(\newcommand{\jump}[1]{\left[\!\left[ #1 \right]\!\right]}\) \(\newcommand{\average}[1]{\left\{\!\left\{ #1 \right\}\!\right\}}\)
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LinearAlgebra::VectorSpaceVector< Number > Member List

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

add(const Number a)=0LinearAlgebra::VectorSpaceVector< Number >pure virtual
add(const Number a, const VectorSpaceVector< Number > &V)=0LinearAlgebra::VectorSpaceVector< Number >pure virtual
add(const Number a, const VectorSpaceVector< Number > &V, const Number b, const VectorSpaceVector< Number > &W)=0LinearAlgebra::VectorSpaceVector< Number >pure virtual
add_and_dot(const Number a, const VectorSpaceVector< Number > &V, const VectorSpaceVector< Number > &W)=0LinearAlgebra::VectorSpaceVector< Number >pure virtual
all_zero() const =0LinearAlgebra::VectorSpaceVector< Number >pure virtual
compress(VectorOperation::values)LinearAlgebra::VectorSpaceVector< Number >inlinevirtual
equ(const Number a, const VectorSpaceVector< Number > &V)=0LinearAlgebra::VectorSpaceVector< Number >pure virtual
import(const ReadWriteVector< Number > &V, VectorOperation::values operation, std::shared_ptr< const Utilities::MPI::CommunicationPatternBase > communication_pattern={})=0LinearAlgebra::VectorSpaceVector< Number >pure virtual
l1_norm() const =0LinearAlgebra::VectorSpaceVector< Number >pure virtual
l2_norm() const =0LinearAlgebra::VectorSpaceVector< Number >pure virtual
linfty_norm() const =0LinearAlgebra::VectorSpaceVector< Number >pure virtual
locally_owned_elements() const =0LinearAlgebra::VectorSpaceVector< Number >pure virtual
mean_value() const =0LinearAlgebra::VectorSpaceVector< Number >pure virtual
memory_consumption() const =0LinearAlgebra::VectorSpaceVector< Number >pure virtual
operator*(const VectorSpaceVector< Number > &V) const =0LinearAlgebra::VectorSpaceVector< Number >pure virtual
operator*=(const Number factor)=0LinearAlgebra::VectorSpaceVector< Number >pure virtual
operator+=(const VectorSpaceVector< Number > &V)=0LinearAlgebra::VectorSpaceVector< Number >pure virtual
operator-=(const VectorSpaceVector< Number > &V)=0LinearAlgebra::VectorSpaceVector< Number >pure virtual
operator/=(const Number factor)=0LinearAlgebra::VectorSpaceVector< Number >pure virtual
operator=(const Number s)=0LinearAlgebra::VectorSpaceVector< Number >pure virtual
print(std::ostream &out, const unsigned int precision=3, const bool scientific=true, const bool across=true) const =0LinearAlgebra::VectorSpaceVector< Number >pure virtual
real_type typedefLinearAlgebra::VectorSpaceVector< Number >
reinit(const VectorSpaceVector< Number > &V, const bool omit_zeroing_entries=false)=0LinearAlgebra::VectorSpaceVector< Number >pure virtual
sadd(const Number s, const Number a, const VectorSpaceVector< Number > &V)=0LinearAlgebra::VectorSpaceVector< Number >pure virtual
scale(const VectorSpaceVector< Number > &scaling_factors)=0LinearAlgebra::VectorSpaceVector< Number >pure virtual
size() const =0LinearAlgebra::VectorSpaceVector< Number >pure virtual
size_type typedefLinearAlgebra::VectorSpaceVector< Number >
value_type typedefLinearAlgebra::VectorSpaceVector< Number >
~VectorSpaceVector()=defaultLinearAlgebra::VectorSpaceVector< Number >virtual