Reference documentation for deal.II version 9.1.1
\(\newcommand{\dealcoloneq}{\mathrel{\vcenter{:}}=}\)
Public Types | Public Member Functions | Protected Member Functions | Protected Attributes | Friends | Related Functions | List of all members
PETScWrappers::VectorBase Class Reference

#include <deal.II/lac/petsc_vector_base.h>

Inheritance diagram for PETScWrappers::VectorBase:
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Public Types

using value_type = PetscScalar
 

Public Member Functions

 VectorBase ()
 
 VectorBase (const VectorBase &v)
 
 VectorBase (const Vec &v)
 
VectorBaseoperator= (const VectorBase &)=delete
 
virtual ~VectorBase () override
 
virtual void clear ()
 
void compress (const VectorOperation::values operation)
 
VectorBaseoperator= (const PetscScalar s)
 
bool operator== (const VectorBase &v) const
 
bool operator!= (const VectorBase &v) const
 
size_type size () const
 
size_type local_size () const
 
std::pair< size_type, size_type > local_range () const
 
bool in_local_range (const size_type index) const
 
IndexSet locally_owned_elements () const
 
bool has_ghost_elements () const
 
void update_ghost_values () const
 
reference operator() (const size_type index)
 
PetscScalar operator() (const size_type index) const
 
reference operator[] (const size_type index)
 
PetscScalar operator[] (const size_type index) const
 
void set (const std::vector< size_type > &indices, const std::vector< PetscScalar > &values)
 
void extract_subvector_to (const std::vector< size_type > &indices, std::vector< PetscScalar > &values) const
 
template<typename ForwardIterator , typename OutputIterator >
void extract_subvector_to (const ForwardIterator indices_begin, const ForwardIterator indices_end, OutputIterator values_begin) const
 
void add (const std::vector< size_type > &indices, const std::vector< PetscScalar > &values)
 
void add (const std::vector< size_type > &indices, const ::Vector< PetscScalar > &values)
 
void add (const size_type n_elements, const size_type *indices, const PetscScalar *values)
 
PetscScalar operator* (const VectorBase &vec) const
 
real_type norm_sqr () const
 
PetscScalar mean_value () const
 
real_type l1_norm () const
 
real_type l2_norm () const
 
real_type lp_norm (const real_type p) const
 
real_type linfty_norm () const
 
PetscScalar add_and_dot (const PetscScalar a, const VectorBase &V, const VectorBase &W)
 
real_type min () const
 
real_type max () const
 
bool all_zero () const
 
bool is_non_negative () const
 
VectorBaseoperator*= (const PetscScalar factor)
 
VectorBaseoperator/= (const PetscScalar factor)
 
VectorBaseoperator+= (const VectorBase &V)
 
VectorBaseoperator-= (const VectorBase &V)
 
void add (const PetscScalar s)
 
void add (const PetscScalar a, const VectorBase &V)
 
void add (const PetscScalar a, const VectorBase &V, const PetscScalar b, const VectorBase &W)
 
void sadd (const PetscScalar s, const VectorBase &V)
 
void sadd (const PetscScalar s, const PetscScalar a, const VectorBase &V)
 
void scale (const VectorBase &scaling_factors)
 
void equ (const PetscScalar a, const VectorBase &V)
 
void ratio (const VectorBase &a, const VectorBase &b)
 
void write_ascii (const PetscViewerFormat format=PETSC_VIEWER_DEFAULT)
 
void print (std::ostream &out, const unsigned int precision=3, const bool scientific=true, const bool across=true) const
 
void swap (VectorBase &v)
 
 operator const Vec & () const
 
std::size_t memory_consumption () const
 
virtual const MPI_Comm & get_mpi_communicator () const
 
- Public Member Functions inherited from Subscriptor
 Subscriptor ()
 
 Subscriptor (const Subscriptor &)
 
 Subscriptor (Subscriptor &&) noexcept
 
virtual ~Subscriptor ()
 
Subscriptoroperator= (const Subscriptor &)
 
Subscriptoroperator= (Subscriptor &&) noexcept
 
void subscribe (std::atomic< bool > *const validity, const std::string &identifier="") const
 
void unsubscribe (std::atomic< bool > *const validity, const std::string &identifier="") const
 
unsigned int n_subscriptions () const
 
template<typename StreamType >
void list_subscribers (StreamType &stream) const
 
void list_subscribers () const
 
template<class Archive >
void serialize (Archive &ar, const unsigned int version)
 

Protected Member Functions

void do_set_add_operation (const size_type n_elements, const size_type *indices, const PetscScalar *values, const bool add_values)
 

Protected Attributes

Vec vector
 
bool ghosted
 
IndexSet ghost_indices
 
VectorOperation::values last_action
 
bool obtained_ownership
 

Friends

class internal::VectorReference
 

Related Functions

(Note that these are not member functions.)

void swap (VectorBase &u, VectorBase &v)
 

Additional Inherited Members

- Static Public Member Functions inherited from Subscriptor
static ::ExceptionBaseExcInUse (int arg1, std::string arg2, std::string arg3)
 
static ::ExceptionBaseExcNoSubscriber (std::string arg1, std::string arg2)
 

Detailed Description

Base class for all vector classes that are implemented on top of the PETSc vector types. Since in PETSc all vector types (i.e. sequential and parallel ones) are built by filling the contents of an abstract object that is only referenced through a pointer of a type that is independent of the actual vector type, we can implement almost all functionality of vectors in this base class. As such, this class can also be used as a deal.II-compatible wrapper for a PETSc Vec object of any type. Derived classes will then only have to provide the functionality to create one or the other kind of vector.

The interface of this class is modeled after the existing Vector class in deal.II. It has almost the same member functions, and is often exchangeable. However, since PETSc only supports a single scalar type (either double, float, or a complex data type), it is not templated, and only works with whatever your PETSc installation has defined the data type PetscScalar to.

Note that PETSc only guarantees that operations do what you expect if the functions VecAssemblyBegin and VecAssemblyEnd have been called after vector assembly. Therefore, you need to call Vector::compress() before you actually use the vector.

Author
Wolfgang Bangerth, 2004

Definition at line 239 of file petsc_vector_base.h.

Member Typedef Documentation

◆ value_type

Declare some of the standard types used in all containers. These types parallel those in the C++ standard libraries vector<...> class.

Definition at line 247 of file petsc_vector_base.h.

Constructor & Destructor Documentation

◆ VectorBase() [1/3]

PETScWrappers::VectorBase::VectorBase ( )

Default constructor. It doesn't do anything, derived classes will have to initialize the data.

Definition at line 114 of file petsc_vector_base.cc.

◆ VectorBase() [2/3]

PETScWrappers::VectorBase::VectorBase ( const VectorBase v)

Copy constructor. Sets the dimension to that of the given vector, and copies all elements.

Definition at line 127 of file petsc_vector_base.cc.

◆ VectorBase() [3/3]

PETScWrappers::VectorBase::VectorBase ( const Vec &  v)
explicit

Initialize a Vector from a PETSc Vec object. Note that we do not copy the vector and we do not obtain ownership, so we do not destroy the PETSc object in the destructor.

Definition at line 147 of file petsc_vector_base.cc.

◆ ~VectorBase()

PETScWrappers::VectorBase::~VectorBase ( )
overridevirtual

Destructor

Definition at line 161 of file petsc_vector_base.cc.

Member Function Documentation

◆ operator=() [1/2]

VectorBase& PETScWrappers::VectorBase::operator= ( const VectorBase )
delete

The copy assignment operator is deleted to avoid accidental usage with unexpected behavior.

◆ clear()

void PETScWrappers::VectorBase::clear ( )
virtual

Release all memory and return to a state just like after having called the default constructor.

Reimplemented in PETScWrappers::MPI::Vector.

Definition at line 174 of file petsc_vector_base.cc.

◆ compress()

void PETScWrappers::VectorBase::compress ( const VectorOperation::values  operation)

Compress the underlying representation of the PETSc object, i.e. flush the buffers of the vector object if it has any. This function is necessary after writing into a vector element-by-element and before anything else can be done on it.

See Compressing distributed objects for more information.

Definition at line 359 of file petsc_vector_base.cc.

◆ operator=() [2/2]

VectorBase & PETScWrappers::VectorBase::operator= ( const PetscScalar  s)

Set all components of the vector to the given number s. Simply pass this down to the individual block objects, but we still need to declare this function to make the example given in the discussion about making the constructor explicit work.

Since the semantics of assigning a scalar to a vector are not immediately clear, this operator should really only be used if you want to set the entire vector to zero. This allows the intuitive notation v=0. Assigning other values is deprecated and may be disallowed in the future.

Definition at line 191 of file petsc_vector_base.cc.

◆ operator==()

bool PETScWrappers::VectorBase::operator== ( const VectorBase v) const

Test for equality. This function assumes that the present vector and the one to compare with have the same size already, since comparing vectors of different sizes makes not much sense anyway.

Definition at line 219 of file petsc_vector_base.cc.

◆ operator!=()

bool PETScWrappers::VectorBase::operator!= ( const VectorBase v) const

Test for inequality. This function assumes that the present vector and the one to compare with have the same size already, since comparing vectors of different sizes makes not much sense anyway.

Definition at line 233 of file petsc_vector_base.cc.

◆ size()

VectorBase::size_type PETScWrappers::VectorBase::size ( ) const

Return the global dimension of the vector.

Definition at line 247 of file petsc_vector_base.cc.

◆ local_size()

VectorBase::size_type PETScWrappers::VectorBase::local_size ( ) const

Return the local dimension of the vector, i.e. the number of elements stored on the present MPI process. For sequential vectors, this number is the same as size(), but for parallel vectors it may be smaller.

To figure out which elements exactly are stored locally, use local_range().

Definition at line 259 of file petsc_vector_base.cc.

◆ local_range()

std::pair< VectorBase::size_type, VectorBase::size_type > PETScWrappers::VectorBase::local_range ( ) const

Return a pair of indices indicating which elements of this vector are stored locally. The first number is the index of the first element stored, the second the index of the one past the last one that is stored locally. If this is a sequential vector, then the result will be the pair (0,N), otherwise it will be a pair (i,i+n), where n=local_size().

Definition at line 271 of file petsc_vector_base.cc.

◆ in_local_range()

bool PETScWrappers::VectorBase::in_local_range ( const size_type  index) const

Return whether index is in the local range or not, see also local_range().

◆ locally_owned_elements()

IndexSet PETScWrappers::VectorBase::locally_owned_elements ( ) const

Return an index set that describes which elements of this vector are owned by the current processor. Note that this index set does not include elements this vector may store locally as ghost elements but that are in fact owned by another processor. As a consequence, the index sets returned on different processors if this is a distributed vector will form disjoint sets that add up to the complete index set. Obviously, if a vector is created on only one processor, then the result would satisfy

vec.locally_owned_elements() == complete_index_set (vec.size())

◆ has_ghost_elements()

bool PETScWrappers::VectorBase::has_ghost_elements ( ) const

Return if the vector contains ghost elements.

See also
vectors with ghost elements

◆ update_ghost_values()

void PETScWrappers::VectorBase::update_ghost_values ( ) const

This function only exists for compatibility with the LinearAlgebra::distributed::Vector class and does nothing: this class implements ghost value updates in a different way that is a better fit with the underlying PETSc vector object.

◆ operator()() [1/2]

reference PETScWrappers::VectorBase::operator() ( const size_type  index)

Provide access to a given element, both read and write.

◆ operator()() [2/2]

PetscScalar PETScWrappers::VectorBase::operator() ( const size_type  index) const

Provide read-only access to an element.

◆ operator[]() [1/2]

reference PETScWrappers::VectorBase::operator[] ( const size_type  index)

Provide access to a given element, both read and write.

Exactly the same as operator().

◆ operator[]() [2/2]

PetscScalar PETScWrappers::VectorBase::operator[] ( const size_type  index) const

Provide read-only access to an element.

Exactly the same as operator().

◆ set()

void PETScWrappers::VectorBase::set ( const std::vector< size_type > &  indices,
const std::vector< PetscScalar > &  values 
)

A collective set operation: instead of setting individual elements of a vector, this function allows to set a whole set of elements at once. The indices of the elements to be set are stated in the first argument, the corresponding values in the second.

Definition at line 284 of file petsc_vector_base.cc.

◆ extract_subvector_to() [1/2]

void PETScWrappers::VectorBase::extract_subvector_to ( const std::vector< size_type > &  indices,
std::vector< PetscScalar > &  values 
) const

Instead of getting individual elements of a vector via operator(), this function allows getting a whole set of elements at once. The indices of the elements to be read are stated in the first argument, the corresponding values are returned in the second.

If the current vector is called v, then this function is the equivalent to the code

for (unsigned int i=0; i<indices.size(); ++i)
values[i] = v[indices[i]];
Precondition
The sizes of the indices and values arrays must be identical.

◆ extract_subvector_to() [2/2]

template<typename ForwardIterator , typename OutputIterator >
void PETScWrappers::VectorBase::extract_subvector_to ( const ForwardIterator  indices_begin,
const ForwardIterator  indices_end,
OutputIterator  values_begin 
) const

Instead of getting individual elements of a vector via operator(), this function allows getting a whole set of elements at once. In contrast to the previous function, this function obtains the indices of the elements by dereferencing all elements of the iterator range provided by the first two arguments, and puts the vector values into memory locations obtained by dereferencing a range of iterators starting at the location pointed to by the third argument.

If the current vector is called v, then this function is the equivalent to the code

ForwardIterator indices_p = indices_begin;
OutputIterator values_p = values_begin;
while (indices_p != indices_end)
{
*values_p = v[*indices_p];
++indices_p;
++values_p;
}
Precondition
It must be possible to write into as many memory locations starting at values_begin as there are iterators between indices_begin and indices_end.

◆ add() [1/6]

void PETScWrappers::VectorBase::add ( const std::vector< size_type > &  indices,
const std::vector< PetscScalar > &  values 
)

A collective add operation: This function adds a whole set of values stored in values to the vector components specified by indices.

Definition at line 295 of file petsc_vector_base.cc.

◆ add() [2/6]

void PETScWrappers::VectorBase::add ( const std::vector< size_type > &  indices,
const ::Vector< PetscScalar > &  values 
)

This is a second collective add operation. As a difference, this function takes a deal.II vector of values.

Definition at line 306 of file petsc_vector_base.cc.

◆ add() [3/6]

void PETScWrappers::VectorBase::add ( const size_type  n_elements,
const size_type *  indices,
const PetscScalar *  values 
)

Take an address where n_elements are stored contiguously and add them into the vector. Handles all cases which are not covered by the other two add() functions above.

Definition at line 317 of file petsc_vector_base.cc.

◆ operator*()

PetscScalar PETScWrappers::VectorBase::operator* ( const VectorBase vec) const

Return the scalar product of two vectors. The vectors must have the same size.

For complex valued vector, this gives \(\left(v^\ast,vec\right)\).

Definition at line 326 of file petsc_vector_base.cc.

◆ norm_sqr()

VectorBase::real_type PETScWrappers::VectorBase::norm_sqr ( ) const

Return the square of the \(l_2\)-norm.

Definition at line 419 of file petsc_vector_base.cc.

◆ mean_value()

PetscScalar PETScWrappers::VectorBase::mean_value ( ) const

Return the mean value of the elements of this vector.

Definition at line 428 of file petsc_vector_base.cc.

◆ l1_norm()

VectorBase::real_type PETScWrappers::VectorBase::l1_norm ( ) const

\(l_1\)-norm of the vector. The sum of the absolute values.

Note
In complex-valued PETSc priori to 3.7.0 this norm is implemented as the sum of absolute values of real and imaginary parts of elements of a complex vector.

Definition at line 479 of file petsc_vector_base.cc.

◆ l2_norm()

VectorBase::real_type PETScWrappers::VectorBase::l2_norm ( ) const

\(l_2\)-norm of the vector. The square root of the sum of the squares of the elements.

Definition at line 492 of file petsc_vector_base.cc.

◆ lp_norm()

VectorBase::real_type PETScWrappers::VectorBase::lp_norm ( const real_type  p) const

\(l_p\)-norm of the vector. The pth root of the sum of the pth powers of the absolute values of the elements.

Definition at line 505 of file petsc_vector_base.cc.

◆ linfty_norm()

VectorBase::real_type PETScWrappers::VectorBase::linfty_norm ( ) const

\(l_\infty\)-norm of the vector. Return the value of the vector element with the maximum absolute value.

Definition at line 547 of file petsc_vector_base.cc.

◆ add_and_dot()

PetscScalar PETScWrappers::VectorBase::add_and_dot ( const PetscScalar  a,
const VectorBase V,
const VectorBase W 
)

Performs a combined operation of a vector addition and a subsequent inner product, returning the value of the inner product. In other words, the result of this function is the same as if the user called

this->add(a, V);
return_value = *this * W;

The reason this function exists is for compatibility with deal.II's own vector classes which can implement this functionality with less memory transfer. However, for PETSc vectors such a combined operation is not natively supported and thus the cost is completely equivalent as calling the two methods separately.

For complex-valued vectors, the scalar product in the second step is implemented as \(\left<v,w\right>=\sum_i v_i \bar{w_i}\).

Definition at line 348 of file petsc_vector_base.cc.

◆ min()

VectorBase::real_type PETScWrappers::VectorBase::min ( ) const

Return the value of the vector element with the largest negative value.

Definition at line 560 of file petsc_vector_base.cc.

◆ max()

VectorBase::real_type PETScWrappers::VectorBase::max ( ) const

Return the value of the vector element with the largest positive value.

Definition at line 573 of file petsc_vector_base.cc.

◆ all_zero()

bool PETScWrappers::VectorBase::all_zero ( ) const

Return whether the vector contains only elements with value zero. This is a collective operation. This function is expensive, because potentially all elements have to be checked.

Definition at line 587 of file petsc_vector_base.cc.

◆ is_non_negative()

bool PETScWrappers::VectorBase::is_non_negative ( ) const

Return true if the vector has no negative entries, i.e. all entries are zero or positive. This function is used, for example, to check whether refinement indicators are really all positive (or zero).

Definition at line 640 of file petsc_vector_base.cc.

◆ operator*=()

VectorBase & PETScWrappers::VectorBase::operator*= ( const PetscScalar  factor)

Multiply the entire vector by a fixed factor.

Definition at line 671 of file petsc_vector_base.cc.

◆ operator/=()

VectorBase & PETScWrappers::VectorBase::operator/= ( const PetscScalar  factor)

Divide the entire vector by a fixed factor.

Definition at line 685 of file petsc_vector_base.cc.

◆ operator+=()

VectorBase & PETScWrappers::VectorBase::operator+= ( const VectorBase V)

Add the given vector to the present one.

Definition at line 702 of file petsc_vector_base.cc.

◆ operator-=()

VectorBase & PETScWrappers::VectorBase::operator-= ( const VectorBase V)

Subtract the given vector from the present one.

Definition at line 714 of file petsc_vector_base.cc.

◆ add() [4/6]

void PETScWrappers::VectorBase::add ( const PetscScalar  s)

Addition of s to all components. Note that s is a scalar and not a vector.

Definition at line 726 of file petsc_vector_base.cc.

◆ add() [5/6]

void PETScWrappers::VectorBase::add ( const PetscScalar  a,
const VectorBase V 
)

Simple addition of a multiple of a vector, i.e. *this += a*V.

Definition at line 738 of file petsc_vector_base.cc.

◆ add() [6/6]

void PETScWrappers::VectorBase::add ( const PetscScalar  a,
const VectorBase V,
const PetscScalar  b,
const VectorBase W 
)

Multiple addition of scaled vectors, i.e. *this += a*V+b*W.

Definition at line 750 of file petsc_vector_base.cc.

◆ sadd() [1/2]

void PETScWrappers::VectorBase::sadd ( const PetscScalar  s,
const VectorBase V 
)

Scaling and simple vector addition, i.e. *this = s*(*this)+V.

Definition at line 769 of file petsc_vector_base.cc.

◆ sadd() [2/2]

void PETScWrappers::VectorBase::sadd ( const PetscScalar  s,
const PetscScalar  a,
const VectorBase V 
)

Scaling and simple addition, i.e. *this = s*(*this)+a*V.

Definition at line 781 of file petsc_vector_base.cc.

◆ scale()

void PETScWrappers::VectorBase::scale ( const VectorBase scaling_factors)

Scale each element of this vector by the corresponding element in the argument. This function is mostly meant to simulate multiplication (and immediate re-assignment) by a diagonal scaling matrix.

Definition at line 799 of file petsc_vector_base.cc.

◆ equ()

void PETScWrappers::VectorBase::equ ( const PetscScalar  a,
const VectorBase V 
)

Assignment *this = a*V.

Definition at line 809 of file petsc_vector_base.cc.

◆ ratio()

void PETScWrappers::VectorBase::ratio ( const VectorBase a,
const VectorBase b 
)

Compute the elementwise ratio of the two given vectors, that is let this[i] = a[i]/b[i]. This is useful for example if you want to compute the cellwise ratio of true to estimated error.

This vector is appropriately scaled to hold the result.

If any of the b[i] is zero, the result is undefined. No attempt is made to catch such situations.

Definition at line 828 of file petsc_vector_base.cc.

◆ write_ascii()

void PETScWrappers::VectorBase::write_ascii ( const PetscViewerFormat  format = PETSC_VIEWER_DEFAULT)

Prints the PETSc vector object values using PETSc internal vector viewer function VecView. The default format prints the vector's contents, including indices of vector elements. For other valid view formats, consult http://www.mcs.anl.gov/petsc/petsc-current/docs/manualpages/Vec/VecView.html

Definition at line 838 of file petsc_vector_base.cc.

◆ print()

void PETScWrappers::VectorBase::print ( std::ostream &  out,
const unsigned int  precision = 3,
const bool  scientific = true,
const bool  across = true 
) const

Print to a stream. precision denotes the desired precision with which values shall be printed, scientific whether scientific notation shall be used. If across is true then the vector is printed in a line, while if false then the elements are printed on a separate line each.

Definition at line 855 of file petsc_vector_base.cc.

◆ swap()

void PETScWrappers::VectorBase::swap ( VectorBase v)

Swap the contents of this vector and the other vector v. One could do this operation with a temporary variable and copying over the data elements, but this function is significantly more efficient since it only swaps the pointers to the data of the two vectors and therefore does not need to allocate temporary storage and move data around.

This function is analogous to the swap function of all C++ standard containers. Also, there is a global function swap(u,v) that simply calls u.swap(v), again in analogy to standard functions.

Definition at line 902 of file petsc_vector_base.cc.

◆ operator const Vec &()

PETScWrappers::VectorBase::operator const Vec & ( ) const

Conversion operator to gain access to the underlying PETSc type. If you do this, you cut this class off some information it may need, so this conversion operator should only be used if you know what you do. In particular, it should only be used for read-only operations into the vector.

Definition at line 910 of file petsc_vector_base.cc.

◆ memory_consumption()

std::size_t PETScWrappers::VectorBase::memory_consumption ( ) const

Estimate for the memory consumption (not implemented for this class).

Definition at line 917 of file petsc_vector_base.cc.

◆ get_mpi_communicator()

virtual const MPI_Comm& PETScWrappers::VectorBase::get_mpi_communicator ( ) const
virtual

Return a reference to the MPI communicator object in use with this object.

Reimplemented in PETScWrappers::MPI::Vector.

◆ do_set_add_operation()

void PETScWrappers::VectorBase::do_set_add_operation ( const size_type  n_elements,
const size_type *  indices,
const PetscScalar *  values,
const bool  add_values 
)
protected

Collective set or add operation: This function is invoked by the collective set and add with the add_values flag set to the corresponding value.

Definition at line 939 of file petsc_vector_base.cc.

Friends And Related Function Documentation

◆ internal::VectorReference

friend class internal::VectorReference
friend

Make the reference class a friend.

Definition at line 797 of file petsc_vector_base.h.

◆ swap()

void swap ( VectorBase u,
VectorBase v 
)
related

Global function swap which overloads the default implementation of the C++ standard library which uses a temporary object. The function simply exchanges the data of the two vectors.

Author
Wolfgang Bangerth, 2004

Definition at line 831 of file petsc_vector_base.h.

Member Data Documentation

◆ vector

Vec PETScWrappers::VectorBase::vector
protected

A generic vector object in PETSc. The actual type, a sequential vector, is set in the constructor.

Definition at line 771 of file petsc_vector_base.h.

◆ ghosted

bool PETScWrappers::VectorBase::ghosted
protected

Denotes if this vector has ghost indices associated with it. This means that at least one of the processes in a parallel program has at least one ghost index.

Definition at line 778 of file petsc_vector_base.h.

◆ ghost_indices

IndexSet PETScWrappers::VectorBase::ghost_indices
protected

This vector contains the global indices of the ghost values. The location in this vector denotes the local numbering, which is used in PETSc.

Definition at line 785 of file petsc_vector_base.h.

◆ last_action

VectorOperation::values PETScWrappers::VectorBase::last_action
mutableprotected

Store whether the last action was a write or add operation. This variable is mutable so that the accessor classes can write to it, even though the vector object they refer to is constant.

Definition at line 792 of file petsc_vector_base.h.

◆ obtained_ownership

bool PETScWrappers::VectorBase::obtained_ownership
protected

Specifies if the vector is the owner of the PETSc Vec. This is true if it got created by this class and determines if it gets destroyed in the destructor.

Definition at line 804 of file petsc_vector_base.h.


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