/usr/include/dolfin/la/EigenVector.h is in libdolfin-dev 2017.2.0.post0-2.
This file is owned by root:root, with mode 0o644.
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//
// This file is part of DOLFIN.
//
// DOLFIN is free software: you can redistribute it and/or modify
// it under the terms of the GNU Lesser General Public License as published by
// the Free Software Foundation, either version 3 of the License, or
// (at your option) any later version.
//
// DOLFIN is distributed in the hope that it will be useful,
// but WITHOUT ANY WARRANTY; without even the implied warranty of
// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
// GNU Lesser General Public License for more details.
//
// You should have received a copy of the GNU Lesser General Public License
// along with DOLFIN. If not, see <http://www.gnu.org/licenses/>.
#ifndef __EIGEN_VECTOR_H
#define __EIGEN_VECTOR_H
#include <memory>
#include <string>
#include <utility>
#include <vector>
#include <dolfin/common/types.h>
#include <Eigen/Dense>
#include <dolfin/common/MPI.h>
#include "GenericVector.h"
namespace dolfin
{
template<typename T> class Array;
/// This class provides a simple vector class based on Eigen.
/// It is a simple wrapper for a Eigen vector implementing the
/// GenericVector interface.
///
/// The interface is intentionally simple. For advanced usage,
/// access the underlying Eigen vector and use the standard Eigen
/// interface which is documented at http://eigen.tuxfamily.org
class EigenVector : public GenericVector
{
public:
/// Create empty vector (on MPI_COMM_SELF)
EigenVector();
/// Create empty vector
explicit EigenVector(MPI_Comm comm);
/// Create vector of size N
EigenVector(MPI_Comm comm, std::size_t N);
/// Copy constructor
EigenVector(const EigenVector& x);
/// Construct vector from an Eigen shared_ptr
explicit EigenVector(std::shared_ptr<Eigen::VectorXd> x);
/// Destructor
virtual ~EigenVector();
//--- Implementation of the GenericTensor interface ---
/// Set all entries to zero and keep any sparse structure
virtual void zero();
/// Finalize assembly of tensor
virtual void apply(std::string mode);
/// Return MPI communicator
virtual MPI_Comm mpi_comm() const
{ return _mpi_comm.comm(); }
/// Return informal string representation (pretty-print)
virtual std::string str(bool verbose) const;
//--- Implementation of the GenericVector interface ---
/// Create copy of tensor
virtual std::shared_ptr<GenericVector> copy() const;
/// Initialize vector to size N
virtual void init(std::size_t N)
{
if (!empty())
{
dolfin_error("EigenVector.cpp",
"calling EigenVector::init(...)",
"Cannot call init for a non-empty vector. Use EigenVector::resize instead");
}
resize(N);
}
/// Resize vector with given ownership range
virtual void init(std::pair<std::size_t, std::size_t> range)
{
if (!empty())
{
dolfin_error("EigenVector.cpp",
"calling EigenVector::init(...)",
"Cannot call init for a non-empty vector. Use EigenVector::resize instead");
}
dolfin_assert(range.first == 0);
const std::size_t size = range.second - range.first;
resize(size);
}
/// Resize vector with given ownership range and with ghost values
virtual void init(std::pair<std::size_t, std::size_t> range,
const std::vector<std::size_t>& local_to_global_map,
const std::vector<la_index>& ghost_indices)
{
if (!empty())
{
dolfin_error("EigenVector.cpp",
"calling EigenVector::init(...)",
"Cannot call init for a non-empty vector. Use EigenVector::resize instead");
}
if (!ghost_indices.empty())
{
dolfin_error("EigenVector.cpp",
"calling EigenVector::init(...)",
"EigenVector does not support ghost values");
}
dolfin_assert(range.first == 0);
const std::size_t size = range.second - range.first;
resize(size);
}
// Bring init function from GenericVector into scope
using GenericVector::init;
/// Return true if vector is empty
virtual bool empty() const;
/// Return true if vector is empty
virtual std::size_t size() const;
/// Return local size of vector
virtual std::size_t local_size() const
{ return size(); }
/// Return local ownership range of a vector
virtual std::pair<std::int64_t, std::int64_t> local_range() const;
/// Determine whether global vector index is owned by this process
virtual bool owns_index(std::size_t i) const;
/// Get block of values using global indices
virtual void get(double* block, std::size_t m,
const dolfin::la_index* rows) const
{ get_local(block, m, rows); }
/// Get block of values using local indices
virtual void get_local(double* block, std::size_t m,
const dolfin::la_index* rows) const;
/// Set block of values using global indices
virtual void set(const double* block, std::size_t m,
const dolfin::la_index* rows);
/// Set block of values using local indices
virtual void set_local(const double* block, std::size_t m,
const dolfin::la_index* rows)
{ set(block, m, rows); }
/// Add block of values using global indices
virtual void add(const double* block, std::size_t m,
const dolfin::la_index* rows);
/// Add block of values using local indices
virtual void add_local(const double* block, std::size_t m,
const dolfin::la_index* rows)
{ add(block, m, rows); }
/// Get all values on local process
virtual void get_local(std::vector<double>& values) const;
/// Set all values on local process
virtual void set_local(const std::vector<double>& values);
/// Add values to each entry on local process
virtual void add_local(const Array<double>& values);
/// Gather entries into local vector x
virtual void gather(GenericVector& x,
const std::vector<dolfin::la_index>& indices) const;
/// Gather entries into x
virtual void gather(std::vector<double>& x,
const std::vector<dolfin::la_index>& indices) const;
/// Gather all entries into x on process 0
virtual void gather_on_zero(std::vector<double>& x) const;
/// Add multiple of given vector (AXPY operation)
virtual void axpy(double a, const GenericVector& x);
/// Replace all entries in the vector by their absolute values
virtual void abs();
/// Return inner product with given vector
virtual double inner(const GenericVector& x) const;
/// Compute norm of vector
virtual double norm(std::string norm_type) const;
/// Return minimum value of vector
virtual double min() const;
/// Return maximum value of vector
virtual double max() const;
/// Return sum of values of vector
virtual double sum() const;
/// Return sum of selected rows in vector. Repeated entries are
/// only summed once.
virtual double sum(const Array<std::size_t>& rows) const;
/// Multiply vector by given number
virtual const EigenVector& operator*= (double a);
/// Multiply vector by another vector pointwise
virtual const EigenVector& operator*= (const GenericVector& x);
/// Divide vector by given number
virtual const EigenVector& operator/= (double a);
/// Add given vector
virtual const EigenVector& operator+= (const GenericVector& x);
/// Add number to all components of a vector
virtual const EigenVector& operator+= (double a);
/// Subtract given vector
virtual const EigenVector& operator-= (const GenericVector& x);
/// Subtract number from all components of a vector
virtual const EigenVector& operator-= (double a);
/// Assignment operator
virtual const GenericVector& operator= (const GenericVector& x);
/// Assignment operator
virtual const EigenVector& operator= (double a);
//--- Special functions ---
/// Return linear algebra backend factory
virtual GenericLinearAlgebraFactory& factory() const;
//--- Special Eigen functions ---
/// Resize vector to size N
virtual void resize(std::size_t N);
/// Return reference to Eigen vector (const version)
std::shared_ptr<const Eigen::VectorXd> vec() const
{ return _x; }
/// Return reference to Eigen vector (non-const version)
std::shared_ptr<Eigen::VectorXd> vec()
{ return _x; }
/// Access value of given entry (const version)
virtual double operator[] (dolfin::la_index i) const
{ return (*_x)(i); }
/// Access value of given entry (non-const version)
double& operator[] (dolfin::la_index i)
{ return (*_x)(i); }
/// Assignment operator
const EigenVector& operator= (const EigenVector& x);
/// Return pointer to underlying data
double* data();
/// Return pointer to underlying data (const version)
const double* data() const;
private:
static void check_mpi_size(const MPI_Comm comm)
{
if (dolfin::MPI::size(comm) > 1)
{
dolfin_error("EigenVector.cpp",
"creating EigenVector",
"EigenVector does not support parallel communicators");
}
}
// Pointer to Eigen vector object
std::shared_ptr<Eigen::VectorXd> _x;
// MPI communicator
dolfin::MPI::Comm _mpi_comm;
};
}
#endif
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