d7/d89/EigenVector_8h_source.html

 // Copyright (C) 2015 Garth N. Wells
 //
 // 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;


   class EigenVector : public GenericVector
   {
   public:

     EigenVector();

     explicit EigenVector(MPI_Comm comm);

     EigenVector(MPI_Comm comm, std::size_t N);

     EigenVector(const EigenVector& x);

     explicit EigenVector(std::shared_ptr<Eigen::VectorXd> x);

     virtual ~EigenVector();

     //--- Implementation of the GenericTensor interface ---

     virtual void zero();

     virtual void apply(std::string mode);

     virtual MPI_Comm mpi_comm() const
     { return _mpi_comm.comm(); }

     virtual std::string str(bool verbose) const;

     //--- Implementation of the GenericVector interface ---

     virtual std::shared_ptr<GenericVector> copy() const;

     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);
     }

     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);
     }

     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;

     virtual bool empty() const;

     virtual std::size_t size() const;

     virtual std::size_t local_size() const
     { return size(); }

     virtual std::pair<std::int64_t, std::int64_t> local_range() const;

     virtual bool owns_index(std::size_t i) const;

     virtual void get(double* block, std::size_t m,
                      const dolfin::la_index* rows) const
     { get_local(block, m, rows); }

     virtual void get_local(double* block, std::size_t m,
                            const dolfin::la_index* rows) const;

     virtual void set(const double* block, std::size_t m,
                      const dolfin::la_index* rows);

     virtual void set_local(const double* block, std::size_t m,
                            const dolfin::la_index* rows)
     { set(block, m, rows); }

     virtual void add(const double* block, std::size_t m,
                      const dolfin::la_index* rows);

     virtual void add_local(const double* block, std::size_t m,
                            const dolfin::la_index* rows)
     { add(block, m, rows); }

     virtual void get_local(std::vector<double>& values) const;

     virtual void set_local(const std::vector<double>& values);

     virtual void add_local(const Array<double>& values);

     virtual void gather(GenericVector& x,
                         const std::vector<dolfin::la_index>& indices) const;

     virtual void gather(std::vector<double>& x,
                         const std::vector<dolfin::la_index>& indices) const;

     virtual void gather_on_zero(std::vector<double>& x) const;

     virtual void axpy(double a, const GenericVector& x);

     virtual void abs();

     virtual double inner(const GenericVector& x) const;

     virtual double norm(std::string norm_type) const;

     virtual double min() const;

     virtual double max() const;

     virtual double sum() const;

     virtual double sum(const Array<std::size_t>& rows) const;

     virtual const EigenVector& operator*= (double a);

     virtual const EigenVector& operator*= (const GenericVector& x);

     virtual const EigenVector& operator/= (double a);

     virtual const EigenVector& operator+= (const GenericVector& x);

     virtual const EigenVector& operator+= (double a);

     virtual const EigenVector& operator-= (const GenericVector& x);

     virtual const EigenVector& operator-= (double a);

     virtual const GenericVector& operator= (const GenericVector& x);

     virtual const EigenVector& operator= (double a);

     //--- Special functions ---

     virtual GenericLinearAlgebraFactory& factory() const;

     //--- Special Eigen functions ---

     virtual void resize(std::size_t N);

     std::shared_ptr<const Eigen::VectorXd> vec() const
     { return _x; }

     std::shared_ptr<Eigen::VectorXd> vec()
     { return _x; }

     virtual double operator[] (dolfin::la_index i) const
     { return (*_x)(i); }

     double& operator[] (dolfin::la_index i)
     { return (*_x)(i); }

     const EigenVector& operator= (const EigenVector& x);

     double* data();

     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
dolfin::EigenVector::operator/=
virtual const EigenVector & operator/=(double a)
Divide vector by given number.
Definition: EigenVector.cpp:305

dolfin::EigenVector::set_local
virtual void set_local(const double *block, std::size_t m, const dolfin::la_index *rows)
Set block of values using local indices.
Definition: EigenVector.h:171

dolfin::EigenVector::resize
virtual void resize(std::size_t N)
Resize vector to size N.
Definition: EigenVector.cpp:368

dolfin::EigenVector::init
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)
Resize vector with given ownership range and with ghost values.
Definition: EigenVector.h:115

dolfin::EigenVector::apply
virtual void apply(std::string mode)
Finalize assembly of tensor.
Definition: EigenVector.cpp:167

dolfin::GenericVector::init
virtual void init(const TensorLayout &tensor_layout)
Definition: GenericVector.h:58

dolfin::EigenVector::max
virtual double max() const
Return maximum value of vector.
Definition: EigenVector.cpp:203

dolfin::EigenVector::str
virtual std::string str(bool verbose) const
Return informal string representation (pretty-print)
Definition: EigenVector.cpp:339

dolfin::EigenVector::sum
virtual double sum() const
Return sum of values of vector.
Definition: EigenVector.cpp:209

dolfin::EigenVector::size
virtual std::size_t size() const
Return true if vector is empty.
Definition: EigenVector.cpp:88

dolfin
Definition: adapt.h:29

dolfin::EigenVector::inner
virtual double inner(const GenericVector &x) const
Return inner product with given vector.
Definition: EigenVector.cpp:252

dolfin::EigenVector::operator+=
virtual const EigenVector & operator+=(const GenericVector &x)
Add given vector.
Definition: EigenVector.cpp:311

dolfin::Array
Definition: Array.h:41

dolfin::EigenVector::factory
virtual GenericLinearAlgebraFactory & factory() const
Return linear algebra backend factory.
Definition: EigenVector.cpp:363

dolfin::EigenVector::init
virtual void init(std::pair< std::size_t, std::size_t > range)
Resize vector with given ownership range.
Definition: EigenVector.h:100

dolfin::MPI::size
static unsigned int size(MPI_Comm comm)
Definition: MPI.cpp:154

dolfin::EigenVector::init
virtual void init(std::size_t N)
Initialize vector to size N.
Definition: EigenVector.h:88

dolfin::EigenVector::vec
std::shared_ptr< const Eigen::VectorXd > vec() const
Return reference to Eigen vector (const version)
Definition: EigenVector.h:267

dolfin::EigenVector::operator=
virtual const GenericVector & operator=(const GenericVector &x)
Assignment operator.
Definition: EigenVector.cpp:260

dolfin::EigenVector::local_range
virtual std::pair< std::int64_t, std::int64_t > local_range() const
Return local ownership range of a vector.
Definition: EigenVector.cpp:93

dolfin::EigenVector::zero
virtual void zero()
Set all entries to zero and keep any sparse structure.
Definition: EigenVector.cpp:172

dolfin::EigenVector::~EigenVector
virtual ~EigenVector()
Destructor.
Definition: EigenVector.cpp:68

dolfin::MPI::Comm::comm
MPI_Comm comm() const
Return the underlying MPI_Comm object.
Definition: MPI.cpp:117

dolfin::GenericLinearAlgebraFactory
Base class for LinearAlgebra factories.
Definition: GenericLinearAlgebraFactory.h:46

dolfin::EigenVector::get_local
virtual void get_local(double *block, std::size_t m, const dolfin::la_index *rows) const
Get block of values using local indices.
Definition: EigenVector.cpp:106

dolfin::EigenVector::min
virtual double min() const
Return minimum value of vector.
Definition: EigenVector.cpp:197

dolfin::EigenVector::operator-=
virtual const EigenVector & operator-=(const GenericVector &x)
Subtract given vector.
Definition: EigenVector.cpp:325

dolfin::EigenVector::add
virtual void add(const double *block, std::size_t m, const dolfin::la_index *rows)
Add block of values using global indices.
Definition: EigenVector.cpp:160

dolfin::EigenVector::empty
virtual bool empty() const
Return true if vector is empty.
Definition: EigenVector.cpp:79

dolfin::EigenVector::owns_index
virtual bool owns_index(std::size_t i) const
Determine whether global vector index is owned by this process.
Definition: EigenVector.cpp:98

dolfin::EigenVector::data
double * data()
Return pointer to underlying data.
Definition: EigenVector.cpp:379

dolfin::EigenVector::add_local
virtual void add_local(const double *block, std::size_t m, const dolfin::la_index *rows)
Add block of values using local indices.
Definition: EigenVector.h:180

dolfin::EigenVector::abs
virtual void abs()
Replace all entries in the vector by their absolute values.
Definition: EigenVector.cpp:246

dolfin::EigenVector::vec
std::shared_ptr< Eigen::VectorXd > vec()
Return reference to Eigen vector (non-const version)
Definition: EigenVector.h:271

dolfin::la_index
PetscInt la_index
Index type for compatibility with linear algebra backend(s)
Definition: types.h:32

dolfin::EigenVector::operator[]
virtual double operator[](dolfin::la_index i) const
Access value of given entry (const version)
Definition: EigenVector.h:275

dolfin::EigenVector::norm
virtual double norm(std::string norm_type) const
Compute norm of vector.
Definition: EigenVector.cpp:178

dolfin::EigenVector::EigenVector
EigenVector()
Create empty vector (on MPI_COMM_SELF)
Definition: EigenVector.cpp:34

dolfin::EigenVector
Definition: EigenVector.h:45

dolfin::EigenVector::gather
virtual void gather(GenericVector &x, const std::vector< dolfin::la_index > &indices) const
Gather entries into local vector x.
Definition: EigenVector.cpp:132

dolfin::dolfin_error
void dolfin_error(std::string location, std::string task, std::string reason,...)
Definition: log.cpp:129

dolfin::EigenVector::local_size
virtual std::size_t local_size() const
Return local size of vector.
Definition: EigenVector.h:148

dolfin::EigenVector::mpi_comm
virtual MPI_Comm mpi_comm() const
Return MPI communicator.
Definition: EigenVector.h:76

dolfin::EigenVector::operator*=
virtual const EigenVector & operator*=(double a)
Multiply vector by given number.
Definition: EigenVector.cpp:289

dolfin::EigenVector::axpy
virtual void axpy(double a, const GenericVector &x)
Add multiple of given vector (AXPY operation)
Definition: EigenVector.cpp:232

dolfin::GenericVector
This class defines a common interface for vectors.
Definition: GenericVector.h:47

dolfin::MPI::Comm
Definition: MPI.h:76

dolfin::EigenVector::copy
virtual std::shared_ptr< GenericVector > copy() const
Create copy of tensor.
Definition: EigenVector.cpp:73

dolfin::EigenVector::gather_on_zero
virtual void gather_on_zero(std::vector< double > &x) const
Gather all entries into x on process 0.
Definition: EigenVector.cpp:148