From: turcksin Date: Tue, 3 Jun 2014 19:58:58 +0000 (+0000) Subject: Move functions from paralution_vector.h to paralution_vector.cc (not inlined anymore... X-Git-Url: https://gitweb.dealii.org/cgi-bin/gitweb.cgi?a=commitdiff_plain;h=6a633d45edebf0944d5699790ab0301fe9f793b8;p=dealii-svn.git Move functions from paralution_vector.h to paralution_vector.cc (not inlined anymore). Augment a test. git-svn-id: https://svn.dealii.org/branches/branch_paralution@33011 0785d39b-7218-0410-832d-ea1e28bc413d --- diff --git a/deal.II/include/deal.II/lac/paralution_vector.h b/deal.II/include/deal.II/lac/paralution_vector.h index c8136a3866..16f553bf96 100644 --- a/deal.II/include/deal.II/lac/paralution_vector.h +++ b/deal.II/include/deal.II/lac/paralution_vector.h @@ -1,7 +1,7 @@ // --------------------------------------------------------------------- // $Id: paralution_vector.h 30040 2013-07-18 17:06:48Z maier $ // -// Copyright (C) 2013 by the deal.II authors +// Copyright (C) 2013, 2014 by the deal.II authors // // This file is part of the deal.II library. // @@ -52,7 +52,7 @@ namespace ParalutionWrappers * * @ingroup ParalutionWrappers * @ingroup Vectors - * @author Bruno Turcksin, 2013 + * @author Bruno Turcksin, 2013, 2014 */ //TODO: lots of functions are missing template @@ -92,14 +92,12 @@ namespace ParalutionWrappers Vector(); /** - * Copy constructor. Sets the dimension to that of the given vector, and - * copies all the elements. The copied vector stays on the host/device - * where it is create. + * Copy constructor. Set the dimension to that of the given vector, and + * copies all the elements. If copy_backend is set to false, the copied + * vector stays on the host/device where it is created. Otherwise the + * copied vector is moved to the host/device of the given vector. */ - //TODO: Look to use choose between CopyFrom and Clone. Difference between - //copy and clone: copy the vector stays on his host/device, with clone - //the vector goes on the same host/device. - Vector(const Vector &v); + Vector(const Vector &v, bool copy_backend = false); /** * Constructor. Set dimensionto @p n and initialize all the elements @@ -113,16 +111,6 @@ namespace ParalutionWrappers */ explicit Vector(const size_type n); - /** - * Initialize the vector with a given range of values pointed to by the - * iterators. This function is there in anlogy to the @p std::vector - * class. - */ - //TODO - // template - // Vector (const InputIterator first, - // const InputIterator last); - /** * Destructor. */ @@ -133,7 +121,7 @@ namespace ParalutionWrappers * @p PETScWrappers::Vector class. * * For the PETSC vector wrapper class, this function compresses the - * underlying representation of the PETSc object, i.e. flusehes the + * underlying representation of the PETSc object, i.e. flushes the * buffers of the vector obkect 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. @@ -144,7 +132,6 @@ namespace ParalutionWrappers void compress (::dealii::VectorOperation::values operation =::dealii::VectorOperation::unknown) const; - /** * Change the dimension of the vector to @p N. The vector is filled with * zeros. @@ -158,6 +145,11 @@ namespace ParalutionWrappers */ void reinit(const Vector &v); + /** + * Free the vector. + */ + void clear(); + /** * Return dimension of the vector. */ @@ -243,16 +235,6 @@ namespace ParalutionWrappers * index set. */ IndexSet locally_owned_elements() const; - - /** - * Move the Vector to the accelerator. - */ - void move_to_accelerator(); - - /** - * Move the Vector to the host. - */ - void move_to_host(); //@} /** @@ -280,7 +262,7 @@ namespace ParalutionWrappers /** * Access the @p ith component as a writeable reference. * - * Exactly thte asame as operator(). + * Exactly the same as operator(). */ Number &operator[] (const size_type i); @@ -309,7 +291,7 @@ namespace ParalutionWrappers const paralution::LocalVector& paralution_vector() const; /** - * Return a (modifyable) reference to the underlying Paralution + * Return a (modifiable) reference to the underlying Paralution * LocalVector class. */ paralution::LocalVector& paralution_vector(); @@ -351,9 +333,9 @@ namespace ParalutionWrappers * other two add() functions above. */ template - void add (const size_type n_elements, + void add (const size_type n_elements, const size_type *indices, - const Number2 *values); + const Number2 *values); /** * Addition of @p s to all components. Note that @p s is a scalar and @@ -429,17 +411,52 @@ namespace ParalutionWrappers void equ (const Number a, const Vector &u, const Number b, const Vector &v, const Number c, const Vector &w); + /** + * Return the scalar product *this^T *x. + */ + Number scalar_product(const Vector &x) const; + //@} /** * @name 4: Mixed stuff */ //@{ + + /** + * Move the Vector to the accelerator. + */ + void move_to_accelerator(); + + /** + * Move the Vector to the host. + */ + void move_to_host(); + + /** + * Move the Vector to the accelerator. The function returns immediately and + * performs the asynchronous transfer in the background. + */ + void move_to_accelerator_async(); + + /** + * Move the Vector to the host. The function returns immediately and + * performs the asynchronous transfer in the background. + */ + void move_to_host_async(); + + /** + * Synchronize the code when move_to_host_async or move_to_accelerator_async + * is used. + */ + void sync(); + /** * Determine an estimate for the memory consumption (in bytes) of this * object. */ std::size_t memory_consumption () const; + //@} private : @@ -459,14 +476,6 @@ namespace ParalutionWrappers - template - inline Vector::Vector(const Vector &v) - { - local_vector.CopyFrom(v.paralution_vector()); - } - - - template inline Vector::Vector(const size_type n) { @@ -481,10 +490,14 @@ namespace ParalutionWrappers local_vector.Clear(); } + + template - inline void Vector:: compress(::dealii::VectorOperation::values operation) const + inline void Vector::compress(::dealii::VectorOperation::values operation) const {} + + template void Vector::reinit(const size_type n) { @@ -495,7 +508,7 @@ namespace ParalutionWrappers template - void Vector::reinit(const Vector &v) + inline void Vector::reinit(const Vector &v) { local_vector.Clear(); local_vector.Allocate("deal_ii_vector",v.size()); @@ -503,6 +516,14 @@ namespace ParalutionWrappers + template + inline void Vector::clear() + { + local_vector.Clear(); + } + + + template inline std::size_t Vector::size() const { @@ -565,20 +586,6 @@ namespace ParalutionWrappers - template - inline Number Vector::mean_value() const - { - Number mean(0.); - unsigned int i_max(size()); - for (unsigned int i=0; i inline Number Vector::l2_norm() const { @@ -593,6 +600,8 @@ namespace ParalutionWrappers return false; } + + template inline bool Vector::in_local_range(const size_type global_index) const { @@ -609,22 +618,6 @@ namespace ParalutionWrappers - template - inline void Vector::move_to_accelerator() - { - local_vector.MoveToAccelerator(); - } - - - - template - inline void Vector::move_to_host() - { - local_vector.MoveToHost(); - } - - - template inline Number Vector::operator() (const size_type i) const { @@ -665,21 +658,13 @@ namespace ParalutionWrappers - template - inline void Vector::extract_subvector_to (const std::vector &indices, - std::vector &values) const - { - for (size_type i=0; i template - inline void Vector::extract_subvector_to (ForwardIterator indices_begin, - const ForwardIterator indices_end, - OutputIterator values_begin) const + void Vector::extract_subvector_to (ForwardIterator indices_begin, + const ForwardIterator indices_end, + OutputIterator values_begin) const { while (indices_begin != indices_end) { @@ -732,214 +717,76 @@ namespace ParalutionWrappers template - template - inline void Vector::add (const std::vector &indices, - const std::vector &values) - { - Assert(indices.size()==values.size(), - ExcDimensionMismatch(indices.size(),values.size())); - add(indices.size(),&indices[0],&values[0]); - } - - - - template - template - inline void Vector::add (const std::vector &indices, - const ::dealii::Vector &values) - { - Assert(indices.size()==values.size(), - ExcDimensionMismatch(indices.size(),values.size())); - add(indices.size(),&indices[0],values.begin()); - } - - - - template - template - inline void Vector::add (const size_type n_indices,const size_type *indices, - const Number2 *values) - { - for (size_type i=0; i - inline void Vector::add(const Number s) - { - Assert(numbers::is_finite(s),ExcNumberNotFinite()); - - size_type size = local_vector.get_size(); - for (size_type i=0; i - inline void Vector::add(const Vector &V) - { - Assert(size()==V.size(),ExcDimensionMismatch(size(),V.size())); - local_vector.AddScale(V.paralution_vector(),1.); - } - - - - template - inline void Vector::add(const Number a,const Vector &V) - { - Assert(numbers::is_finite(a),ExcNumberNotFinite()); - Assert(size()==V.size(),ExcDimensionMismatch(size(),V.size())); - - local_vector.ScaleAddScale(1.,V.paralution_vector(),a); - } - - - - template - inline void Vector::add(const Number a,const Vector &V, - const Number b,const Vector &W) + inline Vector& Vector::operator*= (const Number factor) { - Assert(numbers::is_finite(a),ExcNumberNotFinite()); - Assert(numbers::is_finite(b),ExcNumberNotFinite()); - Assert(size()==V.size(),ExcDimensionMismatch(size(),V.size())); - Assert(size()==W.size(),ExcDimensionMismatch(size(),W.size())); - - local_vector.ScaleAdd2(1.,V.paralution_vector(),a,W.paralution_vector(),b); - } - - + Assert(numbers::is_finite(factor),ExcNumberNotFinite()); - template - inline void Vector::sadd(const Number s, const Vector &V) - { - Assert(numbers::is_finite(s),ExcNumberNotFinite()); - Assert(size()==V.size(),ExcDimensionMismatch(size(),V.size())); + local_vector.Scale(factor); - local_vector.ScaleAdd(s,V.paralution_vector()); + return *this; } template - inline void Vector::sadd(const Number s, const Number a, const Vector &V) + inline Vector& Vector::operator/= (const Number factor) { - Assert(numbers::is_finite(s),ExcNumberNotFinite()); - Assert(numbers::is_finite(a),ExcNumberNotFinite()); - Assert(size()==V.size(),ExcDimensionMismatch(size(),V.size())); - - local_vector.ScaleAddScale(s,V.paralution_vector(),a); - } + Assert(numbers::is_finite(factor),ExcNumberNotFinite()); + const Number inv_factor(1./factor); + Assert(numbers::is_finite(inv_factor),ExcNumberNotFinite()); - template - inline void Vector::sadd(const Number s, const Number a, const Vector &V, - const Number b, const Vector &W) - { - Assert(numbers::is_finite(s),ExcNumberNotFinite()); - Assert(numbers::is_finite(a),ExcNumberNotFinite()); - Assert(numbers::is_finite(b),ExcNumberNotFinite()); - Assert(size()==V.size(),ExcDimensionMismatch(size(),V.size())); - Assert(size()==W.size(),ExcDimensionMismatch(size(),W.size())); + local_vector.Scale(inv_factor); - local_vector.ScaleAdd2(s,V.paralution_vector(),a,W.paralution_vector(),b); + return *this; } template - inline void Vector::sadd(const Number s, const Number a, const Vector &V, - const Number b, const Vector &W, const Number c, - const Vector &X) + inline Number Vector::scalar_product(const Vector &x) const { - Assert(numbers::is_finite(s),ExcNumberNotFinite()); - Assert(numbers::is_finite(a),ExcNumberNotFinite()); - Assert(numbers::is_finite(b),ExcNumberNotFinite()); - Assert(numbers::is_finite(c),ExcNumberNotFinite()); - Assert(size()==V.size(),ExcDimensionMismatch(size(),V.size())); - Assert(size()==W.size(),ExcDimensionMismatch(size(),W.size())); - Assert(size()==X.size(),ExcDimensionMismatch(size(),X.size())); - - local_vector.ScaleAdd2(s,V.paralution_vector(),a,W.paralution_vector(),b); - local_vector.AddScale(X.paralution_vector(),c); + return local_vector.Dot(x.paralution_vector()); } template - inline Vector& Vector::operator*= (const Number factor) + inline void Vector::move_to_accelerator() { - Assert(numbers::is_finite(factor),ExcNumberNotFinite()); - - local_vector.Scale(factor); - - return *this; + local_vector.MoveToAccelerator(); } template - inline Vector& Vector::operator/= (const Number factor) + inline void Vector::move_to_host() { - Assert(numbers::is_finite(factor),ExcNumberNotFinite()); - - const Number inv_factor(1./factor); - - Assert(numbers::is_finite(inv_factor),ExcNumberNotFinite()); - - local_vector.Scale(inv_factor); - - return *this; + local_vector.MoveToHost(); } template - inline void Vector::equ (const Number a, const Vector &u) + inline void Vector::move_to_accelerator_async() { - Assert(numbers::is_finite(a), ExcNumberNotFinite()); - Assert(size()==u.size(),ExcDimensionMismatch(size(),u.size())); - - local_vector.ScaleAddScale(0.,u.paralution_vector(),a); + local_vector.MoveToAcceleratorAsync(); } - template - inline void Vector::equ (const Number a, const Vector &u, - const Number b, const Vector &v) + inline void Vector::move_to_host_async() { - Assert(numbers::is_finite(a), ExcNumberNotFinite()); - Assert(numbers::is_finite(b), ExcNumberNotFinite()); - Assert(size()==u.size(),ExcDimensionMismatch(size(),u.size())); - Assert(size()==v.size(),ExcDimensionMismatch(size(),v.size())); - - local_vector.ScaleAdd2(0.,u.paralution_vector(),a,v.paralution_vector(),b); + local_vector.MoveToHostAsync(); } template - inline void Vector::equ (const Number a, const Vector &u, - const Number b, const Vector &v, - const Number c, const Vector &w) + inline void Vector::sync() { - Assert(numbers::is_finite(a), ExcNumberNotFinite()); - Assert(numbers::is_finite(b), ExcNumberNotFinite()); - Assert(numbers::is_finite(c), ExcNumberNotFinite()); - Assert(size()==u.size(),ExcDimensionMismatch(size(),u.size())); - Assert(size()==v.size(),ExcDimensionMismatch(size(),v.size())); - Assert(size()==w.size(),ExcDimensionMismatch(size(),w.size())); - - local_vector.ScaleAdd2(0.,u.paralution_vector(),a,v.paralution_vector(),b); - local_vector.AddScale(w.paralution_vector(),c); + local_vector.Sync(); } diff --git a/deal.II/source/lac/CMakeLists.txt b/deal.II/source/lac/CMakeLists.txt index 259004d6c2..1c811b6950 100644 --- a/deal.II/source/lac/CMakeLists.txt +++ b/deal.II/source/lac/CMakeLists.txt @@ -36,6 +36,7 @@ SET(_src paralution_precondition.cc paralution_sparse_matrix.cc paralution_solver.cc + paralution_vector.cc petsc_block_sparse_matrix.cc petsc_full_matrix.cc petsc_matrix_base.cc diff --git a/deal.II/source/lac/paralution_vector.cc b/deal.II/source/lac/paralution_vector.cc new file mode 100644 index 0000000000..87b7217ab0 --- /dev/null +++ b/deal.II/source/lac/paralution_vector.cc @@ -0,0 +1,282 @@ +// --------------------------------------------------------------------- +// $Id: paralution_vector.cc 31349 2013-10-20 19:07:06Z maier $ +// +// Copyright (C) 2014 by the deal.II authors +// +// This file is part of the deal.II library. +// +// The deal.II library is free software; you can use it, 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 2.1 of the License, or (at your option) any later version. +// The full text of the license can be found in the file LICENSE at +// the top level of the deal.II distribution. +// +// --------------------------------------------------------------------- + +#include + +#ifdef DEAL_II_WITH_PARALUTION + +DEAL_II_NAMESPACE_OPEN + +namespace ParalutionWrappers +{ + + template + Vector::Vector(const Vector &v, bool copy_backend) + { + if (copy_backend) + local_vector.CloneFrom(v.paralution_vector()); + else + local_vector.CopyFrom(v.paralution_vector()); + } + + + template + Number Vector::mean_value() const + { + Number mean(0.); + unsigned int i_max(size()); + for (unsigned int i=0; i + void Vector::extract_subvector_to (const std::vector &indices, + std::vector &values) const + { + for (size_type i=0; i + template + void Vector::add (const std::vector &indices, + const std::vector &values) + { + Assert(indices.size()==values.size(), + ExcDimensionMismatch(indices.size(),values.size())); + add(indices.size(),&indices[0],&values[0]); + } + + + + template + template + void Vector::add (const std::vector &indices, + const ::dealii::Vector &values) + { + Assert(indices.size()==values.size(), + ExcDimensionMismatch(indices.size(),values.size())); + add(indices.size(),&indices[0],values.begin()); + } + + + + template + template + void Vector::add (const size_type n_indices,const size_type *indices, + const Number2 *values) + { + for (size_type i=0; i + void Vector::add(const Number s) + { + Assert(numbers::is_finite(s),ExcNumberNotFinite()); + + size_type size = local_vector.get_size(); + for (size_type i=0; i + void Vector::add(const Vector &V) + { + Assert(size()==V.size(),ExcDimensionMismatch(size(),V.size())); + local_vector.AddScale(V.paralution_vector(),1.); + } + + + + template + void Vector::add(const Number a,const Vector &V) + { + Assert(numbers::is_finite(a),ExcNumberNotFinite()); + Assert(size()==V.size(),ExcDimensionMismatch(size(),V.size())); + + local_vector.ScaleAddScale(1.,V.paralution_vector(),a); + } + + + + template + void Vector::add(const Number a,const Vector &V, + const Number b,const Vector &W) + { + Assert(numbers::is_finite(a),ExcNumberNotFinite()); + Assert(numbers::is_finite(b),ExcNumberNotFinite()); + Assert(size()==V.size(),ExcDimensionMismatch(size(),V.size())); + Assert(size()==W.size(),ExcDimensionMismatch(size(),W.size())); + + local_vector.ScaleAdd2(1.,V.paralution_vector(),a,W.paralution_vector(),b); + } + + + + template + void Vector::sadd(const Number s, const Vector &V) + { + Assert(numbers::is_finite(s),ExcNumberNotFinite()); + Assert(size()==V.size(),ExcDimensionMismatch(size(),V.size())); + + local_vector.ScaleAdd(s,V.paralution_vector()); + } + + + + template + void Vector::sadd(const Number s, const Number a, const Vector &V) + { + Assert(numbers::is_finite(s),ExcNumberNotFinite()); + Assert(numbers::is_finite(a),ExcNumberNotFinite()); + Assert(size()==V.size(),ExcDimensionMismatch(size(),V.size())); + + local_vector.ScaleAddScale(s,V.paralution_vector(),a); + } + + + + template + void Vector::sadd(const Number s, const Number a, const Vector &V, + const Number b, const Vector &W) + { + Assert(numbers::is_finite(s),ExcNumberNotFinite()); + Assert(numbers::is_finite(a),ExcNumberNotFinite()); + Assert(numbers::is_finite(b),ExcNumberNotFinite()); + Assert(size()==V.size(),ExcDimensionMismatch(size(),V.size())); + Assert(size()==W.size(),ExcDimensionMismatch(size(),W.size())); + + local_vector.ScaleAdd2(s,V.paralution_vector(),a,W.paralution_vector(),b); + } + + + + template + void Vector::sadd(const Number s, const Number a, const Vector &V, + const Number b, const Vector &W, const Number c, + const Vector &X) + { + Assert(numbers::is_finite(s),ExcNumberNotFinite()); + Assert(numbers::is_finite(a),ExcNumberNotFinite()); + Assert(numbers::is_finite(b),ExcNumberNotFinite()); + Assert(numbers::is_finite(c),ExcNumberNotFinite()); + Assert(size()==V.size(),ExcDimensionMismatch(size(),V.size())); + Assert(size()==W.size(),ExcDimensionMismatch(size(),W.size())); + Assert(size()==X.size(),ExcDimensionMismatch(size(),X.size())); + + local_vector.ScaleAdd2(s,V.paralution_vector(),a,W.paralution_vector(),b); + local_vector.AddScale(X.paralution_vector(),c); + } + + + + template + void Vector::equ (const Number a, const Vector &u) + { + Assert(numbers::is_finite(a), ExcNumberNotFinite()); + Assert(size()==u.size(),ExcDimensionMismatch(size(),u.size())); + + local_vector.ScaleAddScale(0.,u.paralution_vector(),a); + } + + + + template + void Vector::equ (const Number a, const Vector &u, + const Number b, const Vector &v) + { + Assert(numbers::is_finite(a), ExcNumberNotFinite()); + Assert(numbers::is_finite(b), ExcNumberNotFinite()); + Assert(size()==u.size(),ExcDimensionMismatch(size(),u.size())); + Assert(size()==v.size(),ExcDimensionMismatch(size(),v.size())); + + local_vector.ScaleAdd2(0.,u.paralution_vector(),a,v.paralution_vector(),b); + } + + + + template + void Vector::equ (const Number a, const Vector &u, + const Number b, const Vector &v, + const Number c, const Vector &w) + { + Assert(numbers::is_finite(a), ExcNumberNotFinite()); + Assert(numbers::is_finite(b), ExcNumberNotFinite()); + Assert(numbers::is_finite(c), ExcNumberNotFinite()); + Assert(size()==u.size(),ExcDimensionMismatch(size(),u.size())); + Assert(size()==v.size(),ExcDimensionMismatch(size(),v.size())); + Assert(size()==w.size(),ExcDimensionMismatch(size(),w.size())); + + local_vector.ScaleAdd2(0.,u.paralution_vector(),a,v.paralution_vector(),b); + local_vector.AddScale(w.paralution_vector(),c); + } +} + +// Explicit instantiations +namespace ParalutionWrappers +{ + template class Vector; + template class Vector; + template void Vector::add (const std::vector &indices, + const std::vector &values); + template void Vector::add (const std::vector &indices, + const ::dealii::Vector &values); + template void Vector::add (const size_type n_elements, + const size_type *indices, + const float *values); + template void Vector::add (const std::vector &indices, + const std::vector &values); + template void Vector::add (const std::vector &indices, + const ::dealii::Vector &values); + template void Vector::add (const size_type n_elements, + const size_type *indices, + const double *values); + template void Vector::add (const std::vector &indices, + const std::vector &values); + template void Vector::add (const std::vector &indices, + const ::dealii::Vector &values); + template void Vector::add (const size_type n_elements, + const size_type *indices, + const float *values); + template void Vector::add (const std::vector &indices, + const std::vector &values); + template void Vector::add (const std::vector &indices, + const ::dealii::Vector &values); + template void Vector::add (const size_type n_elements, + const size_type *indices, + const double *values); +} + +DEAL_II_NAMESPACE_CLOSE + +#endif // DEAL_II_WITH_PARALUTION diff --git a/tests/lac/paralution_vector_01.cc b/tests/lac/paralution_vector_01.cc index fdf42a3285..73311620d6 100644 --- a/tests/lac/paralution_vector_01.cc +++ b/tests/lac/paralution_vector_01.cc @@ -27,8 +27,10 @@ void check() ParalutionWrappers::Vector vector_1; ParalutionWrappers::Vector vector_2(100); - deallog << vector_1.size() <