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BasicPreconditioners.h
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1// This file is part of Eigen, a lightweight C++ template library
2// for linear algebra.
3//
4// Copyright (C) 2011-2014 Gael Guennebaud <gael.guennebaud@inria.fr>
5//
6// This Source Code Form is subject to the terms of the Mozilla
7// Public License v. 2.0. If a copy of the MPL was not distributed
8// with this file, You can obtain one at http://mozilla.org/MPL/2.0/.
9
10#ifndef EIGEN_BASIC_PRECONDITIONERS_H
11#define EIGEN_BASIC_PRECONDITIONERS_H
12
13namespace Eigen {
14
35template <typename _Scalar>
36class DiagonalPreconditioner
37{
38 typedef _Scalar Scalar;
39 typedef Matrix<Scalar,Dynamic,1> Vector;
40 public:
41 typedef typename Vector::StorageIndex StorageIndex;
42 enum {
43 ColsAtCompileTime = Dynamic,
44 MaxColsAtCompileTime = Dynamic
45 };
46
47 DiagonalPreconditioner() : m_isInitialized(false) {}
48
49 template<typename MatType>
50 explicit DiagonalPreconditioner(const MatType& mat) : m_invdiag(mat.cols())
51 {
52 compute(mat);
53 }
54
55 EIGEN_CONSTEXPR Index rows() const EIGEN_NOEXCEPT { return m_invdiag.size(); }
56 EIGEN_CONSTEXPR Index cols() const EIGEN_NOEXCEPT { return m_invdiag.size(); }
57
58 template<typename MatType>
59 DiagonalPreconditioner& analyzePattern(const MatType& )
60 {
61 return *this;
62 }
63
64 template<typename MatType>
65 DiagonalPreconditioner& factorize(const MatType& mat)
66 {
67 m_invdiag.resize(mat.cols());
68 for(int j=0; j<mat.outerSize(); ++j)
69 {
70 typename MatType::InnerIterator it(mat,j);
71 while(it && it.index()!=j) ++it;
72 if(it && it.index()==j && it.value()!=Scalar(0))
73 m_invdiag(j) = Scalar(1)/it.value();
74 else
75 m_invdiag(j) = Scalar(1);
76 }
77 m_isInitialized = true;
78 return *this;
79 }
80
81 template<typename MatType>
82 DiagonalPreconditioner& compute(const MatType& mat)
83 {
84 return factorize(mat);
85 }
86
88 template<typename Rhs, typename Dest>
89 void _solve_impl(const Rhs& b, Dest& x) const
90 {
91 x = m_invdiag.array() * b.array() ;
92 }
93
94 template<typename Rhs> inline const Solve<DiagonalPreconditioner, Rhs>
95 solve(const MatrixBase<Rhs>& b) const
96 {
97 eigen_assert(m_isInitialized && "DiagonalPreconditioner is not initialized.");
98 eigen_assert(m_invdiag.size()==b.rows()
99 && "DiagonalPreconditioner::solve(): invalid number of rows of the right hand side matrix b");
100 return Solve<DiagonalPreconditioner, Rhs>(*this, b.derived());
101 }
102
103 ComputationInfo info() { return Success; }
104
105 protected:
106 Vector m_invdiag;
107 bool m_isInitialized;
108};
109
127template <typename _Scalar>
128class LeastSquareDiagonalPreconditioner : public DiagonalPreconditioner<_Scalar>
129{
130 typedef _Scalar Scalar;
131 typedef typename NumTraits<Scalar>::Real RealScalar;
132 typedef DiagonalPreconditioner<_Scalar> Base;
133 using Base::m_invdiag;
134 public:
135
136 LeastSquareDiagonalPreconditioner() : Base() {}
137
138 template<typename MatType>
139 explicit LeastSquareDiagonalPreconditioner(const MatType& mat) : Base()
140 {
141 compute(mat);
142 }
143
144 template<typename MatType>
145 LeastSquareDiagonalPreconditioner& analyzePattern(const MatType& )
146 {
147 return *this;
148 }
149
150 template<typename MatType>
151 LeastSquareDiagonalPreconditioner& factorize(const MatType& mat)
152 {
153 // Compute the inverse squared-norm of each column of mat
154 m_invdiag.resize(mat.cols());
155 if(MatType::IsRowMajor)
156 {
157 m_invdiag.setZero();
158 for(Index j=0; j<mat.outerSize(); ++j)
159 {
160 for(typename MatType::InnerIterator it(mat,j); it; ++it)
161 m_invdiag(it.index()) += numext::abs2(it.value());
162 }
163 for(Index j=0; j<mat.cols(); ++j)
164 if(numext::real(m_invdiag(j))>RealScalar(0))
165 m_invdiag(j) = RealScalar(1)/numext::real(m_invdiag(j));
166 }
167 else
168 {
169 for(Index j=0; j<mat.outerSize(); ++j)
170 {
171 RealScalar sum = mat.col(j).squaredNorm();
172 if(sum>RealScalar(0))
173 m_invdiag(j) = RealScalar(1)/sum;
174 else
175 m_invdiag(j) = RealScalar(1);
176 }
177 }
178 Base::m_isInitialized = true;
179 return *this;
180 }
181
182 template<typename MatType>
183 LeastSquareDiagonalPreconditioner& compute(const MatType& mat)
184 {
185 return factorize(mat);
186 }
187
188 ComputationInfo info() { return Success; }
189
190 protected:
191};
192
200class IdentityPreconditioner
201{
202 public:
203
204 IdentityPreconditioner() {}
205
206 template<typename MatrixType>
207 explicit IdentityPreconditioner(const MatrixType& ) {}
208
209 template<typename MatrixType>
210 IdentityPreconditioner& analyzePattern(const MatrixType& ) { return *this; }
211
212 template<typename MatrixType>
213 IdentityPreconditioner& factorize(const MatrixType& ) { return *this; }
214
215 template<typename MatrixType>
216 IdentityPreconditioner& compute(const MatrixType& ) { return *this; }
217
218 template<typename Rhs>
219 inline const Rhs& solve(const Rhs& b) const { return b; }
220
221 ComputationInfo info() { return Success; }
222};
223
224} // end namespace Eigen
225
226#endif // EIGEN_BASIC_PRECONDITIONERS_H
EIGEN_NOEXCEPT
#define EIGEN_NOEXCEPT
Definition Macros.h:1418
EIGEN_CONSTEXPR
#define EIGEN_CONSTEXPR
Definition Macros.h:787
eigen_assert
#define eigen_assert(x)
Definition Macros.h:1037
mat
MatrixXf mat
Definition Tutorial_AdvancedInitialization_CommaTemporary.cpp:1
b
Scalar * b
Definition benchVecAdd.cpp:17
MatrixType
MatrixXf MatrixType
Definition benchmark-blocking-sizes.cpp:52
Eigen::DiagonalPreconditioner
A preconditioner based on the digonal entries.
Definition BasicPreconditioners.h:37
Eigen::DiagonalPreconditioner::m_isInitialized
bool m_isInitialized
Definition BasicPreconditioners.h:107
Eigen::DiagonalPreconditioner::StorageIndex
Vector::StorageIndex StorageIndex
Definition BasicPreconditioners.h:41
Eigen::DiagonalPreconditioner::_solve_impl
void _solve_impl(const Rhs &b, Dest &x) const
Definition BasicPreconditioners.h:89
Eigen::DiagonalPreconditioner::compute
DiagonalPreconditioner & compute(const MatType &mat)
Definition BasicPreconditioners.h:82
Eigen::DiagonalPreconditioner::analyzePattern
DiagonalPreconditioner & analyzePattern(const MatType &)
Definition BasicPreconditioners.h:59
Eigen::DiagonalPreconditioner::rows
EIGEN_CONSTEXPR Index rows() const EIGEN_NOEXCEPT
Definition BasicPreconditioners.h:55
Eigen::DiagonalPreconditioner::info
ComputationInfo info()
Definition BasicPreconditioners.h:103
Eigen::DiagonalPreconditioner::solve
const Solve< DiagonalPreconditioner, Rhs > solve(const MatrixBase< Rhs > &b) const
Definition BasicPreconditioners.h:95
Eigen::DiagonalPreconditioner::cols
EIGEN_CONSTEXPR Index cols() const EIGEN_NOEXCEPT
Definition BasicPreconditioners.h:56
Eigen::DiagonalPreconditioner::m_invdiag
Vector m_invdiag
Definition BasicPreconditioners.h:106
Eigen::DiagonalPreconditioner::factorize
DiagonalPreconditioner & factorize(const MatType &mat)
Definition BasicPreconditioners.h:65
Eigen::DiagonalPreconditioner::DiagonalPreconditioner
DiagonalPreconditioner(const MatType &mat)
Definition BasicPreconditioners.h:50
Eigen::DiagonalPreconditioner::MaxColsAtCompileTime
@ MaxColsAtCompileTime
Definition BasicPreconditioners.h:44
Eigen::DiagonalPreconditioner::ColsAtCompileTime
@ ColsAtCompileTime
Definition BasicPreconditioners.h:43
Eigen::DiagonalPreconditioner::DiagonalPreconditioner
DiagonalPreconditioner()
Definition BasicPreconditioners.h:47
Eigen::IdentityPreconditioner
A naive preconditioner which approximates any matrix as the identity matrix.
Definition BasicPreconditioners.h:201
Eigen::IdentityPreconditioner::analyzePattern
IdentityPreconditioner & analyzePattern(const MatrixType &)
Definition BasicPreconditioners.h:210
Eigen::IdentityPreconditioner::info
ComputationInfo info()
Definition BasicPreconditioners.h:221
Eigen::IdentityPreconditioner::IdentityPreconditioner
IdentityPreconditioner(const MatrixType &)
Definition BasicPreconditioners.h:207
Eigen::IdentityPreconditioner::solve
const Rhs & solve(const Rhs &b) const
Definition BasicPreconditioners.h:219
Eigen::IdentityPreconditioner::compute
IdentityPreconditioner & compute(const MatrixType &)
Definition BasicPreconditioners.h:216
Eigen::IdentityPreconditioner::factorize
IdentityPreconditioner & factorize(const MatrixType &)
Definition BasicPreconditioners.h:213
Eigen::IdentityPreconditioner::IdentityPreconditioner
IdentityPreconditioner()
Definition BasicPreconditioners.h:204
Eigen::LeastSquareDiagonalPreconditioner
Jacobi preconditioner for LeastSquaresConjugateGradient.
Definition BasicPreconditioners.h:129
Eigen::LeastSquareDiagonalPreconditioner::factorize
LeastSquareDiagonalPreconditioner & factorize(const MatType &mat)
Definition BasicPreconditioners.h:151
Eigen::LeastSquareDiagonalPreconditioner::LeastSquareDiagonalPreconditioner
LeastSquareDiagonalPreconditioner()
Definition BasicPreconditioners.h:136
Eigen::LeastSquareDiagonalPreconditioner::info
ComputationInfo info()
Definition BasicPreconditioners.h:188
Eigen::LeastSquareDiagonalPreconditioner::analyzePattern
LeastSquareDiagonalPreconditioner & analyzePattern(const MatType &)
Definition BasicPreconditioners.h:145
Eigen::LeastSquareDiagonalPreconditioner::LeastSquareDiagonalPreconditioner
LeastSquareDiagonalPreconditioner(const MatType &mat)
Definition BasicPreconditioners.h:139
Eigen::LeastSquareDiagonalPreconditioner::compute
LeastSquareDiagonalPreconditioner & compute(const MatType &mat)
Definition BasicPreconditioners.h:183
Eigen::MatrixBase
Base class for all dense matrices, vectors, and expressions.
Definition MatrixBase.h:50
Eigen::Matrix
The matrix class, also used for vectors and row-vectors.
Definition Matrix.h:180
Eigen::PlainObjectBase::resize
EIGEN_DEVICE_FUNC EIGEN_STRONG_INLINE void resize(Index rows, Index cols)
Definition PlainObjectBase.h:271
Eigen::PlainObjectBase::setZero
EIGEN_DEVICE_FUNC Derived & setZero(Index size)
Definition CwiseNullaryOp.h:562
Eigen::PlainObjectBase::rows
EIGEN_DEVICE_FUNC EIGEN_STRONG_INLINE EIGEN_CONSTEXPR Index rows() const EIGEN_NOEXCEPT
Definition PlainObjectBase.h:143
Eigen::Solve
Pseudo expression representing a solving operation.
Definition Solve.h:63
x
set noclip points set clip one set noclip two set bar set border lt lw set xdata set ydata set zdata set x2data set y2data set boxwidth set dummy x
Definition gnuplot_common_settings.hh:12
Eigen::ComputationInfo
ComputationInfo
Definition Constants.h:440
Eigen::Success
@ Success
Definition Constants.h:442
Eigen::numext::abs2
EIGEN_DEVICE_FUNC bool abs2(bool x)
Definition MathFunctions.h:1292
Eigen
Namespace containing all symbols from the Eigen library.
Definition bench_norm.cpp:85
Eigen::Index
EIGEN_DEFAULT_DENSE_INDEX_TYPE Index
The Index type as used for the API.
Definition Meta.h:74
Eigen::Dynamic
const int Dynamic
Definition Constants.h:22
j
std::ptrdiff_t j
Definition tut_arithmetic_redux_minmax.cpp:2
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