BiCGSTAB.h
1// This file is part of Eigen, a lightweight C++ template library
2// for linear algebra.
3//
4// Copyright (C) 2011 Gael Guennebaud <gael.guennebaud@inria.fr>
5// Copyright (C) 2012 Désiré Nuentsa-Wakam <desire.nuentsa_wakam@inria.fr>
6//
7// This Source Code Form is subject to the terms of the Mozilla
8// Public License v. 2.0. If a copy of the MPL was not distributed
9// with this file, You can obtain one at http://mozilla.org/MPL/2.0/.
10
11#ifndef EIGEN_BICGSTAB_H
12#define EIGEN_BICGSTAB_H
13
14namespace Eigen {
15
16namespace internal {
17
28template<typename MatrixType, typename Rhs, typename Dest, typename Preconditioner>
29bool bicgstab(const MatrixType& mat, const Rhs& rhs, Dest& x,
30 const Preconditioner& precond, int& iters,
31 typename Dest::RealScalar& tol_error)
32{
33 using std::sqrt;
34 using std::abs;
35 typedef typename Dest::RealScalar RealScalar;
36 typedef typename Dest::Scalar Scalar;
37 typedef Matrix<Scalar,Dynamic,1> VectorType;
38 RealScalar tol = tol_error;
39 int maxIters = iters;
40
41 int n = mat.cols();
42 VectorType r = rhs - mat * x;
43 VectorType r0 = r;
44
45 RealScalar r0_sqnorm = r0.squaredNorm();
46 Scalar rho = 1;
47 Scalar alpha = 1;
48 Scalar w = 1;
49
50 VectorType v = VectorType::Zero(n), p = VectorType::Zero(n);
51 VectorType y(n), z(n);
52 VectorType kt(n), ks(n);
53
54 VectorType s(n), t(n);
55
56 RealScalar tol2 = tol*tol;
57 int i = 0;
58
59 while ( r.squaredNorm()/r0_sqnorm > tol2 && i<maxIters )
60 {
61 Scalar rho_old = rho;
62
63 rho = r0.dot(r);
64 if (rho == Scalar(0)) return false; /* New search directions cannot be found */
65 Scalar beta = (rho/rho_old) * (alpha / w);
66 p = r + beta * (p - w * v);
67
68 y = precond.solve(p);
69
70 v.noalias() = mat * y;
71
72 alpha = rho / r0.dot(v);
73 s = r - alpha * v;
74
75 z = precond.solve(s);
76 t.noalias() = mat * z;
77
78 w = t.dot(s) / t.squaredNorm();
79 x += alpha * y + w * z;
80 r = s - w * t;
81 ++i;
82 }
83 tol_error = sqrt(r.squaredNorm()/r0_sqnorm);
84 iters = i;
85 return true;
86}
87
88}
89
90template< typename _MatrixType,
91 typename _Preconditioner = DiagonalPreconditioner<typename _MatrixType::Scalar> >
92class BiCGSTAB;
93
94namespace internal {
95
96template< typename _MatrixType, typename _Preconditioner>
97struct traits<BiCGSTAB<_MatrixType,_Preconditioner> >
98{
99 typedef _MatrixType MatrixType;
100 typedef _Preconditioner Preconditioner;
101};
102
103}
104
151template< typename _MatrixType, typename _Preconditioner>
152class BiCGSTAB : public IterativeSolverBase<BiCGSTAB<_MatrixType,_Preconditioner> >
153{
154 typedef IterativeSolverBase<BiCGSTAB> Base;
155 using Base::mp_matrix;
156 using Base::m_error;
157 using Base::m_iterations;
158 using Base::m_info;
159 using Base::m_isInitialized;
160public:
161 typedef _MatrixType MatrixType;
162 typedef typename MatrixType::Scalar Scalar;
163 typedef typename MatrixType::Index Index;
164 typedef typename MatrixType::RealScalar RealScalar;
165 typedef _Preconditioner Preconditioner;
166
167public:
168
170 BiCGSTAB() : Base() {}
171
182 BiCGSTAB(const MatrixType& A) : Base(A) {}
183
184 ~BiCGSTAB() {}
185
191 template<typename Rhs,typename Guess>
192 inline const internal::solve_retval_with_guess<BiCGSTAB, Rhs, Guess>
193 solveWithGuess(const MatrixBase<Rhs>& b, const Guess& x0) const
194 {
195 eigen_assert(m_isInitialized && "BiCGSTAB is not initialized.");
196 eigen_assert(Base::rows()==b.rows()
197 && "BiCGSTAB::solve(): invalid number of rows of the right hand side matrix b");
198 return internal::solve_retval_with_guess
199 <BiCGSTAB, Rhs, Guess>(*this, b.derived(), x0);
200 }
201
203 template<typename Rhs,typename Dest>
204 void _solveWithGuess(const Rhs& b, Dest& x) const
205 {
206 bool failed = false;
207 for(int j=0; j<b.cols(); ++j)
208 {
209 m_iterations = Base::maxIterations();
210 m_error = Base::m_tolerance;
211
212 typename Dest::ColXpr xj(x,j);
213 if(!internal::bicgstab(*mp_matrix, b.col(j), xj, Base::m_preconditioner, m_iterations, m_error))
214 failed = true;
215 }
216 m_info = failed ? NumericalIssue
217 : m_error <= Base::m_tolerance ? Success
218 : NoConvergence;
219 m_isInitialized = true;
220 }
221
223 template<typename Rhs,typename Dest>
224 void _solve(const Rhs& b, Dest& x) const
225 {
226 x.setZero();
227 _solveWithGuess(b,x);
228 }
229
230protected:
231
232};
233
234
235namespace internal {
236
237 template<typename _MatrixType, typename _Preconditioner, typename Rhs>
238struct solve_retval<BiCGSTAB<_MatrixType, _Preconditioner>, Rhs>
239 : solve_retval_base<BiCGSTAB<_MatrixType, _Preconditioner>, Rhs>
240{
241 typedef BiCGSTAB<_MatrixType, _Preconditioner> Dec;
242 EIGEN_MAKE_SOLVE_HELPERS(Dec,Rhs)
243
244 template<typename Dest> void evalTo(Dest& dst) const
245 {
246 dec()._solve(rhs(),dst);
247 }
248};
249
250} // end namespace internal
251
252} // end namespace Eigen
253
254#endif // EIGEN_BICGSTAB_H
Eigen::BiCGSTAB
A bi conjugate gradient stabilized solver for sparse square problems.
Definition BiCGSTAB.h:153
Eigen::BiCGSTAB::BiCGSTAB
BiCGSTAB()
Definition BiCGSTAB.h:170
Eigen::BiCGSTAB::BiCGSTAB
BiCGSTAB(const MatrixType &A)
Definition BiCGSTAB.h:182
Eigen::BiCGSTAB::solveWithGuess
const internal::solve_retval_with_guess< BiCGSTAB, Rhs, Guess > solveWithGuess(const MatrixBase< Rhs > &b, const Guess &x0) const
Definition BiCGSTAB.h:193
Eigen::DiagonalPreconditioner
A preconditioner based on the digonal entries.
Definition BasicPreconditioners.h:34
Eigen::IterativeSolverBase< BiCGSTAB >::maxIterations
int maxIterations() const
Definition IterativeSolverBase.h:136
Eigen::MatrixBase
Base class for all dense matrices, vectors, and expressions.
Definition MatrixBase.h:50
Eigen::NoConvergence
@ NoConvergence
Definition Constants.h:373
Eigen::NumericalIssue
@ NumericalIssue
Definition Constants.h:371
Eigen::Success
@ Success
Definition Constants.h:369
Eigen::internal
Definition LDLT.h:18