Companion.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) 2010 Manuel Yguel <manuel.yguel@gmail.com>
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_COMPANION_H
11 #define EIGEN_COMPANION_H
12 
13 // This file requires the user to include
14 // * Eigen/Core
15 // * Eigen/src/PolynomialSolver.h
16 
17 namespace Eigen {
18 
19 namespace internal {
20 
21 #ifndef EIGEN_PARSED_BY_DOXYGEN
22 
23 template<int Size>
25 {
26  enum {
27  ret = (Size == Dynamic) ? Dynamic : Size-1 };
28 };
29 
30 #endif
31 
32 template< typename _Scalar, int _Deg >
33 class companion
34 {
35  public:
37 
38  enum {
39  Deg = _Deg,
41  };
42 
43  typedef _Scalar Scalar;
46  //typedef DiagonalMatrix< Scalar, Deg_1, Deg_1 > BottomLeftDiagonal;
48 
53 
54  typedef DenseIndex Index;
55 
56  public:
58  {
59  if( m_bl_diag.rows() > col )
60  {
61  if( 0 < row ){ return m_bl_diag[col]; }
62  else{ return 0; }
63  }
64  else{ return m_monic[row]; }
65  }
66 
67  public:
68  template<typename VectorType>
69  void setPolynomial( const VectorType& poly )
70  {
71  const Index deg = poly.size()-1;
72  m_monic = -poly.head(deg)/poly[deg];
73  m_bl_diag.setOnes(deg-1);
74  }
75 
76  template<typename VectorType>
77  companion( const VectorType& poly ){
78  setPolynomial( poly ); }
79 
80  public:
82  {
83  const Index deg = m_monic.size();
84  const Index deg_1 = deg-1;
85  DenseCompanionMatrixType companMat(deg,deg);
86  companMat <<
87  ( LeftBlock(deg,deg_1)
88  << LeftBlockFirstRow::Zero(1,deg_1),
89  BottomLeftBlock::Identity(deg-1,deg-1)*m_bl_diag.asDiagonal() ).finished()
90  , m_monic;
91  return companMat;
92  }
93 
94 
95 
96  protected:
103  bool balanced( RealScalar colNorm, RealScalar rowNorm,
104  bool& isBalanced, RealScalar& colB, RealScalar& rowB );
105 
112  bool balancedR( RealScalar colNorm, RealScalar rowNorm,
113  bool& isBalanced, RealScalar& colB, RealScalar& rowB );
114 
115  public:
124  void balance();
125 
126  protected:
129 };
130 
131 
132 
133 template< typename _Scalar, int _Deg >
134 inline
136  bool& isBalanced, RealScalar& colB, RealScalar& rowB )
137 {
138  if( RealScalar(0) == colNorm || RealScalar(0) == rowNorm
139  || !(numext::isfinite)(colNorm) || !(numext::isfinite)(rowNorm)){
140  return true;
141  }
142  else
143  {
144  //To find the balancing coefficients, if the radix is 2,
145  //one finds \f$ \sigma \f$ such that
146  // \f$ 2^{2\sigma-1} < rowNorm / colNorm \le 2^{2\sigma+1} \f$
147  // then the balancing coefficient for the row is \f$ 1/2^{\sigma} \f$
148  // and the balancing coefficient for the column is \f$ 2^{\sigma} \f$
149  const RealScalar radix = RealScalar(2);
150  const RealScalar radix2 = RealScalar(4);
151 
152  rowB = rowNorm / radix;
153  colB = RealScalar(1);
154  const RealScalar s = colNorm + rowNorm;
155 
156  // Find sigma s.t. rowNorm / 2 <= 2^(2*sigma) * colNorm
157  RealScalar scout = colNorm;
158  while (scout < rowB)
159  {
160  colB *= radix;
161  scout *= radix2;
162  }
163 
164  // We now have an upper-bound for sigma, try to lower it.
165  // Find sigma s.t. 2^(2*sigma) * colNorm / 2 < rowNorm
166  scout = colNorm * (colB / radix) * colB; // Avoid overflow.
167  while (scout >= rowNorm)
168  {
169  colB /= radix;
170  scout /= radix2;
171  }
172 
173  // This line is used to avoid insubstantial balancing.
174  if ((rowNorm + radix * scout) < RealScalar(0.95) * s * colB)
175  {
176  isBalanced = false;
177  rowB = RealScalar(1) / colB;
178  return false;
179  }
180  else
181  {
182  return true;
183  }
184  }
185 }
186 
187 template< typename _Scalar, int _Deg >
188 inline
190  bool& isBalanced, RealScalar& colB, RealScalar& rowB )
191 {
192  if( RealScalar(0) == colNorm || RealScalar(0) == rowNorm ){ return true; }
193  else
194  {
199  const RealScalar q = colNorm/rowNorm;
200  if( !isApprox( q, _Scalar(1) ) )
201  {
202  rowB = sqrt( colNorm/rowNorm );
203  colB = RealScalar(1)/rowB;
204 
205  isBalanced = false;
206  return false;
207  }
208  else{
209  return true; }
210  }
211 }
212 
213 
214 template< typename _Scalar, int _Deg >
216 {
217  using std::abs;
218  EIGEN_STATIC_ASSERT( Deg == Dynamic || 1 < Deg, YOU_MADE_A_PROGRAMMING_MISTAKE );
219  const Index deg = m_monic.size();
220  const Index deg_1 = deg-1;
221 
222  bool hasConverged=false;
223  while( !hasConverged )
224  {
225  hasConverged = true;
226  RealScalar colNorm,rowNorm;
227  RealScalar colB,rowB;
228 
229  //First row, first column excluding the diagonal
230  //==============================================
231  colNorm = abs(m_bl_diag[0]);
232  rowNorm = abs(m_monic[0]);
233 
234  //Compute balancing of the row and the column
235  if( !balanced( colNorm, rowNorm, hasConverged, colB, rowB ) )
236  {
237  m_bl_diag[0] *= colB;
238  m_monic[0] *= rowB;
239  }
240 
241  //Middle rows and columns excluding the diagonal
242  //==============================================
243  for( Index i=1; i<deg_1; ++i )
244  {
245  // column norm, excluding the diagonal
246  colNorm = abs(m_bl_diag[i]);
247 
248  // row norm, excluding the diagonal
249  rowNorm = abs(m_bl_diag[i-1]) + abs(m_monic[i]);
250 
251  //Compute balancing of the row and the column
252  if( !balanced( colNorm, rowNorm, hasConverged, colB, rowB ) )
253  {
254  m_bl_diag[i] *= colB;
255  m_bl_diag[i-1] *= rowB;
256  m_monic[i] *= rowB;
257  }
258  }
259 
260  //Last row, last column excluding the diagonal
261  //============================================
262  const Index ebl = m_bl_diag.size()-1;
263  VectorBlock<RightColumn,Deg_1> headMonic( m_monic, 0, deg_1 );
264  colNorm = headMonic.array().abs().sum();
265  rowNorm = abs( m_bl_diag[ebl] );
266 
267  //Compute balancing of the row and the column
268  if( !balanced( colNorm, rowNorm, hasConverged, colB, rowB ) )
269  {
270  headMonic *= colB;
271  m_bl_diag[ebl] *= rowB;
272  }
273  }
274 }
275 
276 } // end namespace internal
277 
278 } // end namespace Eigen
279 
280 #endif // EIGEN_COMPANION_H
Eigen::internal::companion::RealScalar
NumTraits< Scalar >::Real RealScalar
Definition: Companion.h:44
Eigen
Namespace containing all symbols from the Eigen library.
Definition: jet.h:637
col
m col(1)
s
RealScalar s
Definition: level1_cplx_impl.h:126
Eigen::internal::companion::balanced
bool balanced(RealScalar colNorm, RealScalar rowNorm, bool &isBalanced, RealScalar &colB, RealScalar &rowB)
Definition: Companion.h:135
Eigen::numext::isfinite
EIGEN_DEVICE_FUNC EIGEN_ALWAYS_INLINE bool() isfinite(const Eigen::bfloat16 &h)
Definition: BFloat16.h:671
Eigen::internal::companion::companion
companion(const VectorType &poly)
Definition: Companion.h:77
Eigen::internal::companion::Scalar
_Scalar Scalar
Definition: Companion.h:43
Eigen::internal::companion::Deg
@ Deg
Definition: Companion.h:39
Eigen::internal::companion::balancedR
bool balancedR(RealScalar colNorm, RealScalar rowNorm, bool &isBalanced, RealScalar &colB, RealScalar &rowB)
Definition: Companion.h:189
Eigen::internal::isApprox
EIGEN_DEVICE_FUNC bool isApprox(const Scalar &x, const Scalar &y, const typename NumTraits< Scalar >::Real &precision=NumTraits< Scalar >::dummy_precision())
Definition: Eigen/src/Core/MathFunctions.h:1947
Eigen::internal::companion::denseMatrix
DenseCompanionMatrixType denseMatrix() const
Definition: Companion.h:81
Eigen::internal::decrement_if_fixed_size
Definition: Companion.h:24
Eigen::numext::q
EIGEN_DEVICE_FUNC const Scalar & q
Definition: SpecialFunctionsImpl.h:1984
Eigen::PlainObjectBase::setOnes
EIGEN_DEVICE_FUNC Derived & setOnes(Index size)
Definition: CwiseNullaryOp.h:714
Eigen::internal::companion::LeftBlockFirstRow
Matrix< Scalar, 1, Deg_1 > LeftBlockFirstRow
Definition: Companion.h:52
Eigen::internal::companion::m_bl_diag
BottomLeftDiagonal m_bl_diag
Definition: Companion.h:128
Eigen::Dynamic
const int Dynamic
Definition: Constants.h:22
Eigen::internal::companion::balance
void balance()
Definition: Companion.h:215
Eigen::internal::companion::RightColumn
Matrix< Scalar, Deg, 1 > RightColumn
Definition: Companion.h:45
Eigen::PlainObjectBase::rows
EIGEN_DEVICE_FUNC EIGEN_STRONG_INLINE EIGEN_CONSTEXPR Index rows() const EIGEN_NOEXCEPT
Definition: PlainObjectBase.h:143
EIGEN_STRONG_INLINE
#define EIGEN_STRONG_INLINE
Definition: Macros.h:917
Eigen::internal::companion::BottomLeftBlock
Matrix< Scalar, Deg_1, Deg_1 > BottomLeftBlock
Definition: Companion.h:51
Eigen::internal::companion::Index
DenseIndex Index
Definition: Companion.h:54
Eigen::internal::companion::Deg_1
@ Deg_1
Definition: Companion.h:40
Eigen::internal::companion::LeftBlock
Matrix< Scalar, _Deg, Deg_1 > LeftBlock
Definition: Companion.h:50
Eigen::internal::decrement_if_fixed_size::ret
@ ret
Definition: Companion.h:27
RealScalar
NumTraits< Scalar >::Real RealScalar
Definition: bench_gemm.cpp:47
Eigen::internal::companion::DenseCompanionMatrixType
Matrix< Scalar, Deg, Deg > DenseCompanionMatrixType
Definition: Companion.h:49
EIGEN_STATIC_ASSERT
#define EIGEN_STATIC_ASSERT(CONDITION, MSG)
Definition: StaticAssert.h:127
Eigen::DenseIndex
EIGEN_DEFAULT_DENSE_INDEX_TYPE DenseIndex
Definition: Meta.h:66
row
m row(1)
Eigen::internal::companion::BottomLeftDiagonal
Matrix< Scalar, Deg_1, 1 > BottomLeftDiagonal
Definition: Companion.h:47
Eigen::VectorBlock
Expression of a fixed-size or dynamic-size sub-vector.
Definition: ForwardDeclarations.h:85
Eigen::Matrix< Scalar, Deg, 1 >
abs
#define abs(x)
Definition: datatypes.h:17
internal
Definition: BandTriangularSolver.h:13
VectorType
Definition: FFTW.cpp:65
Eigen::internal::companion
Definition: Companion.h:33
Eigen::internal::companion::m_monic
RightColumn m_monic
Definition: Companion.h:127
Eigen::NumTraits
Holds information about the various numeric (i.e. scalar) types allowed by Eigen.
Definition: NumTraits.h:232
ceres::sqrt
Jet< T, N > sqrt(const Jet< T, N > &f)
Definition: jet.h:418
i
int i
Definition: BiCGSTAB_step_by_step.cpp:9
EIGEN_MAKE_ALIGNED_OPERATOR_NEW_IF_VECTORIZABLE_FIXED_SIZE
#define EIGEN_MAKE_ALIGNED_OPERATOR_NEW_IF_VECTORIZABLE_FIXED_SIZE(Scalar, Size)
Definition: Memory.h:842
Eigen::internal::companion::operator()
const EIGEN_STRONG_INLINE _Scalar operator()(Index row, Index col) const
Definition: Companion.h:57
Eigen::internal::companion::setPolynomial
void setPolynomial(const VectorType &poly)
Definition: Companion.h:69


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autogenerated on Sat Nov 16 2024 04:02:00