10 #ifndef EIGEN_POLYNOMIAL_SOLVER_H 11 #define EIGEN_POLYNOMIAL_SOLVER_H 28 template<
typename _Scalar,
int _Deg >
42 template< typename OtherPolynomial >
47 template<
typename OtherPolynomial >
68 template<
typename Stl_back_insertion_sequence>
69 inline void realRoots( Stl_back_insertion_sequence& bi_seq,
82 template<
typename squaredNormBinaryPredicate>
90 if( pred( currNorm2, norm2 ) ){
91 res=
i; norm2=currNorm2; }
102 std::greater<Scalar> greater;
111 std::less<Scalar> less;
116 template<
typename squaredRealPartBinaryPredicate>
118 squaredRealPartBinaryPredicate& pred,
123 hasArealRoot =
false;
140 if( pred( currAbs2, abs2 ) )
157 template<
typename RealPartBinaryPredicate>
159 RealPartBinaryPredicate& pred,
164 hasArealRoot =
false;
181 if( pred( curr, val ) )
216 std::greater<Scalar> greater;
239 std::less<Scalar> less;
262 std::greater<Scalar> greater;
285 std::less<Scalar> less;
293 #define EIGEN_POLYNOMIAL_SOLVER_BASE_INHERITED_TYPES( BASE ) \ 294 typedef typename BASE::Scalar Scalar; \ 295 typedef typename BASE::RealScalar RealScalar; \ 296 typedef typename BASE::RootType RootType; \ 297 typedef typename BASE::RootsType RootsType; 330 template<
typename _Scalar,
int _Deg >
344 template< typename OtherPolynomial >
354 m_roots = m_eigenSolver.eigenvalues();
356 else if(poly.size () == 2)
364 template<
typename OtherPolynomial >
371 using PS_Base::m_roots;
376 template<
typename _Scalar >
385 template< typename OtherPolynomial >
394 template<
typename OtherPolynomial >
401 using PS_Base::m_roots;
406 #endif // EIGEN_POLYNOMIAL_SOLVER_H EIGEN_DEVICE_FUNC internal::add_const_on_value_type< EIGEN_MATHFUNC_RETVAL(real_ref, Scalar) >::type real_ref(const Scalar &x)
const RealScalar & greatestRealRoot(bool &hasArealRoot, const RealScalar &absImaginaryThreshold=NumTraits< Scalar >::dummy_precision()) const
void realRoots(Stl_back_insertion_sequence &bi_seq, const RealScalar &absImaginaryThreshold=NumTraits< Scalar >::dummy_precision()) const
Namespace containing all symbols from the Eigen library.
PolynomialSolverBase< _Scalar, 1 > PS_Base
DerType::Scalar imag(const AutoDiffScalar< DerType > &)
Holds information about the various numeric (i.e. scalar) types allowed by Eigen. ...
Defined to be inherited by polynomial solvers: it provides convenient methods such as...
#define EIGEN_MAKE_ALIGNED_OPERATOR_NEW_IF_VECTORIZABLE_FIXED_SIZE(Scalar, Size)
PolynomialSolver(const OtherPolynomial &poly)
cout<< "Here is the matrix m:"<< endl<< m<< endl;Matrix< ptrdiff_t, 3, 1 > res
const RootType & smallestRoot() const
EIGEN_DEVICE_FUNC EIGEN_STRONG_INLINE void resize(Index rows, Index cols)
const RealScalar & smallestRealRoot(bool &hasArealRoot, const RealScalar &absImaginaryThreshold=NumTraits< Scalar >::dummy_precision()) const
const RealScalar & absSmallestRealRoot(bool &hasArealRoot, const RealScalar &absImaginaryThreshold=NumTraits< Scalar >::dummy_precision()) const
double norm2(const Point2 &p, OptionalJacobian< 1, 2 > H)
Distance of the point from the origin, with Jacobian.
DenseCompanionMatrixType denseMatrix() const
#define EIGEN_POLYNOMIAL_SOLVER_BASE_INHERITED_TYPES(BASE)
PolynomialSolver(const OtherPolynomial &poly)
NumTraits< Scalar >::Real RealScalar
EIGEN_DEVICE_FUNC EIGEN_STRONG_INLINE const Abs2ReturnType abs2() const
const RootType & greatestRoot() const
std::complex< RealScalar > RootType
EIGEN_DEFAULT_DENSE_INDEX_TYPE DenseIndex
mp::number< mp::cpp_dec_float< 100 >, mp::et_on > Real
void setPolynomial(const OtherPolynomial &poly)
const RealScalar & absGreatestRealRoot(bool &hasArealRoot, const RealScalar &absImaginaryThreshold=NumTraits< Scalar >::dummy_precision()) const
PolynomialSolverBase(const OtherPolynomial &poly)
const RootsType & roots() const
EigenSolverType m_eigenSolver
Computes eigenvalues and eigenvectors of general matrices.
EIGEN_DONT_INLINE void compute(Solver &solver, const MatrixType &A)
The matrix class, also used for vectors and row-vectors.
const RealScalar & selectRealRoot_withRespectToAbsRealPart(squaredRealPartBinaryPredicate &pred, bool &hasArealRoot, const RealScalar &absImaginaryThreshold=NumTraits< Scalar >::dummy_precision()) const
const AutoDiffScalar< DerType > & real(const AutoDiffScalar< DerType > &x)
const RealScalar & selectRealRoot_withRespectToRealPart(RealPartBinaryPredicate &pred, bool &hasArealRoot, const RealScalar &absImaginaryThreshold=NumTraits< Scalar >::dummy_precision()) const
const RootType & selectComplexRoot_withRespectToNorm(squaredNormBinaryPredicate &pred) const