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Function1d.h
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22 #ifndef LSST_AFW_MATH_POLYNOMIALS_Function1d_h_INCLUDED
23 #define LSST_AFW_MATH_POLYNOMIALS_Function1d_h_INCLUDED
24 
25 #include "Eigen/Core"
28 
29 namespace lsst { namespace geom { namespace polynomials {
30 
41 template <typename Basis_>
42 class Function1d {
43 public:
44 
45  using iterator = double *;
46  using const_iterator = double const *;
47 
49  using Basis = Basis_;
50 
52  explicit Function1d(Basis const & basis) :
53  _basis(basis),
54  _coefficients(Eigen::VectorXd::Zero(basis.size()))
55  {}
56 
58  Function1d(Basis const & basis, Eigen::VectorXd const & coefficients) :
59  _basis(basis),
60  _coefficients(coefficients)
61  {
62  assert(basis.size() == static_cast<std::size_t>(_coefficients.size()));
63  }
64 
66  template <typename Iterator>
68  _basis(basis),
69  _coefficients(basis.size())
70  {
71  assert(std::distance(first, last) == static_cast<std::ptrdiff_t>(basis.size()));
72  std::copy(first, last, &_coefficients[0]);
73  }
74 
76  Function1d(Function1d const &) = default;
77 
79  Function1d(Function1d &&) = default;
80 
82  Function1d & operator=(Function1d const &) = default;
83 
85  Function1d & operator=(Function1d &&) = default;
86 
88  iterator begin() { return _coefficients.data(); }
90  iterator end() { return begin() + size(); }
91  const_iterator cbegin() const { return _coefficients.data(); }
92  const_iterator cend() const { return begin() + size(); }
93  const_iterator begin() const { return _coefficients.data(); }
94  const_iterator end() const { return begin() + size(); }
96 
98  Basis const & getBasis() const { return _basis; }
99 
101  std::size_t size() const { return _basis.size(); }
102 
104  double operator()(double x, SumMode mode=SumMode::FAST) const {
105  return _basis.sumWith(x, _coefficients, mode);
106  }
107 
109 
114  double & operator[](std::size_t n) { return begin()[n]; }
115  double const & operator[](std::size_t n) const { return begin()[n]; }
117 
119 
126  // Return a block view to ensure the caller only modify the values, not the size.
127  return _coefficients.head(size());
128  }
129  auto getCoefficients() const { return _coefficients.head(size()); }
131 
134  return Function1d<typename Basis::Scaled>(getBasis().scaled(scaling), _coefficients);
135  }
136 
137 private:
138  Basis _basis;
139  Eigen::VectorXd _coefficients;
140 };
141 
143 template <typename Basis>
144 Function1d<Basis> makeFunction1d(Basis const & basis, Eigen::VectorXd const & coefficients) {
146 }
147 
149 template <typename Basis, typename Iterator>
151  return Function1d<Basis>(basis, first, last);
152 }
153 
154 
155 }}} // namespace lsst::geom::polynomials
156 
157 #endif // !LSST_AFW_MATH_POLYNOMIALS_Function1d_h_INCLUDED
Function1d< typename Basis::Scaled > scaled(Scaling1d const &scaling) const
Return a new function that applies the given scaling to all points before evaluation.
Definition: Function1d.h:133
T copy(T... args)
T distance(T... args)
Function1d(Basis const &basis)
Construct with zero-valued coefficients.
Definition: Function1d.h:52
double & operator[](std::size_t n)
Return the coefficient associated with the nth basis function.
Definition: Function1d.h:114
Summation using regular floating-point addition.
Function1d & operator=(Function1d const &)=default
Default copy assignment.
auto getCoefficients()
Return the coefficient vector as an Eigen matrix-like object.
Definition: Function1d.h:125
Basis_ Basis
The basis type used by this function.
Definition: Function1d.h:49
SumMode
Enum used to control how to sum polynomial terms.
Definition: SafeSum.h:32
A 1-d function defined by a series expansion and its coefficients.
Definition: Function1d.h:42
FastFinder::Iterator Iterator
Definition: FastFinder.cc:179
const_iterator cend() const
Iterators over coefficients.
Definition: Function1d.h:92
A base class for image defects.
std::size_t size() const
Return the number of coefficients.
Definition: Function1d.h:101
Basis const & getBasis() const
Return the associated Basis1d object.
Definition: Function1d.h:98
Function1d(Basis const &basis, Eigen::VectorXd const &coefficients)
Construct with coefficients from an Eigen object.
Definition: Function1d.h:58
auto getCoefficients() const
Return the coefficient vector as an Eigen matrix-like object.
Definition: Function1d.h:129
Function1d(Basis const &basis, Iterator first, Iterator last)
Construct by copying coefficients from an STL iterator range.
Definition: Function1d.h:67
double const & operator[](std::size_t n) const
Return the coefficient associated with the nth basis function.
Definition: Function1d.h:115
table::Key< table::Array< double > > basis
Definition: PsfexPsf.cc:361
const_iterator begin() const
Iterators over coefficients.
Definition: Function1d.h:93
Function1d< Basis > makeFunction1d(Basis const &basis, Eigen::VectorXd const &coefficients)
Create a Function1d of the appropriate type from a Basis1d and an Eigen object containing coefficient...
Definition: Function1d.h:144
double x
iterator begin()
Iterators over coefficients.
Definition: Function1d.h:89
table::Key< double > scaling
A 1-d affine transform that can be used to map one interval to another.
Definition: Scaling1d.h:46
iterator end()
Iterators over coefficients.
Definition: Function1d.h:90
const_iterator end() const
Iterators over coefficients.
Definition: Function1d.h:94
double operator()(double x, SumMode mode=SumMode::FAST) const
Evaluate the function at the given point.
Definition: Function1d.h:104
const_iterator cbegin() const
Iterators over coefficients.
Definition: Function1d.h:91
ndarray::Array< double const, 2, 2 > coefficients