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Scaling2d.h
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22 #ifndef LSST_AFW_MATH_POLYNOMIALS_Scaling2d_h_INCLUDED
23 #define LSST_AFW_MATH_POLYNOMIALS_Scaling2d_h_INCLUDED
24 
26 #include "lsst/geom/Point.h"
27 #include "lsst/geom/Box.h"
28 
29 namespace lsst { namespace geom { namespace polynomials {
30 
48 class Scaling2d {
49 public:
50 
52  Scaling2d(Scaling1d const & x, Scaling1d const & y) noexcept : _x(x), _y(y) {}
53 
55  Scaling2d(Scaling2d const &) noexcept = default;
56 
58  Scaling2d(Scaling2d &&) noexcept = default;
59 
61  Scaling2d & operator=(Scaling2d const &) noexcept = default;
62 
64  Scaling2d & operator=(Scaling2d &&) noexcept = default;
65 
67  Scaling1d const & getX() const noexcept { return _x; }
68 
70  Scaling1d const & getY() const noexcept { return _y; }
71 
73  geom::Point2D applyForward(geom::Point2D const & p) const noexcept {
74  return geom::Point2D(getX().applyForward(p.getX()), getY().applyForward(p.getY()));
75  }
76 
78  geom::Point2D applyInverse(geom::Point2D const & p) const noexcept {
79  return geom::Point2D(getX().applyInverse(p.getX()), getY().applyInverse(p.getY()));
80  }
81 
89  Scaling2d inverted() const noexcept {
90  return Scaling2d(getX().inverted(), getY().inverted());
91  }
92 
100  Scaling2d then(Scaling2d const & second) const noexcept {
101  return Scaling2d(getX().then(second.getX()), getY().then(second.getY()));
102  }
103 
104 private:
105  Scaling1d _x;
106  Scaling1d _y;
107 };
108 
113  return Scaling2d(
114  makeUnitRangeScaling1d(box.getMinX(), box.getMaxX()),
116  );
117 }
118 
119 }}} // namespace lsst::geom::polynomials
120 
121 #endif // !LSST_AFW_MATH_POLYNOMIALS_Scaling2d_h_INCLUDED
Scaling1d const & getY() const noexcept
Return the 1-d scaling in the Y direction.
Definition: Scaling2d.h:70
double getMinY() const noexcept
Definition: Box.h:515
A floating-point coordinate rectangle geometry.
Definition: Box.h:413
double getMinX() const noexcept
Definition: Box.h:514
int y
Definition: SpanSet.cc:49
double getMaxX() const noexcept
Definition: Box.h:518
Scaling2d inverted() const noexcept
Invert the transform.
Definition: Scaling2d.h:89
Scaling2d & operator=(Scaling2d const &) noexcept=default
Default copy assignment.
Point< double, 2 > Point2D
Definition: Point.h:324
double applyInverse(double y) const noexcept
Apply the inverse of the forward transform;.
Definition: Scaling1d.h:79
double getMaxY() const noexcept
Definition: Box.h:519
A 2-d separable affine transform that can be used to map one interval to another. ...
Definition: Scaling2d.h:48
A base class for image defects.
geom::Point2D applyInverse(geom::Point2D const &p) const noexcept
Apply the inverse of the forward transform.
Definition: Scaling2d.h:78
Scaling1d makeUnitRangeScaling1d(double min, double max) noexcept
Return a Scaling1d that maps the interval [min, max] to [-1, 1].
Definition: Scaling1d.h:120
double applyForward(double x) const noexcept
Apply the transform in the forward direction.
Definition: Scaling1d.h:72
double x
Scaling2d then(Scaling2d const &second) const noexcept
Compose two transforms.
Definition: Scaling2d.h:100
Scaling2d(Scaling1d const &x, Scaling1d const &y) noexcept
Construct from the given 1-d scalings.
Definition: Scaling2d.h:52
geom::Point2D applyForward(geom::Point2D const &p) const noexcept
Apply the transform in the forward direction.
Definition: Scaling2d.h:73
Scaling2d makeUnitRangeScaling2d(geom::Box2D const &box)
Return a Scaling1d that maps the given box to [-1, 1]x[-1, 1].
Definition: Scaling2d.h:112
A 1-d affine transform that can be used to map one interval to another.
Definition: Scaling1d.h:46
Scaling1d then(Scaling1d const &second) const noexcept
Compose two transforms.
Definition: Scaling1d.h:107
Scaling1d const & getX() const noexcept
Return the 1-d scaling in the X direction.
Definition: Scaling2d.h:67