LSST Applications  21.0.0-147-g0e635eb1+1acddb5be5,22.0.0+052faf71bd,22.0.0+1ea9a8b2b2,22.0.0+6312710a6c,22.0.0+729191ecac,22.0.0+7589c3a021,22.0.0+9f079a9461,22.0.1-1-g7d6de66+b8044ec9de,22.0.1-1-g87000a6+536b1ee016,22.0.1-1-g8e32f31+6312710a6c,22.0.1-10-gd060f87+016f7cdc03,22.0.1-12-g9c3108e+df145f6f68,22.0.1-16-g314fa6d+c825727ab8,22.0.1-19-g93a5c75+d23f2fb6d8,22.0.1-19-gb93eaa13+aab3ef7709,22.0.1-2-g8ef0a89+b8044ec9de,22.0.1-2-g92698f7+9f079a9461,22.0.1-2-ga9b0f51+052faf71bd,22.0.1-2-gac51dbf+052faf71bd,22.0.1-2-gb66926d+6312710a6c,22.0.1-2-gcb770ba+09e3807989,22.0.1-20-g32debb5+b8044ec9de,22.0.1-23-gc2439a9a+fb0756638e,22.0.1-3-g496fd5d+09117f784f,22.0.1-3-g59f966b+1e6ba2c031,22.0.1-3-g849a1b8+f8b568069f,22.0.1-3-gaaec9c0+c5c846a8b1,22.0.1-32-g5ddfab5d3+60ce4897b0,22.0.1-4-g037fbe1+64e601228d,22.0.1-4-g8623105+b8044ec9de,22.0.1-5-g096abc9+d18c45d440,22.0.1-5-g15c806e+57f5c03693,22.0.1-7-gba73697+57f5c03693,master-g6e05de7fdc+c1283a92b8,master-g72cdda8301+729191ecac,w.2021.39
LSST Data Management Base Package
PixelFinder.h
Go to the documentation of this file.
1 /*
2  * LSST Data Management System
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22 
23 #ifndef LSST_SPHGEOM_PIXELFINDER_H_
24 #define LSST_SPHGEOM_PIXELFINDER_H_
25 
28 
29 #include "lsst/sphgeom/RangeSet.h"
30 
31 #include "ConvexPolygonImpl.h"
32 
33 
34 namespace lsst {
35 namespace sphgeom {
36 namespace detail {
37 
38 // `PixelFinder` is a CRTP base class that locates pixels intersecting a
39 // region. It assumes a hierarchical pixelization, and that pixels are
40 // convex spherical polygons with a fixed number of vertices.
41 //
42 // The algorithm used is top-down tree traversal, implemented via recursion
43 // for simplicity. Subclasses must provide a method named `subdivide` with
44 // the following signature:
45 //
46 // void subdivide(UnitVector3d const * pixel,
47 // uint64_t index,
48 // int level);
49 //
50 // that subdivides a pixel into its children and then invokes visit() on
51 // each child. Children should be visited in ascending index order to keep
52 // RangeSet inserts efficient. The subclass is also responsible for
53 // implementing a top-level method that invokes visit() on each root pixel,
54 // or on some set of candidate pixels.
55 //
56 // The `RegionType` parameter avoids the need for virtual function calls to
57 // determine the spatial relationship between pixels and the input region. The
58 // boolean template parameter `InteriorOnly` is a flag that indicates whether
59 // to locate all pixels that intersect the input region, or only those that
60 // are entirely inside it. Finally, the `NumVertices` template parameter is
61 // the number of vertices in the polygonal representation of a pixel.
62 template <
63  typename Derived,
64  typename RegionType,
65  bool InteriorOnly,
66  size_t NumVertices
67 >
68 class PixelFinder {
69 public:
71  RegionType const & region,
72  int level,
73  size_t maxRanges):
74  _ranges{&ranges},
75  _region{&region},
76  _level{level},
77  _desiredLevel{level},
78  _maxRanges{maxRanges == 0 ? maxRanges - 1 : maxRanges}
79  {}
80 
81  void visit(UnitVector3d const * pixel,
82  uint64_t index,
83  int level)
84  {
85  if (level > _level) {
86  // Nothing to do - the subdivision level has been reduced
87  // or a pixel that completely contains the search region
88  // has been found.
89  return;
90  }
91  // Determine the relationship between the pixel and the search region.
92  Relationship r = detail::relate(pixel, pixel + NumVertices, *_region);
93  if ((r & DISJOINT) != 0) {
94  // The pixel is disjoint from the search region.
95  return;
96  }
97  if ((r & WITHIN) != 0) {
98  // The tree traversal has reached a pixel that is entirely within
99  // the search region.
100  _insert(index, level);
101  return;
102  } else if (level == _level) {
103  // The tree traversal has reached a leaf.
104  if (!InteriorOnly) {
105  _insert(index, level);
106  }
107  return;
108  }
109  static_cast<Derived *>(this)->subdivide(pixel, index, level);
110  }
111 
112 private:
113  RangeSet * _ranges;
114  RegionType const * _region;
115  int _level;
116  int const _desiredLevel;
117  size_t const _maxRanges;
118 
119  void _insert(uint64_t index, int level) {
120  int shift = 2 * (_desiredLevel - level);
121  _ranges->insert(index << shift, (index + 1) << shift);
122  while (_ranges->size() > _maxRanges) {
123  // Reduce the subdivision level.
124  --_level;
125  shift += 2;
126  // When looking for intersecting pixels, ranges are simplified
127  // by expanding them outwards, causing nearly adjacent small ranges
128  // to merge.
129  //
130  // When looking for interior pixels, ranges are simplified by
131  // shrinking them inwards, causing small ranges to disappear.
132  if (InteriorOnly) {
133  _ranges->complement();
134  }
135  _ranges->simplify(shift);
136  if (InteriorOnly) {
137  _ranges->complement();
138  }
139  }
140  }
141 };
142 
143 
144 // `findPixels` implements pixel-finding for an arbitrary Region, given a
145 // PixelFinder subclass for a specific pixelization.
146 template <
147  template <typename, bool> class Finder,
148  bool InteriorOnly
149 >
150 RangeSet findPixels(Region const & r, size_t maxRanges, int level) {
151  RangeSet s;
152  Circle const * c = nullptr;
153  Ellipse const * e = nullptr;
154  Box const * b = nullptr;
155  if ((c = dynamic_cast<Circle const *>(&r))) {
156  Finder<Circle, InteriorOnly> find(s, *c, level, maxRanges);
157  find();
158  } else if ((e = dynamic_cast<Ellipse const *>(&r))) {
159  Finder<Circle, InteriorOnly> find(
160  s, e->getBoundingCircle(), level, maxRanges);
161  find();
162  } else if ((b = dynamic_cast<Box const *>(&r))) {
163  Finder<Box, InteriorOnly> find(s, *b, level, maxRanges);
164  find();
165  } else {
166  Finder<ConvexPolygon, InteriorOnly> find(
167  s, dynamic_cast<ConvexPolygon const &>(r), level, maxRanges);
168  find();
169  }
170  return s;
171 }
172 
173 }}} // namespace lsst::sphgeom::detail
174 
175 #endif // LSST_SPHGEOM_PIXELFINDER_H_
This file contains the meat of the ConvexPolygon implementation.
table::PointKey< int > pixel
This file provides a type for representing integer sets.
table::Key< int > b
Box represents a rectangle in spherical coordinate space that contains its boundary.
Definition: Box.h:54
Circle is a circular region on the unit sphere that contains its boundary.
Definition: Circle.h:46
ConvexPolygon is a closed convex polygon on the unit sphere.
Definition: ConvexPolygon.h:57
Ellipse is an elliptical region on the sphere.
Definition: Ellipse.h:169
Circle getBoundingCircle() const override
getBoundingCircle returns a bounding-circle for this region.
Definition: Ellipse.cc:241
A RangeSet is a set of unsigned 64 bit integers.
Definition: RangeSet.h:99
void insert(uint64_t u)
Definition: RangeSet.h:285
RangeSet & complement()
complement replaces this set S with U ∖ S, where U is the universe of range sets, [0,...
Definition: RangeSet.h:328
size_t size() const
size returns the number of ranges in this set.
Definition: RangeSet.h:539
RangeSet & simplify(uint32_t n)
simplify simplifies this range set by "coarsening" its ranges.
Definition: RangeSet.cc:308
Region is a minimal interface for 2-dimensional regions on the unit sphere.
Definition: Region.h:79
UnitVector3d is a unit vector in ℝ³ with components stored in double precision.
Definition: UnitVector3d.h:55
void visit(UnitVector3d const *pixel, uint64_t index, int level)
Definition: PixelFinder.h:81
PixelFinder(RangeSet &ranges, RegionType const &region, int level, size_t maxRanges)
Definition: PixelFinder.h:70
RangeSet findPixels(Region const &r, size_t maxRanges, int level)
Definition: PixelFinder.h:150
Relationship relate(VertexIterator const begin, VertexIterator const end, Box const &b)
A base class for image defects.