LSSTApplications  18.1.0
LSSTDataManagementBasePackage
ConstrainedAstrometryModel.cc
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1 // -*- LSST-C++ -*-
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24 
25 #include "astshim.h"
26 #include "lsst/afw/geom.h"
27 #include "lsst/log/Log.h"
30 #include "lsst/jointcal/CcdImage.h"
35 
36 #include "lsst/pex/exceptions.h"
38 
39 #include <memory>
40 #include <string>
41 #include <iostream>
42 
43 namespace {
44 // Append the keys of this map into a comma-separated string.
45 template <typename KeyType, typename ValueType>
46 void outputMapKeys(std::map<KeyType, ValueType> const &map, std::ostream &os) {
47  bool first = true;
48  os << "[";
49  for (auto const &i : map) {
50  if (first)
51  first = false;
52  else
53  os << ", ";
54  os << i.first;
55  }
56  os << "]";
57 }
58 } // namespace
59 
60 namespace lsst {
61 namespace jointcal {
62 
63 ConstrainedAstrometryModel::ConstrainedAstrometryModel(
65  int chipOrder, int visitOrder)
66  : AstrometryModel(LOG_GET("jointcal.ConstrainedAstrometryModel")),
67  _skyToTangentPlane(projectionHandler) {
68  // keep track of which chip we want to hold fixed (the one closest to the middle of the focal plane)
69  double minRadius2 = std::numeric_limits<double>::infinity();
70  CcdIdType constrainedChip = -1;
71 
72  // first loop to initialize all visit and chip transforms.
73  for (auto &ccdImage : ccdImageList) {
74  const CcdImage &im = *ccdImage;
75  auto visit = im.getVisit();
76  auto chip = im.getCcdId();
77  auto visitp = _visitMap.find(visit);
78  if (visitp == _visitMap.end()) {
79  _visitMap[visit] = std::make_shared<SimplePolyMapping>(AstrometryTransformLinear(),
80  AstrometryTransformPolynomial(visitOrder));
81  }
82  auto chipp = _chipMap.find(chip);
83  if (chipp == _chipMap.end()) {
84  auto center = ccdImage->getDetector()->getCenter(afw::cameraGeom::FOCAL_PLANE);
85  double radius2 = std::pow(center.getX(), 2) + std::pow(center.getY(), 2);
86  if (radius2 < minRadius2) {
87  minRadius2 = radius2;
88  constrainedChip = chip;
89  }
90 
91  auto pixelsToFocal =
93  Frame const &frame = im.getImageFrame();
94  // construct the chip transform by approximating the pixel->Focal afw::geom::Transform.
96  AstrometryTransformPolynomial(pixelsToFocal, frame, chipOrder);
98  _chipMap[chip] = std::make_shared<SimplePolyMapping>(shiftAndNormalize,
99  pol * shiftAndNormalize.inverted());
100  }
101  }
102 
103  // Hold the "central" chip map fixed and don't fit it, to remove a degeneracy.
104  _chipMap.at(constrainedChip)->setToBeFit(false);
105 
106  // now, second loop to set the mappings of the CCdImages
107  for (auto &ccdImage : ccdImageList) {
108  const CcdImage &im = *ccdImage;
109  auto visit = im.getVisit();
110  auto chip = im.getCcdId();
111 
112  // check that the chip_indexed part was indeed assigned
113  // (i.e. the reference visit was complete)
114  if (_chipMap.find(chip) == _chipMap.end()) {
115  LOGLS_WARN(_log, "Chip " << chip << " is missing in the reference exposure, expect troubles.");
117  _chipMap[chip] =
118  std::make_shared<SimplePolyMapping>(norm, AstrometryTransformPolynomial(chipOrder));
119  }
120  _mappings[ccdImage->getHashKey()] =
121  std::make_unique<ChipVisitAstrometryMapping>(_chipMap[chip], _visitMap[visit]);
122  }
123  LOGLS_INFO(_log, "Got " << _chipMap.size() << " chip mappings and " << _visitMap.size()
124  << " visit mappings; holding chip " << constrainedChip << " fixed ("
125  << getTotalParameters() << " total parameters).");
126  LOGLS_DEBUG(_log, "CcdImage map has " << _mappings.size() << " mappings, with "
127  << _mappings.bucket_count() << " buckets and a load factor of "
128  << _mappings.load_factor());
129 }
130 
132  return findMapping(ccdImage);
133 }
134 
140  std::string const &whatToFit,
141  Eigen::Index firstIndex
142 ) {
143  Eigen::Index index = firstIndex;
144  if (whatToFit.find("Distortions") == std::string::npos) {
145  LOGLS_ERROR(_log, "assignIndices was called and Distortions is *not* in whatToFit");
146  return 0;
147  }
148  // if we get here "Distortions" is in whatToFit
149  _fittingChips = (whatToFit.find("DistortionsChip") != std::string::npos);
150  _fittingVisits = (whatToFit.find("DistortionsVisit") != std::string::npos);
151  // If nothing more than "Distortions" is specified, it means all:
152  if ((!_fittingChips) && (!_fittingVisits)) {
153  _fittingChips = _fittingVisits = true;
154  }
155  if (_fittingChips)
156  for (auto &i : _chipMap) {
157  i.second->setIndex(index);
158  index += i.second->getNpar();
159  }
160  if (_fittingVisits)
161  for (auto &i : _visitMap) {
162  i.second->setIndex(index);
163  index += i.second->getNpar();
164  }
165  // Tell the mappings which derivatives they will have to fill:
166  for (auto &i : _mappings) {
167  i.second->setWhatToFit(_fittingChips, _fittingVisits);
168  }
169  return index;
170 }
171 
172 void ConstrainedAstrometryModel::offsetParams(Eigen::VectorXd const &delta) {
173  if (_fittingChips)
174  for (auto &i : _chipMap) {
175  auto mapping = i.second.get();
176  mapping->offsetParams(delta.segment(mapping->getIndex(), mapping->getNpar()));
177  }
178  if (_fittingVisits)
179  for (auto &i : _visitMap) {
180  auto mapping = i.second.get();
181  mapping->offsetParams(delta.segment(mapping->getIndex(), mapping->getNpar()));
182  }
183 }
184 
186  for (auto i = _visitMap.begin(); i != _visitMap.end(); ++i) i->second->freezeErrorTransform();
187  for (auto i = _chipMap.begin(); i != _chipMap.end(); ++i) i->second->freezeErrorTransform();
188 }
189 
191  auto chipp = _chipMap.find(chip);
192  if (chipp == _chipMap.end()) {
193  std::stringstream errMsg;
194  errMsg << "No such chipId: " << chip << " among ";
195  outputMapKeys(_chipMap, errMsg);
196  std::cout << std::endl;
197  throw pexExcept::InvalidParameterError(errMsg.str());
198  }
199  return chipp->second->getTransform();
200 }
201 
202 // Array of visits involved in the solution.
205  res.reserve(_visitMap.size());
206  for (auto i = _visitMap.begin(); i != _visitMap.end(); ++i) res.push_back(i->first);
207  return res;
208 }
209 
211  auto visitp = _visitMap.find(visit);
212  if (visitp == _visitMap.end()) {
213  std::stringstream errMsg;
214  errMsg << "No such visitId: " << visit << " among ";
215  outputMapKeys(_visitMap, errMsg);
216  std::cout << std::endl;
217  throw pexExcept::InvalidParameterError(errMsg.str());
218  }
219  return visitp->second->getTransform();
220 }
221 
223  std::size_t total = 0;
224  for (auto &i : _chipMap) {
225  total += i.second->getNpar();
226  }
227  for (auto &i : _visitMap) {
228  total += i.second->getNpar();
229  }
230  return total;
231 }
232 
234  auto proj = std::dynamic_pointer_cast<const TanRaDecToPixel>(getSkyToTangentPlane(ccdImage));
235  jointcal::Point tangentPoint(proj->getTangentPoint());
236 
237  auto imageFrame = ccdImage.getImageFrame();
238  auto pixelsToFocal = getChipTransform(ccdImage.getCcdId()).toAstMap(imageFrame);
239  jointcal::Frame focalBox = getChipTransform(ccdImage.getCcdId()).apply(imageFrame, false);
240  auto focalToIwc = getVisitTransform(ccdImage.getVisit()).toAstMap(focalBox);
241 
242  ast::Frame pixelFrame(2, "Domain=PIXELS");
243  ast::Frame focalFrame(2, "Domain=FOCAL");
244  ast::Frame iwcFrame(2, "Domain=IWC");
245 
246  // make a basic SkyWcs and extract the IWC portion
247  auto iwcToSkyWcs = afw::geom::makeSkyWcs(
248  afw::geom::Point2D(0, 0),
249  afw::geom::SpherePoint(tangentPoint.x, tangentPoint.y, afw::geom::degrees),
251  auto iwcToSkyMap = iwcToSkyWcs->getFrameDict()->getMapping("PIXELS", "SKY");
252  auto skyFrame = iwcToSkyWcs->getFrameDict()->getFrame("SKY");
253 
254  ast::FrameDict frameDict(pixelFrame);
255  frameDict.addFrame("PIXELS", *pixelsToFocal, focalFrame);
256  frameDict.addFrame("FOCAL", *focalToIwc, iwcFrame);
257  frameDict.addFrame("IWC", *iwcToSkyMap, *skyFrame);
258  return std::make_shared<afw::geom::SkyWcs>(frameDict);
259 }
260 
261 AstrometryMapping *ConstrainedAstrometryModel::findMapping(CcdImage const &ccdImage) const {
262  auto i = _mappings.find(ccdImage.getHashKey());
263  if (i == _mappings.end())
265  "ConstrainedAstrometryModel cannot find CcdImage " + ccdImage.getName());
266  return i->second.get();
267 }
268 
269 } // namespace jointcal
270 } // namespace lsst
#define LOGLS_WARN(logger, message)
Log a warn-level message using an iostream-based interface.
Definition: Log.h:633
AstrometryTransform const & getVisitTransform(VisitIdType const &visit) const
Access to mappings.
VisitIdType getVisit() const
returns visit ID
Definition: CcdImage.h:148
Eigen::Index assignIndices(std::string const &whatToFit, Eigen::Index firstIndex) override
Positions the various parameter sets into the parameter vector, starting at firstIndex.
implements the linear transformations (6 real coefficients).
A point in a plane.
Definition: Point.h:36
LOG_LOGGER _log
lsst.logging instance, to be created by a subclass so that messages have consistent name...
std::string getName() const
Return the _name that identifies this ccdImage.
Definition: CcdImage.h:79
CameraSysPrefix const PIXELS
Pixel coordinates: Nominal position on the entry surface of a given detector (x, y unbinned pixels)...
Definition: CameraSys.cc:34
const std::shared_ptr< AstrometryTransform const > getSkyToTangentPlane(CcdImage const &ccdImage) const override
The mapping of sky coordinates (i.e.
T endl(T... args)
Interface between AstrometryFit and the combinations of Mappings from pixels to some tangent plane (a...
T norm(const T &x)
Definition: Integrate.h:194
std::vector< VisitIdType > getVisits() const
Access to array of visits involved in the solution.
std::size_t getTotalParameters() const override
Return the total number of parameters in this model.
CcdIdType getCcdId() const
returns ccd ID
Definition: CcdImage.h:145
STL class.
AstrometryMapping const * getMapping(CcdImage const &) const override
Mapping associated to a given CcdImage.
STL class.
LSST DM logging module built on log4cxx.
pairs of points
T push_back(T... args)
rectangle with sides parallel to axes.
Definition: Frame.h:38
AstrometryTransformLinear normalizeCoordinatesTransform(const Frame &frame)
Returns the transformation that maps the input frame along both axes to [-1,1].
#define LOGLS_DEBUG(logger, message)
Log a debug-level message using an iostream-based interface.
Definition: Log.h:593
AngleUnit constexpr degrees
constant with units of degrees
Definition: Angle.h:109
A base class for image defects.
void addFrame(int iframe, Mapping const &map, Frame const &frame) override
Add a new Frame and an associated Mapping to this FrameSet so as to define a new coordinate system...
Definition: FrameDict.cc:32
Frame is used to represent a coordinate system.
Definition: Frame.h:157
std::shared_ptr< afw::geom::SkyWcs > makeSkyWcs(CcdImage const &ccdImage) const override
Make a SkyWcs that contains this model.
T str(T... args)
void freezeErrorTransform() override
From there on, measurement errors are propagated using the current transforms (and no longer evolve)...
This one is the Tangent Plane (called gnomonic) projection (from celestial sphere to tangent plane) ...
T dynamic_pointer_cast(T... args)
T infinity(T... args)
#define LOGLS_INFO(logger, message)
Log a info-level message using an iostream-based interface.
Definition: Log.h:613
T find(T... args)
#define LSST_EXCEPT(type,...)
Create an exception with a given type.
Definition: Exception.h:48
STL class.
void offsetParams(Eigen::VectorXd const &Delta) override
Dispaches the offsets after a fit step into the actual locations of parameters.
a virtual (interface) class for geometric transformations.
Point in an unspecified spherical coordinate system.
Definition: SpherePoint.h:57
T pow(T... args)
AstrometryTransform const & getChipTransform(CcdIdType const chip) const
Access to mappings.
std::shared_ptr< SkyWcs > makeSkyWcs(daf::base::PropertySet &metadata, bool strip=false)
Construct a SkyWcs from FITS keywords.
Definition: SkyWcs.cc:486
Eigen::Matrix2d makeCdMatrix(lsst::geom::Angle const &scale, lsst::geom::Angle const &orientation=0 *lsst::geom::degrees, bool flipX=false)
Make a WCS CD matrix.
Definition: SkyWcs.cc:139
Reports invalid arguments.
Definition: Runtime.h:66
int VisitIdType
Definition: CcdImage.h:48
virtual class needed in the abstraction of the distortion model
CcdImageKey getHashKey() const
Definition: CcdImage.h:152
std::shared_ptr< afw::cameraGeom::Detector > getDetector() const
Definition: CcdImage.h:150
Handler of an actual image from a single CCD.
Definition: CcdImage.h:64
#define LOG_GET(logger)
Returns a Log object associated with logger.
Definition: Log.h:75
A FrameSet whose frames can be referenced by domain name.
Definition: FrameDict.h:67
CameraSys const FOCAL_PLANE
Focal plane coordinates: Position on a 2-d planar approximation to the focal plane (x...
Definition: CameraSys.cc:30
STL class.
#define LOGLS_ERROR(logger, message)
Log a error-level message using an iostream-based interface.
Definition: Log.h:653
Frame const & getImageFrame() const
Frame in pixels.
Definition: CcdImage.h:191
std::ostream * os
Definition: Schema.cc:746
T reserve(T... args)