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LSST Data Management Base Package
DipoleAlgorithms.h
Go to the documentation of this file.
1// -*- LSST-C++ -*-
2
3/*
4 * LSST Data Management System
5 * Copyright 2008-2015 AURA/LSST
6 *
7 * This product includes software developed by the
8 * LSST Project (http://www.lsst.org/).
9 *
10 * This program is free software: you can redistribute it and/or modify
11 * it under the terms of the GNU General Public License as published by
12 * the Free Software Foundation, either version 3 of the License, or
13 * (at your option) any later version.
14 *
15 * This program is distributed in the hope that it will be useful,
16 * but WITHOUT ANY WARRANTY; without even the implied warranty of
17 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
18 * GNU General Public License for more details.
19 *
20 * You should have received a copy of the LSST License Statement and
21 * the GNU General Public License along with this program. If not,
22 * see <http://www.lsstcorp.org/LegalNotices/>.
23 */
24
25#ifndef LSST_IP_DIFFIM_DIPOLEALGORITHMS_H
26#define LSST_IP_DIFFIM_DIPOLEALGORITHMS_H
28// Control/algorithm hierarchy for dipole measurement.
29//
30
31#include <stdio.h>
32#include <execinfo.h>
33#include <signal.h>
34#include <stdlib.h>
35#include <unistd.h>
36#include <array>
37
38#include "lsst/base.h"
39#include "lsst/pex/config.h"
40#include "ndarray/eigen.h"
41#include "lsst/afw/table/Source.h"
42#include "lsst/meas/base/Algorithm.h"
43#include "lsst/meas/base/FluxUtilities.h"
44#include "lsst/meas/base/CentroidUtilities.h"
45#include "lsst/meas/base/FlagHandler.h"
46#include "lsst/meas/base/InputUtilities.h"
47
48namespace lsst {
49namespace ip {
50namespace diffim {
51
52class DipoleCentroidControl {
53public:
54
55 explicit DipoleCentroidControl() {}
56};
57
58class DipoleFluxControl {
59public:
60
61 explicit DipoleFluxControl() {}
62};
63
67class PsfDipoleFluxControl : public DipoleFluxControl {
68public:
69 LSST_CONTROL_FIELD(stepSizeCoord, float, "Default initial step size for coordinates in non-linear fitter");
70 LSST_CONTROL_FIELD(stepSizeFlux, float, "Default initial step size for flux in non-linear fitter");
71 LSST_CONTROL_FIELD(errorDef, double, "How many sigma the error bars of the non-linear fitter represent");
72 LSST_CONTROL_FIELD(maxFnCalls, int, "Maximum function calls for non-linear fitter; 0 = unlimited");
73 PsfDipoleFluxControl() : DipoleFluxControl(),
74 stepSizeCoord(0.1), stepSizeFlux(1.0), errorDef(1.0), maxFnCalls(100000) {}
75};
76
80class DipoleCentroidAlgorithm : public meas::base::SimpleAlgorithm {
81public:
82
83 static meas::base::FlagDefinition const FAILURE;
84 static meas::base::FlagDefinition const POS_FLAG;
85 static meas::base::FlagDefinition const NEG_FLAG;
86 static meas::base::FlagDefinitionList const & getFlagDefinitions();
87
88 typedef DipoleCentroidControl Control;
89
90 DipoleCentroidAlgorithm(Control const & ctrl, std::string const & name,
91 afw::table::Schema & schema, std::string const & doc);
92
93 typedef meas::base::CentroidResultKey ResultKey;
94
96 ResultKey const & getPositiveKeys() const { return _positiveKeys; }
97 ResultKey const & getNegativeKeys() const { return _negativeKeys; }
98
99protected:
101 DipoleCentroidAlgorithm(Control const & ctrl, std::string const & name, afw::table::Schema & schema,
102 std::string const & doc, ResultKey const & positiveKeys, ResultKey const & negativeKeys);
103
104 Control _ctrl;
105 meas::base::FluxResultKey _fluxResultKey;
106 meas::base::FlagHandler _flagHandler;
107 ResultKey _centerKeys;
108 ResultKey _positiveKeys;
109 ResultKey _negativeKeys;
110};
111
115class DipoleFluxAlgorithm : public meas::base::SimpleAlgorithm {
116public:
117
118 static meas::base::FlagDefinition const FAILURE;
119 static meas::base::FlagDefinition const POS_FLAG;
120 static meas::base::FlagDefinition const NEG_FLAG;
121 static meas::base::FlagDefinitionList const & getFlagDefinitions();
122
125 typedef DipoleFluxControl Control;
126
127 DipoleFluxAlgorithm(Control const & ctrl, std::string const & name, afw::table::Schema & schema,
128 std::string const & doc);
129
130 // A typedef for the FunctorKey which returns the result of this algorithm
131 typedef meas::base::FluxResultKey ResultKey;
133 ResultKey const & getPositiveKeys() const { return _positiveKeys; }
134 ResultKey const & getNegativeKeys() const { return _negativeKeys; }
135
136protected:
137
139 DipoleFluxAlgorithm(Control const & ctrl, std::string const & name,
140 afw::table::Schema & schema, std::string const & doc,
141 ResultKey const & positiveKeys, ResultKey const & negativeKeys);
142
143 Control _ctrl;
144 meas::base::FluxResultKey _fluxResultKey;
145 meas::base::FlagHandler _flagHandler;
146
147 ResultKey _positiveKeys;
148 ResultKey _negativeKeys;
149};
150
151inline DipoleCentroidAlgorithm::DipoleCentroidAlgorithm(
152 Control const & ctrl, std::string const & name, afw::table::Schema & schema, std::string const & doc
153 ) :
154 _ctrl(ctrl)
155{
156 _flagHandler = meas::base::FlagHandler::addFields(schema, name, getFlagDefinitions());
157 meas::base::CentroidResultKey::addFields(schema, name, doc+": overall centroid", meas::base::SIGMA_ONLY);
158 meas::base::CentroidResultKey::addFields(schema, name+"_pos", doc+": positive lobe", meas::base::SIGMA_ONLY);
159 meas::base::CentroidResultKey::addFields(schema, name+"_neg", doc+": negative lobe", meas::base::SIGMA_ONLY);
160 _centerKeys = ResultKey(schema[name]);
161 _positiveKeys = ResultKey(schema[name+"_pos"]);
162 _negativeKeys = ResultKey(schema[name+"_neg"]);
163}
164
165inline DipoleCentroidAlgorithm::DipoleCentroidAlgorithm(
166 Control const & ctrl, std::string const & name, afw::table::Schema & schema, std::string const & doc,
167 ResultKey const & positiveKeys, ResultKey const & negativeKeys
168 ) :
169 _ctrl(ctrl)
170{
171 _flagHandler = meas::base::FlagHandler::addFields(schema, name, getFlagDefinitions());
172 meas::base::CentroidResultKey::addFields(schema, name, doc+": overall centroid", meas::base::SIGMA_ONLY);
173 meas::base::CentroidResultKey::addFields(schema, name+"_pos", doc + ": positive lobe", meas::base::SIGMA_ONLY);
174 meas::base::CentroidResultKey::addFields(schema, name+"_neg", doc + ": negative lobe", meas::base::SIGMA_ONLY);
175 _centerKeys = ResultKey(schema[name]);
176
177 _positiveKeys = ResultKey(schema[name+"_pos"]);
178 _negativeKeys = ResultKey(schema[name+"_neg"]);
179}
180
181inline DipoleFluxAlgorithm::DipoleFluxAlgorithm(
182 Control const & ctrl, std::string const & name, afw::table::Schema & schema,
183 std::string const & doc, ResultKey const & positiveKeys, ResultKey const & negativeKeys
184 ) :
185 _ctrl(ctrl)
186{
187 _flagHandler = meas::base::FlagHandler::addFields(schema, name, getFlagDefinitions());
188 meas::base::FluxResultKey::addFields(schema, name+"_pos", doc+": positive lobe");
189 meas::base::FluxResultKey::addFields(schema, name+"_neg", doc+": negative lobe");
190 _positiveKeys = ResultKey(positiveKeys);
191 _negativeKeys = ResultKey(negativeKeys);
192}
193
194inline DipoleFluxAlgorithm::DipoleFluxAlgorithm(
195 Control const & ctrl, std::string const & name, afw::table::Schema & schema,
196 std::string const & doc
197 ) :
198 _ctrl(ctrl)
199{
200 _flagHandler = meas::base::FlagHandler::addFields(schema, name, getFlagDefinitions());
201 meas::base::FluxResultKey::addFields(schema, name+"_pos", doc+": positive lobe");
202 meas::base::FluxResultKey::addFields(schema, name+"_neg", doc+": negative lobe");
203 _positiveKeys = ResultKey(schema[name+"_pos"]);
204 _negativeKeys = ResultKey(schema[name+"_neg"]);
205}
206
207/*
208class that knows how to calculate centroids as a simple unweighted first
209 * moment of the 3x3 region around the peaks
210 */
211class NaiveDipoleFlux : public DipoleFluxAlgorithm {
212public:
213
214 typedef DipoleFluxControl Control;
215
216 NaiveDipoleFlux(Control const & ctrl, std::string const & name, afw::table::Schema & schema) :
217 DipoleFluxAlgorithm(ctrl, name, schema, "raw flux counts"),
218 _numPositiveKey(schema.addField<int>(name+"_npos", "number of positive pixels", "count")),
219 _numNegativeKey(schema.addField<int>(name+"_nneg", "number of negative pixels", "count"))
220 {
221 }
222
223 void measure(
224 afw::table::SourceRecord & measRecord,
225 afw::image::Exposure<float> const & exposure
226 ) const;
227
228 void fail(
229 afw::table::SourceRecord & measRecord,
230 meas::base::MeasurementError * error=NULL
231 ) const;
232
233private:
234
235 Control _ctrl;
236 afw::table::Key<int> _numPositiveKey;
237 afw::table::Key<int> _numNegativeKey;
238};
239
243class NaiveDipoleCentroid : public DipoleCentroidAlgorithm {
244public:
245
246 NaiveDipoleCentroid(Control const & ctrl, std::string const & name, afw::table::Schema & schema);
252 typedef meas::base::CentroidResultKey ResultKey;
253
255 ResultKey const & getCenterKeys() const { return _centerKeys; }
256 ResultKey const & getPositiveKeys() const { return _positiveKeys; }
257 ResultKey const & getNegativeKeys() const { return _negativeKeys; }
258
259 void measure(
260 afw::table::SourceRecord & measRecord,
261 afw::image::Exposure<float> const & exposure
262 ) const;
263
264 void mergeCentroids(afw::table::SourceRecord & source, double posValue, double negValue) const;
265
266 void fail(
267 afw::table::SourceRecord & measRecord,
268 meas::base::MeasurementError * error=NULL
269 ) const;
270
271protected:
273 NaiveDipoleCentroid(Control const & ctrl, std::string const & name, afw::table::Schema & schema,
274 ResultKey const & positiveKeys, ResultKey const & negativeKeys);
275
276private:
277
278 Control _ctrl;
279 meas::base::FluxResultKey _fluxResultKey;
280 meas::base::FlagHandler _flagHandler;
281};
282
283
284
285
289class PsfDipoleFlux : public DipoleFluxAlgorithm {
290public:
291
292 typedef PsfDipoleFluxControl Control;
293
294 PsfDipoleFlux(PsfDipoleFluxControl const & ctrl, std::string const & name, afw::table::Schema & schema) :
295 DipoleFluxAlgorithm(ctrl, name, schema, "jointly fitted psf flux counts"),
296 _ctrl(ctrl),
297 _chi2dofKey(schema.addField<float>(name+"_chi2dof",
298 "chi2 per degree of freedom of fit"))
299 {
300 meas::base::CentroidResultKey::addFields(schema, name+"_pos_centroid", "psf fitted center of positive lobe", meas::base::SIGMA_ONLY);
301 meas::base::CentroidResultKey::addFields(schema, name+"_neg_centroid", "psf fitted center of negative lobe", meas::base::SIGMA_ONLY);
302 meas::base::CentroidResultKey::addFields(schema, name+"_centroid", "average of negative and positive lobe positions", meas::base::SIGMA_ONLY);
303 _posCentroid = meas::base::CentroidResultKey(schema[name+"_pos_centroid"]);
304 _negCentroid = meas::base::CentroidResultKey(schema[name+"_neg_centroid"]);
305 _avgCentroid = meas::base::CentroidResultKey(schema[name+"_centroid"]);
306 }
307 std::pair<double,int> chi2(afw::table::SourceRecord & source,
308 afw::image::Exposure<float> const & exposure,
309 double negCenterX, double negCenterY, double negFlux,
310 double posCenterX, double poCenterY, double posFlux
311 ) const;
312
313 void measure(
314 afw::table::SourceRecord & measRecord,
315 afw::image::Exposure<float> const & exposure
316 ) const;
317
318 void fail(
319 afw::table::SourceRecord & measRecord,
320 meas::base::MeasurementError * error=NULL
321 ) const;
322
323private:
324
325 Control _ctrl;
326 afw::table::Key<float> _chi2dofKey;
327 meas::base::CentroidResultKey _avgCentroid;
328 meas::base::CentroidResultKey _negCentroid;
329 meas::base::CentroidResultKey _posCentroid;
330
331};
332
333}}}// namespace lsst::ip::diffim
334
335#endif // !LSST_IP_DIFFIM_DIPOLEALGORITHMS_H
name
table::Key< std::string > name
Definition: Amplifier.cc:116
schema
table::Schema schema
Definition: python.h:134
base.h
Basic LSST definitions.
lsst::afw::image::Exposure
A class to contain the data, WCS, and other information needed to describe an image of the sky.
Definition: Exposure.h:72
lsst::afw::table::Key
A class used as a handle to a particular field in a table.
Definition: Key.h:53
lsst::afw::table::Schema
Defines the fields and offsets for a table.
Definition: Schema.h:51
lsst::afw::table::SourceRecord
Record class that contains measurements made on a single exposure.
Definition: Source.h:78
lsst::ip::diffim::DipoleCentroidAlgorithm
Intermediate base class for algorithms that compute a centroid.
Definition: DipoleAlgorithms.h:80
lsst::ip::diffim::DipoleCentroidAlgorithm::getPositiveKeys
ResultKey const & getPositiveKeys() const
Return the standard centroid keys registered by this algorithm.
Definition: DipoleAlgorithms.h:96
lsst::ip::diffim::DipoleCentroidAlgorithm::FAILURE
static meas::base::FlagDefinition const FAILURE
Definition: DipoleAlgorithms.h:83
lsst::ip::diffim::DipoleCentroidAlgorithm::ResultKey
meas::base::CentroidResultKey ResultKey
Definition: DipoleAlgorithms.h:93
lsst::ip::diffim::DipoleCentroidAlgorithm::POS_FLAG
static meas::base::FlagDefinition const POS_FLAG
Definition: DipoleAlgorithms.h:84
lsst::ip::diffim::DipoleCentroidAlgorithm::getNegativeKeys
ResultKey const & getNegativeKeys() const
Definition: DipoleAlgorithms.h:97
lsst::ip::diffim::DipoleCentroidAlgorithm::NEG_FLAG
static meas::base::FlagDefinition const NEG_FLAG
Definition: DipoleAlgorithms.h:85
lsst::ip::diffim::DipoleCentroidAlgorithm::getFlagDefinitions
static meas::base::FlagDefinitionList const & getFlagDefinitions()
Definition: DipoleAlgorithms.cc:77
lsst::ip::diffim::DipoleCentroidAlgorithm::DipoleCentroidAlgorithm
DipoleCentroidAlgorithm(Control const &ctrl, std::string const &name, afw::table::Schema &schema, std::string const &doc)
Definition: DipoleAlgorithms.h:151
lsst::ip::diffim::DipoleFluxAlgorithm
Intermediate base class for algorithms that compute a flux.
Definition: DipoleAlgorithms.h:115
lsst::ip::diffim::DipoleFluxAlgorithm::ResultKey
meas::base::FluxResultKey ResultKey
Definition: DipoleAlgorithms.h:131
lsst::ip::diffim::DipoleFluxAlgorithm::getFlagDefinitions
static meas::base::FlagDefinitionList const & getFlagDefinitions()
Definition: DipoleAlgorithms.cc:65
lsst::ip::diffim::DipoleFluxAlgorithm::Control
DipoleFluxControl Control
A typedef to the Control object for this algorithm, defined above.
Definition: DipoleAlgorithms.h:125
lsst::ip::diffim::DipoleFluxAlgorithm::getPositiveKeys
ResultKey const & getPositiveKeys() const
Return the standard flux keys registered by this algorithm.
Definition: DipoleAlgorithms.h:133
lsst::ip::diffim::DipoleFluxAlgorithm::POS_FLAG
static meas::base::FlagDefinition const POS_FLAG
Definition: DipoleAlgorithms.h:119
lsst::ip::diffim::DipoleFluxAlgorithm::NEG_FLAG
static meas::base::FlagDefinition const NEG_FLAG
Definition: DipoleAlgorithms.h:120
lsst::ip::diffim::DipoleFluxAlgorithm::getNegativeKeys
ResultKey const & getNegativeKeys() const
Definition: DipoleAlgorithms.h:134
lsst::ip::diffim::DipoleFluxAlgorithm::_fluxResultKey
meas::base::FluxResultKey _fluxResultKey
Definition: DipoleAlgorithms.h:144
lsst::ip::diffim::DipoleFluxAlgorithm::DipoleFluxAlgorithm
DipoleFluxAlgorithm(Control const &ctrl, std::string const &name, afw::table::Schema &schema, std::string const &doc)
Definition: DipoleAlgorithms.h:194
lsst::ip::diffim::DipoleFluxAlgorithm::FAILURE
static meas::base::FlagDefinition const FAILURE
Definition: DipoleAlgorithms.h:118
lsst::ip::diffim::NaiveDipoleCentroid
Intermediate base class for algorithms that compute a centroid.
Definition: DipoleAlgorithms.h:243
lsst::ip::diffim::NaiveDipoleCentroid::getPositiveKeys
ResultKey const & getPositiveKeys() const
Definition: DipoleAlgorithms.h:256
lsst::ip::diffim::NaiveDipoleCentroid::getNegativeKeys
ResultKey const & getNegativeKeys() const
Definition: DipoleAlgorithms.h:257
lsst::ip::diffim::NaiveDipoleCentroid::NaiveDipoleCentroid
NaiveDipoleCentroid(Control const &ctrl, std::string const &name, afw::table::Schema &schema)
Definition: DipoleAlgorithms.cc:144
lsst::ip::diffim::NaiveDipoleCentroid::ResultKey
meas::base::CentroidResultKey ResultKey
Tuple type that holds the keys that define a standard centroid algorithm.
Definition: DipoleAlgorithms.h:252
lsst::ip::diffim::NaiveDipoleCentroid::NaiveDipoleCentroid
NaiveDipoleCentroid(Control const &ctrl, std::string const &name, afw::table::Schema &schema, ResultKey const &positiveKeys, ResultKey const &negativeKeys)
Initialize with a manually-constructed key tuple.
lsst::ip::diffim::NaiveDipoleCentroid::measure
void measure(afw::table::SourceRecord &measRecord, afw::image::Exposure< float > const &exposure) const
Given an image and a pixel position, return a Centroid using a naive 3x3 weighted moment.
Definition: DipoleAlgorithms.cc:155
lsst::ip::diffim::NaiveDipoleCentroid::mergeCentroids
void mergeCentroids(afw::table::SourceRecord &source, double posValue, double negValue) const
Definition: DipoleAlgorithms.cc:183
lsst::ip::diffim::NaiveDipoleCentroid::fail
void fail(afw::table::SourceRecord &measRecord, meas::base::MeasurementError *error=NULL) const
Handle an exception thrown by the current algorithm by setting flags in the given record.
Definition: DipoleAlgorithms.cc:210
lsst::ip::diffim::NaiveDipoleCentroid::getCenterKeys
ResultKey const & getCenterKeys() const
Return the standard centroid keys registered by this algorithm.
Definition: DipoleAlgorithms.h:255
lsst::ip::diffim::NaiveDipoleFlux::measure
void measure(afw::table::SourceRecord &measRecord, afw::image::Exposure< float > const &exposure) const
Given an image and a pixel position, return a Centroid using a naive 3x3 weighted moment.
Definition: DipoleAlgorithms.cc:267
lsst::ip::diffim::NaiveDipoleFlux::fail
void fail(afw::table::SourceRecord &measRecord, meas::base::MeasurementError *error=NULL) const
Handle an exception thrown by the current algorithm by setting flags in the given record.
Definition: DipoleAlgorithms.cc:287
lsst::ip::diffim::NaiveDipoleFlux::NaiveDipoleFlux
NaiveDipoleFlux(Control const &ctrl, std::string const &name, afw::table::Schema &schema)
Definition: DipoleAlgorithms.h:216
lsst::ip::diffim::PsfDipoleFluxControl
C++ control object for PSF dipole fluxes.
Definition: DipoleAlgorithms.h:67
lsst::ip::diffim::PsfDipoleFluxControl::stepSizeCoord
float stepSizeCoord
"Default initial step size for coordinates in non-linear fitter" ;
Definition: DipoleAlgorithms.h:69
lsst::ip::diffim::PsfDipoleFluxControl::errorDef
double errorDef
"How many sigma the error bars of the non-linear fitter represent" ;
Definition: DipoleAlgorithms.h:71
lsst::ip::diffim::PsfDipoleFluxControl::stepSizeFlux
float stepSizeFlux
"Default initial step size for flux in non-linear fitter" ;
Definition: DipoleAlgorithms.h:70
lsst::ip::diffim::PsfDipoleFluxControl::maxFnCalls
int maxFnCalls
"Maximum function calls for non-linear fitter; 0 = unlimited" ;
Definition: DipoleAlgorithms.h:72
lsst::ip::diffim::PsfDipoleFlux
Implementation of Psf dipole flux.
Definition: DipoleAlgorithms.h:289
lsst::ip::diffim::PsfDipoleFlux::chi2
std::pair< double, int > chi2(afw::table::SourceRecord &source, afw::image::Exposure< float > const &exposure, double negCenterX, double negCenterY, double negFlux, double posCenterX, double poCenterY, double posFlux) const
Definition: DipoleAlgorithms.cc:351
lsst::ip::diffim::PsfDipoleFlux::measure
void measure(afw::table::SourceRecord &measRecord, afw::image::Exposure< float > const &exposure) const
Called to measure a single child source in an image.
Definition: DipoleAlgorithms.cc:416
lsst::ip::diffim::PsfDipoleFlux::PsfDipoleFlux
PsfDipoleFlux(PsfDipoleFluxControl const &ctrl, std::string const &name, afw::table::Schema &schema)
Definition: DipoleAlgorithms.h:294
lsst::ip::diffim::PsfDipoleFlux::fail
void fail(afw::table::SourceRecord &measRecord, meas::base::MeasurementError *error=NULL) const
Handle an exception thrown by the current algorithm by setting flags in the given record.
Definition: DipoleAlgorithms.cc:512
lsst::meas::base::CentroidResultKey
A FunctorKey for CentroidResult.
Definition: CentroidUtilities.h:88
lsst::meas::base::CentroidResultKey::addFields
static CentroidResultKey addFields(afw::table::Schema &schema, std::string const &name, std::string const &doc, UncertaintyEnum uncertainty)
Add the appropriate fields to a Schema, and return a CentroidResultKey that manages them.
Definition: CentroidUtilities.cc:66
lsst::meas::base::FlagDefinitionList
vector-type utility class to build a collection of FlagDefinitions
Definition: FlagHandler.h:60
lsst::meas::base::FlagHandler
Utility class for handling flag fields that indicate the failure modes of an algorithm.
Definition: FlagHandler.h:148
lsst::meas::base::FlagHandler::addFields
static FlagHandler addFields(afw::table::Schema &schema, std::string const &prefix, FlagDefinitionList const &flagDefs, FlagDefinitionList const &exclDefs=FlagDefinitionList::getEmptyList())
Add Flag fields to a schema, creating a FlagHandler object to manage them.
Definition: FlagHandler.cc:37
lsst::meas::base::FluxResultKey
A FunctorKey for FluxResult.
Definition: FluxUtilities.h:59
lsst::meas::base::FluxResultKey::addFields
static FluxResultKey addFields(afw::table::Schema &schema, std::string const &name, std::string const &doc)
Add a pair of _instFlux, _instFluxErr fields to a Schema, and return a FluxResultKey that points to t...
Definition: FluxUtilities.cc:36
lsst::meas::base::MeasurementError
Exception to be thrown when a measurement algorithm experiences a known failure mode.
Definition: exceptions.h:48
lsst::meas::base::SimpleAlgorithm
An abstract base classes for which the same implementation can be used for both SingleFrameAlgorithm ...
Definition: Algorithm.h:170
LSST_CONTROL_FIELD
#define LSST_CONTROL_FIELD(NAME, TYPE, DOC)
A preprocessor macro used to define fields in C++ "control object" structs.
Definition: config.h:43
ast::detail::source
const char * source()
Source function that allows astChannel to source from a Stream.
Definition: Stream.h:224
lsst::meas::base::SIGMA_ONLY
@ SIGMA_ONLY
Only the diagonal elements of the covariance matrix are provided.
Definition: constants.h:45
lsst
A base class for image defects.
Definition: imageAlgorithm.dox:1
lsst::meas::base::FlagDefinition
Simple class used to define and document flags The name and doc constitute the identity of the FlagDe...
Definition: FlagHandler.h:40
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