Coverage for python/lsst/analysis/tools/atools/deblenderMetric.py: 25%

1# This file is part of analysis_tools.

3# Developed for the LSST Data Management System.

4# This product includes software developed by the LSST Project

5# (https://www.lsst.org).

6# See the COPYRIGHT file at the top-level directory of this distribution

7# for details of code ownership.

9# This program is free software: you can redistribute it and/or modify

10# it under the terms of the GNU General Public License as published by

11# the Free Software Foundation, either version 3 of the License, or

12# (at your option) any later version.

13#

14# This program is distributed in the hope that it will be useful,

15# but WITHOUT ANY WARRANTY; without even the implied warranty of

16# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the

17# GNU General Public License for more details.

18#

19# You should have received a copy of the GNU General Public License

20# along with this program. If not, see <https://www.gnu.org/licenses/>.

21from __future__ import annotations

23__all__ = ("ParentDeblenderMetrics", "SkippedDeblenderMetrics", "BlendMetrics", "IsolatedDeblenderMetrics")

25from ..actions.scalar.scalarActions import CountAction, DivideScalar, MeanAction, SumAction

26from ..actions.vector.mathActions import AddVector, SubtractVector

27from ..actions.vector.selectors import (

28 ChildObjectSelector,

29 FlagSelector,

30 ParentObjectSelector,

31 ThresholdSelector,

32)

33from ..actions.vector.vectorActions import LoadVector

34from ..interfaces import AnalysisTool

37class ParentDeblenderMetrics(AnalysisTool):

38 """Calculate metrics based on the performance of the deblender"""

40 def setDefaults(self):

41 super().setDefaults()

43 # Only select parents

44 self.prep.selectors.parentSelector = ParentObjectSelector()

46 # Subtract the number of children+isolated from the number of peaks

47 # to get the number of peakDropouts. Ideally, this should be zero.

48 self.process.buildActions.peakDropouts = SubtractVector()

49 self.process.buildActions.peakDropouts.actionA = LoadVector(vectorKey="deblend_nPeaks")

50 self.process.buildActions.peakDropouts.actionB = AddVector(

51 actionA=LoadVector(vectorKey="deblend_nChild"),

52 actionB=LoadVector(vectorKey="deblend_skipped_isolatedParent"),

53 )

55 # Statistics for parent blends

56 self.process.calculateActions.numParents = CountAction(vectorKey="parentObjectId")

57 self.process.calculateActions.numDeblendFailed = SumAction(vectorKey="deblend_failed")

58 self.process.calculateActions.numIncompleteData = SumAction(vectorKey="deblend_incompleteData")

60 # Total number of detected peaks

61 self.process.calculateActions.numDetectedPeaks = SumAction(vectorKey="deblend_nPeaks")

63 # Total number of deblended children

64 self.process.calculateActions.numDeblendedChildren = SumAction(vectorKey="deblend_nChild")

66 # Total number of peak dropouts

67 self.process.calculateActions.numPeakDropouts = SumAction(vectorKey="peakDropouts")

69 # Total number of peak dropouts as proportion of total number of peaks

70 self.process.calculateActions.propPeakDropouts = DivideScalar()

71 self.process.calculateActions.propPeakDropouts.actionA = SumAction(vectorKey="peakDropouts")

72 self.process.calculateActions.propPeakDropouts.actionB = SumAction(vectorKey="deblend_nPeaks")

74 self.produce.metric.units = {

75 "numParents": "",

76 "numDeblendFailed": "",

77 "numIncompleteData": "",

78 "numDetectedPeaks": "",

79 "numDeblendedChildren": "",

80 "numPeakDropouts": "",

81 "propPeakDropouts": "",

82 }

85class SkippedDeblenderMetrics(AnalysisTool):

86 """Calculate metrics based on blends skipped by the deblender"""

88 def setDefaults(self):

89 super().setDefaults()

91 # Only select non-sky object parents that were skipped but did not fail

92 # This also excludes isolated objects that were skipped

93 # if isolated objects are not being deblended

94 self.prep.selectors.parentSelector = ParentObjectSelector()

95 self.prep.selectors.skippedSelector = FlagSelector()

96 self.prep.selectors.skippedSelector.selectWhenTrue = ["deblend_skipped"]

97 self.prep.selectors.skippedSelector.selectWhenFalse = [

98 "deblend_failed",

99 "deblend_skipped_isolatedParent",

100 ]

101

102 # Statistics for skipped blends

103 self.process.calculateActions.numSkippedBlends = CountAction(vectorKey="parentObjectId")

104 self.process.calculateActions.numBlendParentTooBig = SumAction(

105 vectorKey="deblend_skipped_parentTooBig"

106 )

107 self.process.calculateActions.numBlendTooManyPeaks = SumAction(

108 vectorKey="deblend_skipped_tooManyPeaks"

109 )

110 self.process.calculateActions.numBlendTooManyMasked = SumAction(vectorKey="deblend_skipped_masked")

111

112 # Total number of skipped peaks

113 self.process.calculateActions.numSkippedPeaks = SumAction(vectorKey="deblend_nPeaks")

114

115 self.produce.metric.units = {

116 "numSkippedBlends": "",

117 "numBlendParentTooBig": "",

118 "numBlendTooManyPeaks": "",

119 "numBlendTooManyMasked": "",

120 "numSkippedPeaks": "",

121 }

122

123

124class BlendMetrics(AnalysisTool):

125 """Calculate metrics based on the performance of the deblender for blends

126 with multiple children

127 """

128

129 def setDefaults(self):

130 super().setDefaults()

131

132 # Only select parents that were successfully deblended

133 # with more than one child

134 self.prep.selectors.parentSelector = ParentObjectSelector()

135 self.prep.selectors.blendSelector = ThresholdSelector()

136 self.prep.selectors.blendSelector.vectorKey = "deblend_nChild"

137 self.prep.selectors.blendSelector.op = "gt"

138 self.prep.selectors.blendSelector.threshold = 1

139

140 # Statistics for blended parents

141 self.process.calculateActions.numBlends = CountAction(vectorKey="parentObjectId")

142 self.process.calculateActions.meanBlendIterations = MeanAction(vectorKey="deblend_iterations")

143 self.process.calculateActions.meanBlendChi2 = MeanAction(vectorKey="deblend_chi2")

144

145 self.produce.metric.units = {

146 "numBlends": "",

147 "meanBlendIterations": "",

148 "meanBlendChi2": "",

149 }

150

151

152class IsolatedDeblenderMetrics(AnalysisTool):

153 """Calculate metrics based on the performance of the deblender for

154 parents with only a single child peak.

155 """

156

157 def setDefaults(self):

158 super().setDefaults()

159

160 # Only select parents that were successfully deblended with one child

161 self.prep.selectors.parentSelector = ParentObjectSelector()

162 self.prep.selectors.blendSelector = ThresholdSelector()

163 self.prep.selectors.blendSelector.vectorKey = "deblend_nChild"

164 self.prep.selectors.blendSelector.op = "eq"

165 self.prep.selectors.blendSelector.threshold = 1

166

167 # Statistics for isolated parent scarlet_lite models

168 self.process.calculateActions.numIsolated = CountAction(vectorKey="parentObjectId")

169 self.process.calculateActions.meanIsolatedIterations = MeanAction(vectorKey="deblend_iterations")

170 self.process.calculateActions.meanIsolatedChi2 = MeanAction(vectorKey="deblend_chi2")

171

172 self.produce.metric.units = {

173 "numIsolated": "",

174 "meanIsolatedIterations": "",

175 "meanIsolatedChi2": "",

176 }

177

178

179class ChildDeblenderMetrics(AnalysisTool):

180 """Calculate metrics based on the performance of the deblender for

181 single sources.

182 """

183

184 def setDefaults(self):

185 super().setDefaults()

186 self.prep.selectors.childSelector = ChildObjectSelector()

187 self.process.calculateActions.zeroFlux = SumAction(vectorKey="deblend_zeroFlux")

188

189 self.produce.metric.units = {

190 "zeroFlux": "",

191 }

Coverage for python / lsst / analysis / tools / atools / deblenderMetric.py: 25%

67 statements