doxygen/xlink_master_2021_09_30_20.02.36/model_fit_adapters_8py_source.html

 #

 # LSST Data Management System

 # Copyright 2008-2013 LSST Corporation.

 #

 # This product includes software developed by the

 # LSST Project (http://www.lsst.org/).

 #

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

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

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

 # (at your option) any later version.

 #

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

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

 # MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the

 # GNU General Public License for more details.

 #

 # You should have received a copy of the LSST License Statement and

 # the GNU General Public License along with this program.  If not,

 # see <http://www.lsstcorp.org/LegalNotices/>.

 #


 import numpy

 from .densityPlot import mergeDefaults

 from .. import modelfitLib


 __all__ = ("SamplingDataAdapter", "OptimizerTrackLayer", "OptimizerDataAdapter",)


 class ModelFitDataAdapter:


     def __init__(self, record):

         self.recordrecord = record

         self.pdfpdf = record.getPdf()

         self.dimensionsdimensions = list(record.getInterpreter().getParameterNames())


     def eval1d(self, dim, x):

         i = self.dimensionsdimensions.index(dim)

         z = numpy.zeros(x.shape, dtype=float)

         if i >= self.pdfpdf.getDimension():

             return None

         projection = self.pdfpdf.project(i)

         projection.evaluate(x.reshape(x.shape + (1,)), z)

         return z


     def eval2d(self, xDim, yDim, x, y):

         i = self.dimensionsdimensions.index(yDim)

         j = self.dimensionsdimensions.index(xDim)

         z = numpy.zeros(x.size, dtype=float)

         if i >= self.pdfpdf.getDimension() or j >= self.pdfpdf.getDimension():

             return None

         projection = self.pdfpdf.project(j, i)

         xy = numpy.zeros((x.size, 2), dtype=float)

         xy[:, 0] = x.flatten()

         xy[:, 1] = y.flatten()

         projection.evaluate(xy, z)

         return z.reshape(x.shape)


 class SamplingDataAdapter(ModelFitDataAdapter):


     def __init__(self, record):

         ModelFitDataAdapter.__init__(self, record)

         self.samplessamples = record.getSamples().copy(deep=True)

         self.valuesvalues = self.samplessamples["parameters"]

         self.weightsweights = self.samplessamples["weight"]

         self.setRangesFromQuantilessetRangesFromQuantiles(0.001, 0.999)

         assert self.valuesvalues.shape[1] == len(self.dimensionsdimensions)


     def setRangesFromQuantiles(self, lower, upper):

         fractions = numpy.array([lower, upper], dtype=float)

         ranges = self.recordrecord.getInterpreter().computeParameterQuantiles(self.recordrecord, fractions)

         self.lowerlower = {dim: ranges[i, 0] for i, dim in enumerate(self.dimensionsdimensions)}

         self.upperupper = {dim: ranges[i, 1] for i, dim in enumerate(self.dimensionsdimensions)}


 class OptimizerTrackLayer:


     defaults = dict(

         accepted=dict(

             marker='.', linestyle='-', color='c',

             markevery=(1, 1),  # (start, stride): don't put a marker on the first point

         ),

         rejected=dict(

             marker='.', linestyle='-', color='k', alpha=0.5,

             markevery=3,  # marker at every third point, so we only mark the rejected points

         ),

     )


     def __init__(self, tag, accepted=None, rejected=None):

         self.tag = tag

         self.accepted = mergeDefaults(accepted, self.defaults['accepted'])

         self.rejected = mergeDefaults(rejected, self.defaults['rejected'])


     def plotX(self, axes, data, dim):

         pass


     def plotY(self, axes, data, dim):

         pass


     def plotXY(self, axes, data, xDim, yDim):

         i = data.dimensions.index(yDim)

         j = data.dimensions.index(xDim)

         artists = []

         artists.extend(axes.plot(data.rejected[:, j], data.rejected[:, i], **self.rejected))

         artists.extend(axes.plot(data.accepted[:, j], data.accepted[:, i], **self.accepted))

         return artists


 class OptimizerDataAdapter(ModelFitDataAdapter):


     def __init__(self, record):

         ModelFitDataAdapter.__init__(self, record)

         self.samplessamples = record.getSamples().copy(deep=True)

         self.parametersparameters = self.samplessamples["parameters"]

         self.statestate = self.samplessamples["state"]

         # The first point is neither accepted nor rejected, so we test on rejected and !rejected so

         # as to include the first point with the accepted points

         mask = (self.statestate & modelfitLib.Optimizer.STATUS_STEP_REJECTED).astype(bool)

         self.acceptedaccepted = self.parametersparameters[numpy.logical_not(mask)]

         # For each rejected point, we have three path points: the rejected point, the last accepted point,

         # and a NaN to tell matplotlib not to connect to the next one.

         # Note that the defaults for OptimizerTrackLayer use markevery=3 to only put markers on

         # the rejected points

         rejected = []

         current = self.parametersparameters[0]

         nans = numpy.array([numpy.nan] * self.parametersparameters.shape[1], dtype=float)

         for parameters, isRejected in zip(self.parametersparameters, mask):

             if isRejected:

                 rejected.extend([parameters, current, nans])

             else:

                 current = parameters

         self.rejectedrejected = numpy.array(rejected)

         self.lowerlower = {}

         self.upperupper = {}

         for i, dim in enumerate(self.dimensionsdimensions):

             projected = self.pdfpdf[0].project(i)

             mu = projected.getMu()

             sigma = projected.getSigma()**0.5

             self.lowerlower[dim] = min(self.acceptedaccepted[:, i].min(), mu - 3*sigma)

             self.upperupper[dim] = max(self.acceptedaccepted[:, i].max(), mu + 3*sigma)

         # Now we setup some special points for a CrossPointsLayer

         self.pointspoints = numpy.zeros((2, self.parametersparameters.shape[1]), dtype=float)

         record.getInterpreter().packParameters(

             self.recordrecord['initial.nonlinear'], self.recordrecord['initial.amplitudes'],

             self.pointspoints[0, :]

         )

         record.getInterpreter().packParameters(

             self.recordrecord['fit.nonlinear'], self.recordrecord['fit.amplitudes'],

             self.pointspoints[1, :]

         )

min
int min
Definition: BoundedField.cc:103

max
int max
Definition: BoundedField.cc:104

lsst::meas::modelfit.display.modelFitAdapters.ModelFitDataAdapter
Definition: modelFitAdapters.py:30

lsst::meas::modelfit.display.modelFitAdapters.ModelFitDataAdapter.eval2d
def eval2d(self, xDim, yDim, x, y)
Definition: modelFitAdapters.py:46

lsst::meas::modelfit.display.modelFitAdapters.ModelFitDataAdapter.eval1d
def eval1d(self, dim, x)
Definition: modelFitAdapters.py:37

lsst::meas::modelfit.display.modelFitAdapters.ModelFitDataAdapter.__init__
def __init__(self, record)
Definition: modelFitAdapters.py:32

lsst::meas::modelfit.display.modelFitAdapters.ModelFitDataAdapter.dimensions
dimensions
Definition: modelFitAdapters.py:35

lsst::meas::modelfit.display.modelFitAdapters.ModelFitDataAdapter.record
record
Definition: modelFitAdapters.py:33

lsst::meas::modelfit.display.modelFitAdapters.ModelFitDataAdapter.pdf
pdf
Definition: modelFitAdapters.py:34

lsst::meas::modelfit.display.modelFitAdapters.OptimizerDataAdapter
Definition: modelFitAdapters.py:110

lsst::meas::modelfit.display.modelFitAdapters.OptimizerDataAdapter.rejected
rejected
Definition: modelFitAdapters.py:133

lsst::meas::modelfit.display.modelFitAdapters.OptimizerDataAdapter.__init__
def __init__(self, record)
Definition: modelFitAdapters.py:112

lsst::meas::modelfit.display.modelFitAdapters.OptimizerDataAdapter.parameters
parameters
Definition: modelFitAdapters.py:115

lsst::meas::modelfit.display.modelFitAdapters.OptimizerDataAdapter.points
points
Definition: modelFitAdapters.py:143

lsst::meas::modelfit.display.modelFitAdapters.OptimizerDataAdapter.lower
lower
Definition: modelFitAdapters.py:134

lsst::meas::modelfit.display.modelFitAdapters.OptimizerDataAdapter.samples
samples
Definition: modelFitAdapters.py:114

lsst::meas::modelfit.display.modelFitAdapters.OptimizerDataAdapter.upper
upper
Definition: modelFitAdapters.py:135

lsst::meas::modelfit.display.modelFitAdapters.OptimizerDataAdapter.state
state
Definition: modelFitAdapters.py:116

lsst::meas::modelfit.display.modelFitAdapters.OptimizerDataAdapter.accepted
accepted
Definition: modelFitAdapters.py:120

lsst::meas::modelfit.display.modelFitAdapters.OptimizerTrackLayer
Definition: modelFitAdapters.py:77

lsst::meas::modelfit.display.modelFitAdapters.SamplingDataAdapter
Definition: modelFitAdapters.py:60

lsst::meas::modelfit.display.modelFitAdapters.SamplingDataAdapter.weights
weights
Definition: modelFitAdapters.py:66

lsst::meas::modelfit.display.modelFitAdapters.SamplingDataAdapter.upper
upper
Definition: modelFitAdapters.py:74

lsst::meas::modelfit.display.modelFitAdapters.SamplingDataAdapter.__init__
def __init__(self, record)
Definition: modelFitAdapters.py:62

lsst::meas::modelfit.display.modelFitAdapters.SamplingDataAdapter.lower
lower
Definition: modelFitAdapters.py:73

lsst::meas::modelfit.display.modelFitAdapters.SamplingDataAdapter.values
values
Definition: modelFitAdapters.py:65

lsst::meas::modelfit.display.modelFitAdapters.SamplingDataAdapter.samples
samples
Definition: modelFitAdapters.py:64

lsst::meas::modelfit.display.modelFitAdapters.SamplingDataAdapter.setRangesFromQuantiles
def setRangesFromQuantiles(self, lower, upper)
Definition: modelFitAdapters.py:70

list
daf::base::PropertyList * list
Definition: fits.cc:913

conf.project
string project
Definition: conf.py:9

lsst::meas::modelfit.display.densityPlot.mergeDefaults
def mergeDefaults(kwds, defaults)
Definition: densityPlot.py:56