File GaussianFlux.h

namespace lsst

Class for a simple mapping implementing a generic AstrometryTransform.

Remove all non-astronomical counts from the Chunk Exposure’s pixels.

Forward declarations for lsst::utils::Cache

For details on the Cache class, see the Cache.h file.

It uses a template rather than a pointer so that the derived classes can use the specifics of the transform. The class simplePolyMapping overloads a few routines.

A base class for image defects

Numeric constants used by the Integrate.h integrator routines.

Compute Image Statistics

Note

Gauss-Kronrod-Patterson quadrature coefficients for use in quadpack routine qng. These coefficients were calculated with 101 decimal digit arithmetic by L. W. Fullerton, Bell Labs, Nov 1981.

Note

The Statistics class itself can only handle lsst::afw::image::MaskedImage() types. The philosophy has been to handle other types by making them look like lsst::afw::image::MaskedImage() and reusing that code. Users should have no need to instantiate a Statistics object directly, but should use the overloaded makeStatistics() factory functions.

namespace meas
namespace base
class GaussianFluxAlgorithm : public lsst::meas::base::SimpleAlgorithm
#include <GaussianFlux.h>

A measurement algorithm that estimates instFlux using an elliptical Gaussian weight.

This algorithm computes instFlux as the dot product of an elliptical Gaussian weight function with the image. The size and ellipticity of the weight function are determined using the SdssShape algorithm, or retreived from a named field.

Public Types

typedef GaussianFluxControl Control

A typedef to the Control object for this algorithm, defined above. The control object contains the configuration parameters for this algorithm.

Public Functions

GaussianFluxAlgorithm(Control const &ctrl, std::string const &name, afw::table::Schema &schema)
virtual void measure(afw::table::SourceRecord &measRecord, afw::image::Exposure<float> const &exposure) const

Called to measure a single child source in an image.

Before this method is called, all neighbors will be replaced with noise, using the outputs of the deblender. Outputs should be saved in the given SourceRecord, which can also be used to obtain centroid (see SafeCentroidExtractor) and shape (see SafeShapeExtractor) information.

virtual void fail(afw::table::SourceRecord &measRecord, MeasurementError *error = nullptr) const

Handle an exception thrown by the current algorithm by setting flags in the given record.

fail() is called by the measurement framework when an exception is allowed to propagate out of one the algorithm’s measure() methods. It should generally set both a general failure flag for the algorithm as well as a specific flag indicating the error condition, if possible. To aid in this, if the exception was an instance of MeasurementError, it will be passed in, carrying information about what flag to set.

An algorithm can also to chose to set flags within its own measure() methods, and then just return, rather than throw an exception. However, fail() should be implemented even when all known failure modes do not throw exceptions, to ensure that unexpected exceptions thrown in lower-level code are properly handled.

Public Static Functions

static FlagDefinitionList const &getFlagDefinitions()

Public Static Attributes

FlagDefinition const FAILURE

Private Members

Control _ctrl
FluxResultKey _instFluxResultKey
FlagHandler _flagHandler
SafeCentroidExtractor _centroidExtractor
SafeShapeExtractor _shapeExtractor
class GaussianFluxControl
#include <GaussianFlux.h>

A C++ control class to handle GaussianFluxAlgorithm’s configuration.

Public Functions

lsst::meas::base::GaussianFluxControl::LSST_CONTROL_FIELD(background, double, "FIXME! NEVER DOCUMENTED!")
GaussianFluxControl()

Default constructor.

All control classes should define a default constructor that sets all fields to their default values.

class GaussianFluxTransform : public lsst::meas::base::FluxTransform

Public Types

typedef GaussianFluxControl Control

Public Functions

GaussianFluxTransform(Control const &ctrl, std::string const &name, afw::table::SchemaMapper &mapper)