pipeline.hif.tasks.lowgainflag package

Submodules

pipeline.hif.tasks.lowgainflag.lowgainflag module

class pipeline.hif.tasks.lowgainflag.lowgainflag.Lowgainflag(inputs)[source]

Bases: pipeline.infrastructure.basetask.StandardTaskTemplate

Inputs

alias of LowgainflagInputs

analyse(result)[source]

Analyses the Lowgainflag result.

Parameters

result – LowgainflagResults object

Returns

LowgainflagResults object

prepare()[source]

Prepare job requests for execution.

Parameters

parameters – the parameters to pass through to the subclass. Refer to the implementing subclass for specific information on what these parameters are.

Return type

a class implementing Result

class pipeline.hif.tasks.lowgainflag.lowgainflag.LowgainflagInputs(context, output_dir=None, vis=None, intent=None, spw=None, refant=None, flag_nmedian=None, fnm_lo_limit=None, fnm_hi_limit=None, niter=None, min_nants_threshold=None)[source]

Bases: pipeline.infrastructure.vdp.StandardInputs

LowgainflagInputs defines the inputs for the Lowgainflag pipeline task.

flag_nmedian

VisDependentProperty is a Python data descriptor that standardises the behaviour of pipeline Inputs properties and lets them create default values more easily.

On reading a VisDependentProperty (ie. using the dot prefix: inputs.solint), one of two things happens:

  1. If a NullMarker is found - signifying that no user input has been provided - and a ‘getter’ function has been defined, the getter function will be called to provide a default value for that measurement set.

  2. If a user has overridden the value (eg. inputs.solint = 123), that value will be retrieved.

  3. The value, either the default from step 1 or user-provided from step 2, is run through the optional postprocess function, which gives a final opportunity to change the value depending on the state/value of other properties.

A VisDependentProperty can be made read-only by specifying ‘readonly=True’ when creating the instance.

A VisDependentProperty can be hidden from the containing Inputs string representation by setting ‘hidden=True’ when creating the instance. This will hide the property from the web log and CLI getInputs calls.

Each VisDependentProperty has a set of values it considers equivalent to null. When the user sets the VDP value to one of these null values, the VDP machinery converts this to a private NullObject marker that signifies the property is now unset, resulting in the default value being returned next time the property is read. Developers can specify which values should be converted to NullObject by specifying null_input at creation time, e.g.,

solint = @VisDependentProperty(default=5, null_input=[None, ‘’, ‘RESET’, -1])

fnm_hi_limit

VisDependentProperty is a Python data descriptor that standardises the behaviour of pipeline Inputs properties and lets them create default values more easily.

On reading a VisDependentProperty (ie. using the dot prefix: inputs.solint), one of two things happens:

  1. If a NullMarker is found - signifying that no user input has been provided - and a ‘getter’ function has been defined, the getter function will be called to provide a default value for that measurement set.

  2. If a user has overridden the value (eg. inputs.solint = 123), that value will be retrieved.

  3. The value, either the default from step 1 or user-provided from step 2, is run through the optional postprocess function, which gives a final opportunity to change the value depending on the state/value of other properties.

A VisDependentProperty can be made read-only by specifying ‘readonly=True’ when creating the instance.

A VisDependentProperty can be hidden from the containing Inputs string representation by setting ‘hidden=True’ when creating the instance. This will hide the property from the web log and CLI getInputs calls.

Each VisDependentProperty has a set of values it considers equivalent to null. When the user sets the VDP value to one of these null values, the VDP machinery converts this to a private NullObject marker that signifies the property is now unset, resulting in the default value being returned next time the property is read. Developers can specify which values should be converted to NullObject by specifying null_input at creation time, e.g.,

solint = @VisDependentProperty(default=5, null_input=[None, ‘’, ‘RESET’, -1])

fnm_lo_limit

VisDependentProperty is a Python data descriptor that standardises the behaviour of pipeline Inputs properties and lets them create default values more easily.

On reading a VisDependentProperty (ie. using the dot prefix: inputs.solint), one of two things happens:

  1. If a NullMarker is found - signifying that no user input has been provided - and a ‘getter’ function has been defined, the getter function will be called to provide a default value for that measurement set.

  2. If a user has overridden the value (eg. inputs.solint = 123), that value will be retrieved.

  3. The value, either the default from step 1 or user-provided from step 2, is run through the optional postprocess function, which gives a final opportunity to change the value depending on the state/value of other properties.

A VisDependentProperty can be made read-only by specifying ‘readonly=True’ when creating the instance.

A VisDependentProperty can be hidden from the containing Inputs string representation by setting ‘hidden=True’ when creating the instance. This will hide the property from the web log and CLI getInputs calls.

Each VisDependentProperty has a set of values it considers equivalent to null. When the user sets the VDP value to one of these null values, the VDP machinery converts this to a private NullObject marker that signifies the property is now unset, resulting in the default value being returned next time the property is read. Developers can specify which values should be converted to NullObject by specifying null_input at creation time, e.g.,

solint = @VisDependentProperty(default=5, null_input=[None, ‘’, ‘RESET’, -1])

intent

VisDependentProperty is a Python data descriptor that standardises the behaviour of pipeline Inputs properties and lets them create default values more easily.

On reading a VisDependentProperty (ie. using the dot prefix: inputs.solint), one of two things happens:

  1. If a NullMarker is found - signifying that no user input has been provided - and a ‘getter’ function has been defined, the getter function will be called to provide a default value for that measurement set.

  2. If a user has overridden the value (eg. inputs.solint = 123), that value will be retrieved.

  3. The value, either the default from step 1 or user-provided from step 2, is run through the optional postprocess function, which gives a final opportunity to change the value depending on the state/value of other properties.

A VisDependentProperty can be made read-only by specifying ‘readonly=True’ when creating the instance.

A VisDependentProperty can be hidden from the containing Inputs string representation by setting ‘hidden=True’ when creating the instance. This will hide the property from the web log and CLI getInputs calls.

Each VisDependentProperty has a set of values it considers equivalent to null. When the user sets the VDP value to one of these null values, the VDP machinery converts this to a private NullObject marker that signifies the property is now unset, resulting in the default value being returned next time the property is read. Developers can specify which values should be converted to NullObject by specifying null_input at creation time, e.g.,

solint = @VisDependentProperty(default=5, null_input=[None, ‘’, ‘RESET’, -1])

min_nants_threshold

VisDependentProperty is a Python data descriptor that standardises the behaviour of pipeline Inputs properties and lets them create default values more easily.

On reading a VisDependentProperty (ie. using the dot prefix: inputs.solint), one of two things happens:

  1. If a NullMarker is found - signifying that no user input has been provided - and a ‘getter’ function has been defined, the getter function will be called to provide a default value for that measurement set.

  2. If a user has overridden the value (eg. inputs.solint = 123), that value will be retrieved.

  3. The value, either the default from step 1 or user-provided from step 2, is run through the optional postprocess function, which gives a final opportunity to change the value depending on the state/value of other properties.

A VisDependentProperty can be made read-only by specifying ‘readonly=True’ when creating the instance.

A VisDependentProperty can be hidden from the containing Inputs string representation by setting ‘hidden=True’ when creating the instance. This will hide the property from the web log and CLI getInputs calls.

Each VisDependentProperty has a set of values it considers equivalent to null. When the user sets the VDP value to one of these null values, the VDP machinery converts this to a private NullObject marker that signifies the property is now unset, resulting in the default value being returned next time the property is read. Developers can specify which values should be converted to NullObject by specifying null_input at creation time, e.g.,

solint = @VisDependentProperty(default=5, null_input=[None, ‘’, ‘RESET’, -1])

niter

VisDependentProperty is a Python data descriptor that standardises the behaviour of pipeline Inputs properties and lets them create default values more easily.

On reading a VisDependentProperty (ie. using the dot prefix: inputs.solint), one of two things happens:

  1. If a NullMarker is found - signifying that no user input has been provided - and a ‘getter’ function has been defined, the getter function will be called to provide a default value for that measurement set.

  2. If a user has overridden the value (eg. inputs.solint = 123), that value will be retrieved.

  3. The value, either the default from step 1 or user-provided from step 2, is run through the optional postprocess function, which gives a final opportunity to change the value depending on the state/value of other properties.

A VisDependentProperty can be made read-only by specifying ‘readonly=True’ when creating the instance.

A VisDependentProperty can be hidden from the containing Inputs string representation by setting ‘hidden=True’ when creating the instance. This will hide the property from the web log and CLI getInputs calls.

Each VisDependentProperty has a set of values it considers equivalent to null. When the user sets the VDP value to one of these null values, the VDP machinery converts this to a private NullObject marker that signifies the property is now unset, resulting in the default value being returned next time the property is read. Developers can specify which values should be converted to NullObject by specifying null_input at creation time, e.g.,

solint = @VisDependentProperty(default=5, null_input=[None, ‘’, ‘RESET’, -1])

refant

VisDependentProperty is a Python data descriptor that standardises the behaviour of pipeline Inputs properties and lets them create default values more easily.

On reading a VisDependentProperty (ie. using the dot prefix: inputs.solint), one of two things happens:

  1. If a NullMarker is found - signifying that no user input has been provided - and a ‘getter’ function has been defined, the getter function will be called to provide a default value for that measurement set.

  2. If a user has overridden the value (eg. inputs.solint = 123), that value will be retrieved.

  3. The value, either the default from step 1 or user-provided from step 2, is run through the optional postprocess function, which gives a final opportunity to change the value depending on the state/value of other properties.

A VisDependentProperty can be made read-only by specifying ‘readonly=True’ when creating the instance.

A VisDependentProperty can be hidden from the containing Inputs string representation by setting ‘hidden=True’ when creating the instance. This will hide the property from the web log and CLI getInputs calls.

Each VisDependentProperty has a set of values it considers equivalent to null. When the user sets the VDP value to one of these null values, the VDP machinery converts this to a private NullObject marker that signifies the property is now unset, resulting in the default value being returned next time the property is read. Developers can specify which values should be converted to NullObject by specifying null_input at creation time, e.g.,

solint = @VisDependentProperty(default=5, null_input=[None, ‘’, ‘RESET’, -1])

spw

VisDependentProperty is a Python data descriptor that standardises the behaviour of pipeline Inputs properties and lets them create default values more easily.

On reading a VisDependentProperty (ie. using the dot prefix: inputs.solint), one of two things happens:

  1. If a NullMarker is found - signifying that no user input has been provided - and a ‘getter’ function has been defined, the getter function will be called to provide a default value for that measurement set.

  2. If a user has overridden the value (eg. inputs.solint = 123), that value will be retrieved.

  3. The value, either the default from step 1 or user-provided from step 2, is run through the optional postprocess function, which gives a final opportunity to change the value depending on the state/value of other properties.

A VisDependentProperty can be made read-only by specifying ‘readonly=True’ when creating the instance.

A VisDependentProperty can be hidden from the containing Inputs string representation by setting ‘hidden=True’ when creating the instance. This will hide the property from the web log and CLI getInputs calls.

Each VisDependentProperty has a set of values it considers equivalent to null. When the user sets the VDP value to one of these null values, the VDP machinery converts this to a private NullObject marker that signifies the property is now unset, resulting in the default value being returned next time the property is read. Developers can specify which values should be converted to NullObject by specifying null_input at creation time, e.g.,

solint = @VisDependentProperty(default=5, null_input=[None, ‘’, ‘RESET’, -1])

pipeline.hif.tasks.lowgainflag.qa module

class pipeline.hif.tasks.lowgainflag.qa.LowgainflagListQAHandler[source]

Bases: pipeline.infrastructure.pipelineqa.QAPlugin

child_cls

alias of pipeline.hif.tasks.lowgainflag.resultobjects.LowgainflagResults

handle(context, result)[source]
result_cls

alias of collections.abc.Iterable

class pipeline.hif.tasks.lowgainflag.qa.LowgainflagQAHandler[source]

Bases: pipeline.infrastructure.pipelineqa.QAPlugin

child_cls = None
handle(context, result)[source]
result_cls

alias of pipeline.hif.tasks.lowgainflag.resultobjects.LowgainflagResults

pipeline.hif.tasks.lowgainflag.renderer module

Created on 11 Sep 2014

@author: sjw

class pipeline.hif.tasks.lowgainflag.renderer.T2_4MDetailsLowgainFlagRenderer(uri='lowgainflag.mako', description='Flag antennas with low gain', always_rerender=False)[source]

Bases: pipeline.infrastructure.renderer.basetemplates.T2_4MDetailsDefaultRenderer

Renders detailed HTML output for the Lowgainflag task.

get_htmlreports(context, results)[source]
update_mako_context(mako_context, pipeline_context, results)[source]
class pipeline.hif.tasks.lowgainflag.renderer.TimeVsAntenna1PlotRenderer(context, result, plots)[source]

Bases: pipeline.infrastructure.renderer.basetemplates.JsonPlotRenderer

pipeline.hif.tasks.lowgainflag.resultobjects module

class pipeline.hif.tasks.lowgainflag.resultobjects.LowgainflagDataResults[source]

Bases: pipeline.infrastructure.basetask.Results

merge_with_context(context)[source]

Merge these results with the given context.

This method will be called during the execution of accept(). For calibration tasks, a typical implementation will register caltables with the pipeline callibrary.

At this point the result is deemed safe to merge, so no further checks on the context need be performed.

Parameters

context (Context) – the target Context

class pipeline.hif.tasks.lowgainflag.resultobjects.LowgainflagResults(vis=None)[source]

Bases: pipeline.infrastructure.basetask.Results, pipeline.h.tasks.common.flaggableviewresults.FlaggableViewResults

merge_with_context(context)[source]

Merge these results with the given context.

This method will be called during the execution of accept(). For calibration tasks, a typical implementation will register caltables with the pipeline callibrary.

At this point the result is deemed safe to merge, so no further checks on the context need be performed.

Parameters

context (Context) – the target Context

class pipeline.hif.tasks.lowgainflag.resultobjects.LowgainflagViewResults[source]

Bases: pipeline.infrastructure.basetask.Results, pipeline.h.tasks.common.flaggableviewresults.FlaggableViewResults

merge_with_context(context)[source]

Merge these results with the given context.

This method will be called during the execution of accept(). For calibration tasks, a typical implementation will register caltables with the pipeline callibrary.

At this point the result is deemed safe to merge, so no further checks on the context need be performed.

Parameters

context (Context) – the target Context

Module contents