MockStorageClassDelegate¶
- class lsst.pipe.base.tests.mocks.MockStorageClassDelegate(storageClass: StorageClass)¶
Bases:
StorageClassDelegate
Implementation of the StorageClassDelegate interface for mock datasets.
This class does not implement assembly and disassembly just because it’s not needed right now. That could be added in the future with some additional tracking attributes in
MockDataset
.Methods Summary
assemble
(components[, pytype])Construct an object from components based on storageClass.
copy
(inMemoryDataset)Copy the supplied python type and return the copy.
disassemble
(composite[, subset, override])Disassembler a composite.
getComponent
(composite, componentName)Attempt to retrieve component from composite object by heuristic.
handleParameters
(inMemoryDataset[, parameters])Modify the in-memory dataset using the supplied parameters.
selectResponsibleComponent
(derivedComponent, ...)Select the best component for calculating a derived component.
Methods Documentation
- assemble(components: dict[str, Any], pytype: type | None = None) MockDataset ¶
Construct an object from components based on storageClass.
This generic implementation assumes that instances of objects can be created either by passing all the components to a constructor or by calling setter methods with the name.
- Parameters:
- Returns:
- composite
object
New composite object assembled from components.
- composite
- Raises:
- ValueError
Some components could not be used to create the object or, alternatively, some components were not defined in the associated StorageClass.
- copy(inMemoryDataset: Any) Any ¶
Copy the supplied python type and return the copy.
- Parameters:
- inMemoryDataset
object
Object to copy.
- inMemoryDataset
- Returns:
- copied
object
A copy of the supplied object. Can be the same object if the object is known to be read-only.
- copied
- Raises:
- NotImplementedError
Raised if none of the default methods for copying work.
Notes
The default implementation uses
copy.deepcopy()
. It is generally expected that this method is the equivalent of a deep copy. Subclasses can override this method if they already know the optimal approach for deep copying.
- disassemble(composite: Any, subset: Iterable | None = None, override: Any | None = None) dict[str, lsst.daf.butler.core.storageClassDelegate.DatasetComponent] ¶
Disassembler a composite.
This is a generic implementation of a disassembler. This implementation attempts to extract components from the parent by looking for attributes of the same name or getter methods derived from the component name.
- Parameters:
- composite
object
Parent composite object consisting of components to be extracted.
- subsetiterable, optional
Iterable containing subset of components to extract from composite. Must be a subset of those defined in
StorageClassDelegate.storageClass
.- override
object
, optional Object to use for disassembly instead of parent. This can be useful when called from subclasses that have composites in a hierarchy.
- composite
- Returns:
- Raises:
- ValueError
A requested component can not be found in the parent using generic lookups.
- TypeError
The parent object does not match the supplied
StorageClassDelegate.storageClass
.
- getComponent(composite: Any, componentName: str) Any ¶
Attempt to retrieve component from composite object by heuristic.
Will attempt a direct attribute retrieval, or else getter methods of the form “get_componentName” and “getComponentName”.
- handleParameters(inMemoryDataset: Any, parameters: Mapping[str, Any] | None = None) Any ¶
Modify the in-memory dataset using the supplied parameters.
Can return a possibly new object.
For safety, if any parameters are given to this method an exception will be raised. This is to protect the user from thinking that parameters have been applied when they have not been applied.
- Parameters:
- Returns:
- inMemoryDataset
object
Updated form of supplied in-memory dataset, after parameters have been used.
- inMemoryDataset
- Raises:
- ValueError
Parameters have been provided to this default implementation.
- classmethod selectResponsibleComponent(derivedComponent: str, fromComponents: set[str | None]) str ¶
Select the best component for calculating a derived component.
Given a possible set of components to choose from, return the component that should be used to calculate the requested derived component.
- Parameters:
- Returns:
- required
str
The component that should be used.
- required
- Raises:
- NotImplementedError
Raised if this delegate refuses to answer the question.
- ValueError
Raised if this delegate can not determine a relevant component from the supplied options.