DimensionUniverse¶
-
class
lsst.daf.butler.
DimensionUniverse
¶ Bases:
object
A parent class that represents a complete, self-consistent set of dimensions and their relationships.
DimensionUniverse
is not a class-level singleton, but all instances are tracked in a singleton map keyed by the version number in the configuration they were loaded from. Because these universes are solely responsible for constructingDimensionElement
instances, these are also indirectly tracked by that singleton as well.Parameters: - config :
Config
, optional Configuration describing the dimensions and their relationships. If not provided, default configuration (from
dimensions.yaml
in this package’sconfigs
resource directory) will be loaded.
Methods Summary
extract
(iterable, str]])Construct a DimensionGraph
from a possibly-heterogenous iterable ofDimension
instances and string names thereof.get
(name, default)Return the DimensionElement
with the given name or a default.getDimensionIndex
(name)Return the position of the named dimension in this universe’s sorting of all dimensions. getElementIndex
(name)Return the position of the named dimension element in this universe’s sorting of all elements. getEncodeLength
()Return the size (in bytes) of the encoded size of DimensionGraph
instances in this universe.getStaticDimensions
()Return a set of all static dimensions in this universe. getStaticElements
()Return a set of all static elements in this universe. makePacker
(name, dataId)Construct a DimensionPacker
that can pack data ID dictionaries into unique integers.sorted
(elements, str]], *, reverse)Return a sorted version of the given iterable of dimension elements. Methods Documentation
-
extract
(iterable: Iterable[Union[lsst.daf.butler.core.dimensions.elements.Dimension, str]]) → lsst.daf.butler.core.dimensions.graph.DimensionGraph¶ Construct a
DimensionGraph
from a possibly-heterogenous iterable ofDimension
instances and string names thereof.Constructing
DimensionGraph
directly from names or dimension instances is slightly more efficient when it is known in advance that the iterable is not heterogenous.Parameters: - iterable: iterable of `Dimension` or `str`
Dimensions that must be included in the returned graph (their dependencies will be as well).
Returns: - graph :
DimensionGraph
A
DimensionGraph
instance containing all given dimensions.
-
get
(name: str, default: Optional[lsst.daf.butler.core.dimensions.elements.DimensionElement] = None) → Optional[lsst.daf.butler.core.dimensions.elements.DimensionElement]¶ Return the
DimensionElement
with the given name or a default.Parameters: - name :
str
Name of the element.
- default :
DimensionElement
, optional Element to return if the named one does not exist. Defaults to
None
.
Returns: - element :
DimensionElement
The named element.
- name :
-
getDimensionIndex
(name: str) → int¶ Return the position of the named dimension in this universe’s sorting of all dimensions.
Parameters: - name :
str
Name of the dimension.
Returns: - index :
int
Sorting index for this dimension.
Notes
The dimension sort order for a universe is consistent with the element order (all dimensions are elements), and either can be used to sort dimensions if used consistently. But there are also some contexts in which contiguous dimension-only indices are necessary or at least desirable.
- name :
-
getElementIndex
(name: str) → int¶ Return the position of the named dimension element in this universe’s sorting of all elements.
Parameters: - name :
str
Name of the element.
Returns: - index :
int
Sorting index for this element.
- name :
-
getEncodeLength
() → int¶ Return the size (in bytes) of the encoded size of
DimensionGraph
instances in this universe.See
DimensionGraph.encode
andDimensionGraph.decode
for more information.
-
getStaticDimensions
() → lsst.daf.butler.core.named.NamedValueSet[lsst.daf.butler.core.dimensions.elements.Dimension][lsst.daf.butler.core.dimensions.elements.Dimension]¶ Return a set of all static dimensions in this universe.
Non-static dimensions that are created as needed may also exist, but these are guaranteed to have no direct relationships to other elements (though they may have spatial or temporal relationships).
Returns: - dimensions :
NamedValueSet
[Dimension
] A frozen set of
Dimension
instances.
- dimensions :
-
getStaticElements
() → lsst.daf.butler.core.named.NamedValueSet[lsst.daf.butler.core.dimensions.elements.DimensionElement][lsst.daf.butler.core.dimensions.elements.DimensionElement]¶ Return a set of all static elements in this universe.
Non-static elements that are created as needed may also exist, but these are guaranteed to have no direct relationships to other elements (though they may have spatial or temporal relationships).
Returns: - elements :
NamedValueSet
[DimensionElement
] A frozen set of
DimensionElement
instances.
- elements :
-
makePacker
(name: str, dataId: DataCoordinate) → DimensionPacker¶ Construct a
DimensionPacker
that can pack data ID dictionaries into unique integers.Parameters: - name :
str
Name of the packer, matching a key in the “packers” section of the dimension configuration.
- dataId :
DataCoordinate
Fully-expanded data ID that identfies the at least the “fixed” dimensions of the packer (i.e. those that are assumed/given, setting the space over which packed integer IDs are unique).
dataId.hasRecords()
must returnTrue
.
- name :
-
sorted
(elements: Iterable[Union[E, str]], *, reverse: bool = False) → List[E]¶ Return a sorted version of the given iterable of dimension elements.
The universe’s sort order is topological (an element’s dependencies precede it), with an unspecified (but deterministic) approach to breaking ties.
Parameters: - elements : iterable of
DimensionElement
. Elements to be sorted.
- reverse :
bool
, optional If
True
, sort in the opposite order.
Returns: - sorted :
list
ofDimensionElement
A sorted list containing the same elements that were given.
- elements : iterable of
- config :