QuantumGraph¶
-
class
lsst.pipe.base.
QuantumGraph
(quanta: Mapping[lsst.pipe.base.pipeline.TaskDef, Set[lsst.daf.butler.core.quantum.Quantum]], metadata: Optional[Mapping[str, Any]] = None)¶ Bases:
object
QuantumGraph is a directed acyclic graph of
QuantumNode
objectsThis data structure represents a concrete workflow generated from a
Pipeline
.Parameters: - quanta : Mapping of
TaskDef
to sets ofQuantum
This maps tasks (and their configs) to the sets of data they are to process.
- metadata : Optional Mapping of
str
to primitives This is an optional parameter of extra data to carry with the graph. Entries in this mapping should be able to be serialized in JSON.
Attributes Summary
allDatasetTypes
Return all the DatasetTypeName
objects that are contained inside the graph.graph
Return a graph representing the relations between all the QuantumNode
objects.graphID
Returns the ID generated by the graph at construction time inputQuanta
Make a list
of allQuantumNode
objects that are ‘input’ nodes to the graph, meaning those nodes to not depend on any other nodes in the graph.isConnected
Return True if all of the nodes in the graph are connected, ignores directionality of connections. metadata
outputQuanta
Make a list
of allQuantumNode
objects that are ‘output’ nodes to the graph, meaning those nodes have no nodes that depend them in the graph.taskGraph
Return a graph representing the relations between the tasks inside the quantum graph. Methods Summary
checkQuantumInGraph
(quantum)Check if specified quantum appears in the graph as part of a node. determineAncestorsOfQuantumNode
(node)Return a graph of the specified node and all the ancestor nodes directly reachable by walking edges. determineConnectionsOfQuantumNode
(node)Return a graph of QuantumNode
that are direct inputs and outputs of a specified node.determineInputsToQuantumNode
(node)Return a set of QuantumNode
that are direct inputs to a specified node.determineOutputsOfQuantumNode
(node)Return a set of QuantumNode
that are direct outputs of a specified node.findCycle
()Check a graph for the presense of cycles and returns the edges of any cycles found, or an empty list if there is no cycle. findQuantaWithDSType
(datasetTypeName)Return all the Quantum
that contain a specifiedDatasetTypeName
.findTaskDefByLabel
(label)Determine which TaskDef
objects in this graph are associated with astr
representing a tasks label.findTaskDefByName
(taskName)Determine which TaskDef
objects in this graph are associated with astr
representing a task name (looks at the taskName property ofTaskDef
objects).findTaskWithOutput
(datasetTypeName)Find all tasks that have the specified dataset type name as an output. findTasksWithInput
(datasetTypeName)Find all tasks that have the specified dataset type name as an input. getNodesForTask
(taskDef)Return all the QuantumNodes
associated with aTaskDef
.getQuantaForTask
(taskDef)Return all the Quantum
associated with aTaskDef
.getQuantumNodeByNodeId
(nodeId)Lookup a QuantumNode
from an id associated with the node.iterTaskGraph
()Iterate over the taskGraph
attribute in topological orderload
(file, universe, nodes, graphID)Read QuantumGraph from a file that was made by save
.loadUri
(uri, str], universe, nodes, graphID)Read QuantumGraph
from a URI.save
(file)Save QuantumGraph to a file. saveUri
(uri)Save QuantumGraph
to the specified URI.subset
(nodes, …)Create a new graph object that contains the subset of the nodes specified as input. subsetToConnected
()Generate a list of subgraphs where each is connected. tasksWithDSType
(datasetTypeName)Find all tasks that are associated with the specified dataset type name. writeDotGraph
(output, io.BufferedIOBase])Write out the graph as a dot graph. Attributes Documentation
-
allDatasetTypes
¶ Return all the
DatasetTypeName
objects that are contained inside the graph.Returns: - tuple of `DatasetTypeName`
All the data set type names that are present in the graph
-
graph
¶ Return a graph representing the relations between all the
QuantumNode
objects. Largely it should be preferred to iterate over, and use methods of this class, but sometimes direct access to the networkx object may be helpfulReturns: - graph :
networkx.Digraph
Internal datastructure that holds relations of
QuantumNode
objects
- graph :
-
graphID
¶ Returns the ID generated by the graph at construction time
-
inputQuanta
¶ Make a
list
of allQuantumNode
objects that are ‘input’ nodes to the graph, meaning those nodes to not depend on any other nodes in the graph.Returns: - inputNodes : iterable of
QuantumNode
A list of nodes that are inputs to the graph
- inputNodes : iterable of
-
isConnected
¶ Return True if all of the nodes in the graph are connected, ignores directionality of connections.
-
metadata
¶
-
outputQuanta
¶ Make a
list
of allQuantumNode
objects that are ‘output’ nodes to the graph, meaning those nodes have no nodes that depend them in the graph.Returns: - outputNodes : iterable of
QuantumNode
A list of nodes that are outputs of the graph
- outputNodes : iterable of
-
taskGraph
¶ Return a graph representing the relations between the tasks inside the quantum graph.
Returns: - taskGraph :
networkx.Digraph
Internal datastructure that holds relations of
TaskDef
objects
- taskGraph :
Methods Documentation
-
checkQuantumInGraph
(quantum: lsst.daf.butler.core.quantum.Quantum) → bool¶ Check if specified quantum appears in the graph as part of a node.
Parameters: - quantum :
Quantum
The quantum to search for
Returns: - `bool`
The result of searching for the quantum
- quantum :
-
determineAncestorsOfQuantumNode
(node: lsst.pipe.base.graph.quantumNode.QuantumNode) → _T¶ Return a graph of the specified node and all the ancestor nodes directly reachable by walking edges.
Parameters: - node :
QuantumNode
The node for which all ansestors are to be determined
Returns: - graph of `QuantumNode`
Graph of node and all of its ansestors
- node :
-
determineConnectionsOfQuantumNode
(node: lsst.pipe.base.graph.quantumNode.QuantumNode) → _T¶ Return a graph of
QuantumNode
that are direct inputs and outputs of a specified node.Parameters: - node :
QuantumNode
The node of the graph for which connected nodes are to be determined.
Returns: - graph : graph of
QuantumNode
All the nodes that are directly connected to specified node
- node :
-
determineInputsToQuantumNode
(node: lsst.pipe.base.graph.quantumNode.QuantumNode) → Set[lsst.pipe.base.graph.quantumNode.QuantumNode]¶ Return a set of
QuantumNode
that are direct inputs to a specified node.Parameters: - node :
QuantumNode
The node of the graph for which inputs are to be determined
Returns: - set of `QuantumNode`
All the nodes that are direct inputs to specified node
- node :
-
determineOutputsOfQuantumNode
(node: lsst.pipe.base.graph.quantumNode.QuantumNode) → Set[lsst.pipe.base.graph.quantumNode.QuantumNode]¶ Return a set of
QuantumNode
that are direct outputs of a specified node.Parameters: - node :
QuantumNode
The node of the graph for which outputs are to be determined
Returns: - set of `QuantumNode`
All the nodes that are direct outputs to specified node
- node :
-
findCycle
() → List[Tuple[lsst.pipe.base.graph.quantumNode.QuantumNode, lsst.pipe.base.graph.quantumNode.QuantumNode]]¶ Check a graph for the presense of cycles and returns the edges of any cycles found, or an empty list if there is no cycle.
Returns: - result : list of tuple of
QuantumNode
,QuantumNode
A list of any graph edges that form a cycle, or an empty list if there is no cycle. Empty list to so support if graph.find_cycle() syntax as an empty list is falsy.
- result : list of tuple of
-
findQuantaWithDSType
(datasetTypeName: NewType.<locals>.new_type) → Set[lsst.daf.butler.core.quantum.Quantum]¶ Return all the
Quantum
that contain a specifiedDatasetTypeName
.Parameters: - datasetTypeName :
str
The name of the dataset type to search for as a string, can also accept a
DatasetTypeName
which is aNewType
of str for type safety in static type checking.
Returns: - result :
set
ofQuantumNode
objects A
set
ofQuantumNode`s that contain specified `DatasetTypeName
Raises: - KeyError
Raised if the
DatasetTypeName
is not part of theQuantumGraph
- datasetTypeName :
-
findTaskDefByLabel
(label: str) → Optional[lsst.pipe.base.pipeline.TaskDef]¶ Determine which
TaskDef
objects in this graph are associated with astr
representing a tasks label.Parameters: - taskName : str
Name of a task to search for
Returns:
-
findTaskDefByName
(taskName: str) → List[lsst.pipe.base.pipeline.TaskDef]¶ Determine which
TaskDef
objects in this graph are associated with astr
representing a task name (looks at the taskName property ofTaskDef
objects).Returns a list of
TaskDef
objects as aPipelineTask
may appear multiple times in a graph with different labels.Parameters: - taskName : str
Name of a task to search for
Returns:
-
findTaskWithOutput
(datasetTypeName: NewType.<locals>.new_type) → Optional[lsst.pipe.base.pipeline.TaskDef]¶ Find all tasks that have the specified dataset type name as an output.
Parameters: - datasetTypeName :
str
A string representing the name of a dataset type to be queried, can also accept a
DatasetTypeName
which is aNewType
of str for type safety in static type checking.
Returns: - `TaskDef` or `None`
TaskDef
that outputsDatasetTypeName
as an output or None if none of the tasks produce thisDatasetTypeName
.
Raises: - KeyError
Raised if the
DatasetTypeName
is not part of theQuantumGraph
- datasetTypeName :
-
findTasksWithInput
(datasetTypeName: NewType.<locals>.new_type) → Iterable[lsst.pipe.base.pipeline.TaskDef]¶ Find all tasks that have the specified dataset type name as an input.
Parameters: - datasetTypeName :
str
A string representing the name of a dataset type to be queried, can also accept a
DatasetTypeName
which is aNewType
of str for type safety in static type checking.
Returns: Raises: - KeyError
Raised if the
DatasetTypeName
is not part of theQuantumGraph
- datasetTypeName :
-
getNodesForTask
(taskDef: lsst.pipe.base.pipeline.TaskDef) → FrozenSet[lsst.pipe.base.graph.quantumNode.QuantumNode]¶ Return all the
QuantumNodes
associated with aTaskDef
.Parameters: Returns:
-
getQuantaForTask
(taskDef: lsst.pipe.base.pipeline.TaskDef) → FrozenSet[lsst.daf.butler.core.quantum.Quantum]¶ Return all the
Quantum
associated with aTaskDef
.Parameters: Returns:
-
getQuantumNodeByNodeId
(nodeId: lsst.pipe.base.graph.quantumNode.NodeId) → lsst.pipe.base.graph.quantumNode.QuantumNode¶ Lookup a
QuantumNode
from an id associated with the node.Parameters: - nodeId :
NodeId
The number associated with a node
Returns: - node :
QuantumNode
The node corresponding with input number
Raises: - IndexError
Raised if the requested nodeId is not in the graph.
- IncompatibleGraphError
Raised if the nodeId was built with a different graph than is not this instance (or a graph instance that produced this instance through and operation such as subset)
- nodeId :
-
iterTaskGraph
() → Generator[lsst.pipe.base.pipeline.TaskDef, None, None]¶ Iterate over the
taskGraph
attribute in topological orderYields:
-
classmethod
load
(file: io.IO[bytes], universe: DimensionUniverse, nodes: Optional[Iterable[int]] = None, graphID: Optional[BuildId] = None) → QuantumGraph¶ Read QuantumGraph from a file that was made by
save
.Parameters: - file :
io.IO
of bytes File with pickle data open in binary mode.
- universe: `~lsst.daf.butler.DimensionUniverse`
DimensionUniverse instance, not used by the method itself but needed to ensure that registry data structures are initialized.
- nodes: iterable of `int` or None
Numbers that correspond to nodes in the graph. If specified, only these nodes will be loaded. Defaults to None, in which case all nodes will be loaded.
- graphID :
str
orNone
If specified this ID is verified against the loaded graph prior to loading any Nodes. This defaults to None in which case no validation is done.
Returns: - graph :
QuantumGraph
Resulting QuantumGraph instance.
Raises: - TypeError
Raised if pickle contains instance of a type other than QuantumGraph.
- ValueError
Raised if one or more of the nodes requested is not in the
QuantumGraph
or if graphID parameter does not match the graph being loaded or if the supplied uri does not point at a validQuantumGraph
save file.
Notes
Reading Quanta from pickle requires existence of singleton DimensionUniverse which is usually instantiated during Registry initialization. To make sure that DimensionUniverse exists this method accepts dummy DimensionUniverse argument.
- file :
-
classmethod
loadUri
(uri: Union[lsst.daf.butler.core._butlerUri._butlerUri.ButlerURI, str], universe: lsst.daf.butler.core.dimensions._universe.DimensionUniverse, nodes: Optional[Iterable[int]] = None, graphID: Optional[NewType.<locals>.new_type] = None) → lsst.pipe.base.graph.graph.QuantumGraph¶ Read
QuantumGraph
from a URI.Parameters: - uri :
ButlerURI
orstr
URI from where to load the graph.
- universe: `~lsst.daf.butler.DimensionUniverse`
DimensionUniverse instance, not used by the method itself but needed to ensure that registry data structures are initialized.
- nodes: iterable of `int` or None
Numbers that correspond to nodes in the graph. If specified, only these nodes will be loaded. Defaults to None, in which case all nodes will be loaded.
- graphID :
str
orNone
If specified this ID is verified against the loaded graph prior to loading any Nodes. This defaults to None in which case no validation is done.
Returns: - graph :
QuantumGraph
Resulting QuantumGraph instance.
Raises: - TypeError
Raised if pickle contains instance of a type other than QuantumGraph.
- ValueError
Raised if one or more of the nodes requested is not in the
QuantumGraph
or if graphID parameter does not match the graph being loaded or if the supplied uri does not point at a validQuantumGraph
save file.
Notes
Reading Quanta from pickle requires existence of singleton DimensionUniverse which is usually instantiated during Registry initialization. To make sure that DimensionUniverse exists this method accepts dummy DimensionUniverse argument.
- uri :
-
save
(file: io.IO[bytes])¶ Save QuantumGraph to a file.
Presently we store QuantumGraph in pickle format, this could potentially change in the future if better format is found.
Parameters: - file :
io.BufferedIOBase
File to write pickle data open in binary mode.
- file :
-
saveUri
(uri)¶ Save
QuantumGraph
to the specified URI.Parameters: - uri :
ButlerURI
orstr
URI to where the graph should be saved.
- uri :
-
subset
(nodes: Union[lsst.pipe.base.graph.quantumNode.QuantumNode, Iterable[lsst.pipe.base.graph.quantumNode.QuantumNode]]) → _T¶ Create a new graph object that contains the subset of the nodes specified as input. Node number is preserved.
Parameters: - nodes :
QuantumNode
or iterable ofQuantumNode
Returns: - graph : instance of graph type
An instance of the type from which the subset was created
- nodes :
-
subsetToConnected
() → Tuple[_T, ...]¶ Generate a list of subgraphs where each is connected.
Returns: - result : list of
QuantumGraph
A list of graphs that are each connected
- result : list of
-
tasksWithDSType
(datasetTypeName: NewType.<locals>.new_type) → Iterable[lsst.pipe.base.pipeline.TaskDef]¶ Find all tasks that are associated with the specified dataset type name.
Parameters: - datasetTypeName :
str
A string representing the name of a dataset type to be queried, can also accept a
DatasetTypeName
which is aNewType
of str for type safety in static type checking.
Returns: Raises: - KeyError
Raised if the
DatasetTypeName
is not part of theQuantumGraph
- datasetTypeName :
-
writeDotGraph
(output: Union[str, io.BufferedIOBase])¶ Write out the graph as a dot graph.
Parameters: - output : str or
io.BufferedIOBase
Either a filesystem path to write to, or a file handle object
- output : str or
- quanta : Mapping of