Executes a single-threaded, in-process run which materializes provided assets.
By default, will materialize assets to the local filesystem.
assets (Sequence[Union[AssetsDefinition, SourceAsset]]) – The assets to materialize. Can also provide SourceAsset objects to fill dependencies for asset defs.
resources (Optional[Mapping[str, object]]) – The resources needed for execution. Can provide resource instances directly, or resource definitions. Note that if provided resources conflict with resources directly on assets, an error will be thrown.
run_config (Optional[Any]) – The run config to use for the run that materializes the assets.
partition_key – (Optional[str]) The string partition key that specifies the run config to execute. Can only be used to select run config for assets with partitioned config.
The result of the execution.
Executes a single-threaded, in-process run which materializes provided assets in memory.
Will explicitly use mem_io_manager() for all required io manager
keys. If any io managers are directly provided using the resources
argument, a DagsterInvariantViolationError will be thrown.
assets (Sequence[Union[AssetsDefinition, SourceAsset]]) – The assets to materialize. Can also provide SourceAsset objects to fill dependencies for asset defs.
run_config (Optional[Any]) – The run config to use for the run that materializes the assets.
resources (Optional[Mapping[str, object]]) – The resources needed for execution. Can provide resource instances directly, or resource definitions. If provided resources conflict with resources directly on assets, an error will be thrown.
partition_key – (Optional[str]) The string partition key that specifies the run config to execute. Can only be used to select run config for assets with partitioned config.
The result of the execution.
Execute the Job in-process, gathering results in-memory.
The executor_def on the Job will be ignored, and replaced with the in-process executor. If using the default io_manager, it will switch from filesystem to in-memory.
(Optional[Mapping[str (run_config) – The configuration for the run
Any]] – The configuration for the run
instance (Optional[DagsterInstance]) – The instance to execute against, an ephemeral one will be used if none provided.
partition_key – (Optional[str]) The string partition key that specifies the run config to execute. Can only be used to select run config for jobs with partitioned config.
raise_on_error (Optional[bool]) – Whether or not to raise exceptions when they occur.
Defaults to True.
op_selection (Optional[Sequence[str]]) – A list of op selection queries (including single op
names) to execute. For example:
* ['some_op']: selects some_op itself.
* ['*some_op']: select some_op and all its ancestors (upstream dependencies).
* ['*some_op+++']: select some_op, all its ancestors, and its descendants
(downstream dependencies) within 3 levels down.
* ['*some_op', 'other_op_a', 'other_op_b+']: select some_op and all its
ancestors, other_op_a itself, and other_op_b and its direct child ops.
input_values (Optional[Mapping[str, Any]]) – A dictionary that maps python objects to the top-level inputs of the job. Input values provided here will override input values that have been provided to the job directly.
Creates a RunRequest object for a run that processes the given partition.
partition_key – The key of the partition to request a run for.
run_key (Optional[str]) – A string key to identify this launched run. For sensors, ensures that only one run is created per run key across all sensor evaluations. For schedules, ensures that one run is created per tick, across failure recoveries. Passing in a None value means that a run will always be launched per evaluation.
tags (Optional[Dict[str, str]]) – A dictionary of tags (string key-value pairs) to attach to the launched run.
an object that requests a run to process the given partition.
Apply a set of hooks to all op instances within the job.
Execute a job synchronously.
This API represents dagster’s python entrypoint for out-of-process
execution. For most testing purposes,
execute_in_process() will be more suitable, but when wanting to run
execution using an out-of-process executor (such as dagster.
multiprocess_executor), then execute_job is suitable.
execute_job expects a persistent DagsterInstance for
execution, meaning the $DAGSTER_HOME environment variable must be set.
It als expects a reconstructable pointer to a JobDefinition so
that it can be reconstructed in separate processes. This can be done by
wrapping the JobDefinition in a call to dagster.
reconstructable().
from dagster import DagsterInstance, execute_job, job, reconstructable
@job
def the_job():
...
instance = DagsterInstance.get()
result = execute_job(reconstructable(the_job), instance=instance)
assert result.success
If using the to_job() method to
construct the JobDefinition, then the invocation must be wrapped in a
module-scope function, which can be passed to reconstructable.
from dagster import graph, reconstructable
@graph
def the_graph():
...
def define_job():
return the_graph.to_job(...)
result = execute_job(reconstructable(define_job), ...)
Since execute_job is potentially executing outside of the current process, output objects need to be retrieved by use of the provided job’s io managers. Output objects can be retrieved by opening the result of execute_job as a context manager.
from dagster import execute_job
with execute_job(...) as result:
output_obj = result.output_for_node("some_op")
execute_job can also be used to reexecute a run, by providing a ReexecutionOptions object.
from dagster import ReexecutionOptions, execute_job
instance = DagsterInstance.get()
options = ReexecutionOptions.from_failure(run_id=failed_run_id, instance)
execute_job(reconstructable(job), instance, reexecution_options=options)
job (ReconstructableJob) – A reconstructable pointer to a JobDefinition.
instance (DagsterInstance) – The instance to execute against.
run_config (Optional[dict]) – The configuration that parametrizes this run, as a dict.
tags (Optional[Dict[str, Any]]) – Arbitrary key-value pairs that will be added to run logs.
raise_on_error (Optional[bool]) – Whether or not to raise exceptions when they occur.
Defaults to False.
op_selection (Optional[List[str]]) –
A list of op selection queries (including single op names) to execute. For example:
['some_op']: selects some_op itself.
['*some_op']: select some_op and all its ancestors (upstream dependencies).
['*some_op+++']: select some_op, all its ancestors, and its descendants
(downstream dependencies) within 3 levels down.
['*some_op', 'other_op_a', 'other_op_b+']: select some_op and all its
ancestors, other_op_a itself, and other_op_b and its direct child ops.
reexecution_options (Optional[ReexecutionOptions]) – Reexecution options to provide to the run, if this run is
intended to be a reexecution of a previous run. Cannot be used in
tandem with the op_selection argument.
The result of job execution.
JobExecutionResult
Reexecution options for python-based execution in Dagster.
parent_run_id (str) – The run_id of the run to reexecute.
step_selection (Sequence[str]) –
The list of step selections to reexecute. Must be a subset or match of the set of steps executed in the original run. For example:
['some_op']: selects some_op itself.
['*some_op']: select some_op and all its ancestors (upstream dependencies).
['*some_op+++']: select some_op, all its ancestors, and its descendants
(downstream dependencies) within 3 levels down.
['*some_op', 'other_op_a', 'other_op_b+']: select some_op and all its
ancestors, other_op_a itself, and other_op_b and its direct child ops.
Defines a Dagster graph.
A graph is made up of
Nodes, which can either be an op (the functional unit of computation), or another graph.
Dependencies, which determine how the values produced by nodes as outputs flow from one node to another. This tells Dagster how to arrange nodes into a directed, acyclic graph (DAG) of compute.
End users should prefer the @graph decorator. GraphDefinition is generally
intended to be used by framework authors or for programatically generated graphs.
name (str) – The name of the graph. Must be unique within any GraphDefinition
or JobDefinition containing the graph.
description (Optional[str]) – A human-readable description of the pipeline.
node_defs (Optional[Sequence[NodeDefinition]]) – The set of ops / graphs used in this graph.
dependencies (Optional[Dict[Union[str, NodeInvocation], Dict[str, DependencyDefinition]]]) – A structure that declares the dependencies of each op’s inputs on the outputs of other
ops in the graph. Keys of the top level dict are either the string names of ops in the
graph or, in the case of aliased ops, NodeInvocations.
Values of the top level dict are themselves dicts, which map input names belonging to
the op or aliased op to DependencyDefinitions.
input_mappings (Optional[Sequence[InputMapping]]) – Defines the inputs to the nested graph, and how they map to the inputs of its constituent ops.
output_mappings (Optional[Sequence[OutputMapping]]) – Defines the outputs of the nested graph, and how they map from the outputs of its constituent ops.
config (Optional[ConfigMapping]) – Defines the config of the graph, and how its schema maps to the config of its constituent ops.
tags (Optional[Dict[str, Any]]) – Arbitrary metadata for any execution of the graph. Values that are not strings will be json encoded and must meet the criteria that json.loads(json.dumps(value)) == value. These tag values may be overwritten by tag values provided at invocation time.
Examples
@op
def return_one():
return 1
@op
def add_one(num):
return num + 1
graph_def = GraphDefinition(
name='basic',
node_defs=[return_one, add_one],
dependencies={'add_one': {'num': DependencyDefinition('return_one')}},
)
Execute this graph in-process, collecting results in-memory.
run_config (Optional[Mapping[str, Any]]) – Run config to provide to execution. The configuration for the underlying graph should exist under the “ops” key.
instance (Optional[DagsterInstance]) – The instance to execute against, an ephemeral one will be used if none provided.
resources (Optional[Mapping[str, Any]]) – The resources needed if any are required. Can provide resource instances directly, or resource definitions.
raise_on_error (Optional[bool]) – Whether or not to raise exceptions when they occur.
Defaults to True.
op_selection (Optional[List[str]]) – A list of op selection queries (including single op
names) to execute. For example:
* ['some_op']: selects some_op itself.
* ['*some_op']: select some_op and all its ancestors (upstream dependencies).
* ['*some_op+++']: select some_op, all its ancestors, and its descendants
(downstream dependencies) within 3 levels down.
* ['*some_op', 'other_op_a', 'other_op_b+']: select some_op and all its
ancestors, other_op_a itself, and other_op_b and its direct child ops.
input_values (Optional[Mapping[str, Any]]) – A dictionary that maps python objects to the top-level inputs of the graph.
Make this graph in to an executable Job by providing remaining components required for execution.
name (Optional[str]) – The name for the Job. Defaults to the name of the this graph.
resource_defs (Optional[Mapping [str, ResourceDefinition]]) – Resources that are required by this graph for execution. If not defined, io_manager will default to filesystem.
config –
Describes how the job is parameterized at runtime.
If no value is provided, then the schema for the job’s run config is a standard format based on its solids and resources.
If a dictionary is provided, then it must conform to the standard config schema, and it will be used as the job’s run config for the job whenever the job is executed. The values provided will be viewable and editable in the Dagit playground, so be careful with secrets.
If a ConfigMapping object is provided, then the schema for the job’s run config is
determined by the config mapping, and the ConfigMapping, which should return
configuration in the standard format to configure the job.
If a PartitionedConfig object is provided, then it defines a discrete set of config
values that can parameterize the job, as well as a function for mapping those
values to the base config. The values provided will be viewable and editable in the
Dagit playground, so be careful with secrets.
tags (Optional[Mapping[str, Any]]) – Arbitrary information that will be attached to the execution of the Job. Values that are not strings will be json encoded and must meet the criteria that json.loads(json.dumps(value)) == value. These tag values may be overwritten by tag values provided at invocation time.
metadata (Optional[Mapping[str, RawMetadataValue]]) – Arbitrary information that will be attached to the JobDefinition and be viewable in Dagit. Keys must be strings, and values must be python primitive types or one of the provided MetadataValue types
logger_defs (Optional[Mapping[str, LoggerDefinition]]) – A dictionary of string logger identifiers to their implementations.
executor_def (Optional[ExecutorDefinition]) – How this Job will be executed. Defaults to multi_or_in_process_executor,
which can be switched between multi-process and in-process modes of execution. The
default mode of execution is multi-process.
op_retry_policy (Optional[RetryPolicy]) – The default retry policy for all ops in this job. Only used if retry policy is not defined on the op definition or op invocation.
version_strategy (Optional[VersionStrategy]) – Defines how each solid (and optionally, resource) in the job can be versioned. If provided, memoizaton will be enabled for this job.
partitions_def (Optional[PartitionsDefinition]) – Defines a discrete set of partition keys that can parameterize the job. If this argument is supplied, the config argument can’t also be supplied.
asset_layer (Optional[AssetLayer]) – Top level information about the assets this job will produce. Generally should not be set manually.
input_values (Optional[Mapping[str, Any]]) – A dictionary that maps python objects to the top-level inputs of a job.
JobDefinition
Result object returned by in-process testing APIs.
Users should not instantiate this object directly. Used for retrieving run success, events, and outputs from execution methods that return this object.
This object is returned by:
- dagster.GraphDefinition.execute_in_process()
- dagster.JobDefinition.execute_in_process()
- dagster.materialize_to_memory()
- dagster.materialize()
All dagster events emitted during execution.
List[DagsterEvent]
Retrieves output value with a particular name from the in-process run of the job.
node_str (str) – Name of the op/graph whose output should be retrieved. If the intended graph/op is nested within another graph, the syntax is outer_graph.inner_node.
output_name (Optional[str]) – Name of the output on the op/graph to retrieve. Defaults to result, the default output name in dagster.
The value of the retrieved output.
Any
Retrieves output of top-level job, if an output is returned.
output_name (Optional[str]) – The name of the output to retrieve. Defaults to result, the default output name in dagster.
The value of the retrieved output.
Any
The unique identifier of the executed run.
Result object returned by dagster.execute_job().
Used for retrieving run success, events, and outputs from execute_job. Users should not directly instantiate this class.
Events and run information can be retrieved off of the object directly. In order to access outputs, the ExecuteJobResult object needs to be opened as a context manager, which will re-initialize the resources from execution.
Retrieves output value with a particular name from the run of the job.
In order to use this method, the ExecuteJobResult object must be opened as a context manager. If this method is used without opening the context manager, it will result in a DagsterInvariantViolationError.
node_str (str) – Name of the op/graph whose output should be retrieved. If the intended graph/op is nested within another graph, the syntax is outer_graph.inner_node.
output_name (Optional[str]) – Name of the output on the op/graph to retrieve. Defaults to result, the default output name in dagster.
The value of the retrieved output.
Any
Retrieves output of top-level job, if an output is returned.
In order to use this method, the ExecuteJobResult object must be opened as a context manager. If this method is used without opening the context manager, it will result in a DagsterInvariantViolationError. If the top-level job has no output, calling this method will also result in a DagsterInvariantViolationError.
output_name (Optional[str]) – The name of the output to retrieve. Defaults to result, the default output name in dagster.
The value of the retrieved output.
Any
The unique identifier of the executed run.
Events yielded by solid and pipeline execution.
Users should not instantiate this class.
Value for a DagsterEventType.
str
str
NodeHandle
Value for a StepKind.
str
Dict[str, str]
Type must correspond to event_type_value.
Any
str
int
DEPRECATED
Optional[str]
The type of this event.
Create a ReconstructablePipeline from a
function that returns a PipelineDefinition/JobDefinition,
or a function decorated with @pipeline/@job.
When your pipeline/job must cross process boundaries, e.g., for execution on multiple nodes or
in different systems (like dagstermill), Dagster must know how to reconstruct the pipeline/job
on the other side of the process boundary.
Passing a job created with ~dagster.GraphDefinition.to_job to reconstructable(),
requires you to wrap that job’s definition in a module-scoped function, and pass that function
instead:
from dagster import graph, reconstructable
@graph
def my_graph():
...
def define_my_job():
return my_graph.to_job()
reconstructable(define_my_job)
This function implements a very conservative strategy for reconstruction, so that its behavior is easy to predict, but as a consequence it is not able to reconstruct certain kinds of pipelines or jobs, such as those defined by lambdas, in nested scopes (e.g., dynamically within a method call), or in interactive environments such as the Python REPL or Jupyter notebooks.
If you need to reconstruct objects constructed in these ways, you should use
build_reconstructable_job() instead, which allows you to
specify your own reconstruction strategy.
Examples:
from dagster import job, reconstructable
@job
def foo_job():
...
reconstructable_foo_job = reconstructable(foo_job)
@graph
def foo():
...
def make_bar_job():
return foo.to_job()
reconstructable_bar_job = reconstructable(make_bar_job)
The default executor for a job.
This is the executor available by default on a JobDefinition
that does not provide custom executors. This executor has a multiprocessing-enabled mode, and a
single-process mode. By default, multiprocessing mode is enabled. Switching between multiprocess
mode and in-process mode can be achieved via config.
execution:
config:
multiprocess:
execution:
config:
in_process:
When using the multiprocess mode, max_concurrent and retries can also be configured.
execution:
config:
multiprocess:
max_concurrent: 4
retries:
enabled:
The max_concurrent arg is optional and tells the execution engine how many processes may run
concurrently. By default, or if you set max_concurrent to be 0, this is the return value of
python:multiprocessing.cpu_count().
When using the in_process mode, then only retries can be configured.
Execution priority can be configured using the dagster/priority tag via solid metadata,
where the higher the number the higher the priority. 0 is the default and both positive
and negative numbers can be used.
The in-process executor executes all steps in a single process.
For legacy pipelines, this will be the default executor. To select it explicitly, include the following top-level fragment in config:
execution:
in_process:
Execution priority can be configured using the dagster/priority tag via solid/op metadata,
where the higher the number the higher the priority. 0 is the default and both positive
and negative numbers can be used.
The multiprocess executor executes each step in an individual process.
Any job that does not specify custom executors will use the multiprocess_executor by default. For jobs or legacy pipelines, to configure the multiprocess executor, include a fragment such as the following in your run config:
execution:
config:
multiprocess:
max_concurrent: 4
The max_concurrent arg is optional and tells the execution engine how many processes may run
concurrently. By default, or if you set max_concurrent to be 0, this is the return value of
python:multiprocessing.cpu_count().
Execution priority can be configured using the dagster/priority tag via solid/op metadata,
where the higher the number the higher the priority. 0 is the default and both positive
and negative numbers can be used.
The context object that can be made available as the first argument to an op’s compute
function.
The context object provides system information such as resources, config,
and logging to an op’s compute function. Users should not instantiate this
object directly. To construct an OpExecutionContext for testing
purposes, use dagster.build_op_context().
Example:
from dagster import op
@op
def hello_world(context: OpExecutionContext):
context.log.info("Hello, world!")
Returns the partition key of the upstream asset corresponding to the given input.
Returns the asset partition key for the given output. Defaults to “result”, which is the name of the default output.
Returns a list of the partition keys of the upstream asset corresponding to the given input.
Returns a list of the partition keys for the given output.
The PartitionsDefinition on the upstream asset corresponding to this input.
The PartitionsDefinition on the upstream asset corresponding to this input.
The time window for the partitions of the output asset.
Raises an error if either of the following are true: - The output asset has no partitioning. - The output asset is not partitioned with a TimeWindowPartitionsDefinition.
Which mapping_key this execution is for if downstream of a DynamicOutput, otherwise None.
Get a logging tag.
key (tag) – The tag to get.
The value of the tag, if present.
Optional[str]
Whether the current run is a partitioned run
Check if a logging tag is set.
key (str) – The tag to check.
Whether the tag is set.
bool
The current Dagster instance
The currently executing job.
The name of the currently executing job.
str
The log manager available in the execution context.
Log an AssetMaterialization, AssetObservation, or ExpectationResult from within the body of an op.
Events logged with this method will appear in the list of DagsterEvents, as well as the event log.
event (Union[AssetMaterialization, Materialization, AssetObservation, ExpectationResult]) – The event to log.
Examples:
from dagster import op, AssetMaterialization
@op
def log_materialization(context):
context.log_event(AssetMaterialization("foo"))
The parsed config specific to this op.
The current op definition.
The partition key for the current run.
Raises an error if the current run is not a partitioned run.
The partition time window for the current run.
Raises an error if the current run is not a partitioned run, or if the job’s partition definition is not a TimeWindowPartitionsDefinition.
Gives access to pdb debugging from within the op.
Example:
@op
def debug(context):
context.pdb.set_trace()
dagster.utils.forked_pdb.ForkedPdb
The currently available resources.
Resources
Which retry attempt is currently executing i.e. 0 for initial attempt, 1 for first retry, etc.
The run config for the current execution.
dict
The id of the current execution’s run.
str
Builds op execution context from provided parameters.
build_op_context can be used as either a function or context manager. If there is a
provided resource that is a context manager, then build_op_context must be used as a
context manager. This function can be used to provide the context argument when directly
invoking a op.
resources (Optional[Dict[str, Any]]) – The resources to provide to the context. These can be either values or resource definitions.
config (Optional[Any]) – The op config to provide to the context.
instance (Optional[DagsterInstance]) – The dagster instance configured for the context. Defaults to DagsterInstance.ephemeral().
mapping_key (Optional[str]) – A key representing the mapping key from an upstream dynamic
output. Can be accessed using context.get_mapping_key().
partition_key (Optional[str]) – String value representing partition key to execute with.
Examples
context = build_op_context()
op_to_invoke(context)
with build_op_context(resources={"foo": context_manager_resource}) as context:
op_to_invoke(context)
The context object available to a type check function on a DagsterType.
Centralized log dispatch from user code.
An object whose attributes contain the resources available to this op.
Any
The id of this job run.
str
Function to validate a provided run config blob against a given job. For legacy APIs, a pipeline/mode can also be passed in.
If validation is successful, this function will return a dictionary representation of the validated config actually used during execution.
job_def (Union[PipelineDefinition, JobDefinition]) – The job definition to validate run config against
run_config (Optional[Dict[str, Any]]) – The run config to validate
mode (str) – The mode of the pipeline to validate against (different modes may require different config)
pipeline_def (PipelineDefinition) – The pipeline definition to validate run config against.
A dictionary representation of the validated config.
Dict[str, Any]
The
run_configused for jobs has the following schema:{ # configuration for execution, required if executors require config execution: { # the name of one, and only one available executor, typically 'in_process' or 'multiprocess' __executor_name__: { # executor-specific config, if required or permitted config: { ... } } }, # configuration for loggers, required if loggers require config loggers: { # the name of an available logger __logger_name__: { # logger-specific config, if required or permitted config: { ... } }, ... }, # configuration for resources, required if resources require config resources: { # the name of a resource __resource_name__: { # resource-specific config, if required or permitted config: { ... } }, ... }, # configuration for underlying ops, required if ops require config ops: { # these keys align with the names of the ops, or their alias in this job __op_name__: { # pass any data that was defined via config_field config: ..., # configurably specify input values, keyed by input name inputs: { __input_name__: { # if an dagster_type_loader is specified, that schema must be satisfied here; # scalar, built-in types will generally allow their values to be specified directly: value: ... } }, } }, }