This documentation is for an older version (1.4.7) of Dagster. You can view the version of this page from our latest release below.
import inspect
import json
from collections import OrderedDict, defaultdict
from typing import (
TYPE_CHECKING,
Callable,
Dict,
Iterable,
Iterator,
List,
Mapping,
NamedTuple,
Optional,
Sequence,
Set,
Union,
cast,
)
import dagster._check as check
from dagster._annotations import experimental, public
from dagster._core.definitions.asset_selection import AssetSelection
from dagster._core.definitions.assets import AssetsDefinition
from dagster._core.definitions.partition import PartitionsDefinition
from dagster._core.definitions.resource_annotation import get_resource_args
from dagster._core.definitions.resource_definition import ResourceDefinition
from dagster._core.definitions.scoped_resources_builder import ScopedResourcesBuilder
from dagster._core.errors import (
DagsterInvalidDefinitionError,
DagsterInvalidInvocationError,
DagsterInvariantViolationError,
)
from dagster._core.instance import DagsterInstance
from dagster._core.instance.ref import InstanceRef
from dagster._utils import normalize_to_repository
from .events import AssetKey
from .run_request import RunRequest, SensorResult, SkipReason
from .sensor_definition import (
DefaultSensorStatus,
SensorDefinition,
SensorEvaluationContext,
SensorType,
get_context_param_name,
get_sensor_context_from_args_or_kwargs,
validate_and_get_resource_dict,
)
from .target import ExecutableDefinition
from .utils import check_valid_name
if TYPE_CHECKING:
from dagster._core.definitions.definitions_class import Definitions
from dagster._core.definitions.repository_definition import RepositoryDefinition
from dagster._core.storage.event_log.base import EventLogRecord
MAX_NUM_UNCONSUMED_EVENTS = 25
class MultiAssetSensorAssetCursorComponent(
NamedTuple(
"_MultiAssetSensorAssetCursorComponent",
[
("latest_consumed_event_partition", Optional[str]),
("latest_consumed_event_id", Optional[int]),
("trailing_unconsumed_partitioned_event_ids", Dict[str, int]),
],
)
):
"""A cursor component that is used to track the cursor for a particular asset in a multi-asset
sensor.
Here's an illustration to help explain how this representation works:
partition_1 ---|----------a----
partition_2 -t-----|-x---------
partition_3 ----t------|---a---
The "|", "a", "t", and "x" characters represent materialization events.
The x-axis is storage_id, which is basically time. The cursor has been advanced to the "|" event
for each partition. latest_evaluated_event_partition would be "partition_3", and
"latest_evaluated_event_id" would be the storage_id of the "|" event for partition_3.
The "t" events aren't directly represented in the cursor, because they trail the event that the
the cursor for their partition has advanced to. The "a" events aren't directly represented
in the cursor, because they occurred after the "latest_evaluated_event_id". The "x" event is
included in "unevaluated_partitioned_event_ids", because it's after the event that the cursor
for its partition has advanced to, but trails "latest_evaluated_event_id".
Attributes:
latest_consumed_event_partition (Optional[str]): The partition of the latest consumed event
for this asset.
latest_consumed_event_id (Optional[int]): The event ID of the latest consumed event for
this asset.
trailing_unconsumed_partitioned_event_ids (Dict[str, int]): A mapping containing
the partition key mapped to the latest unconsumed materialization event for this
partition with an ID less than latest_consumed_event_id.
"""
def __new__(
cls,
latest_consumed_event_partition,
latest_consumed_event_id,
trailing_unconsumed_partitioned_event_ids,
):
return super(MultiAssetSensorAssetCursorComponent, cls).__new__(
cls,
latest_consumed_event_partition=check.opt_str_param(
latest_consumed_event_partition, "latest_consumed_event_partition"
),
latest_consumed_event_id=check.opt_int_param(
latest_consumed_event_id, "latest_consumed_event_id"
),
trailing_unconsumed_partitioned_event_ids=check.dict_param(
trailing_unconsumed_partitioned_event_ids,
"trailing_unconsumed_partitioned_event_ids",
key_type=str,
value_type=int,
),
)
class MultiAssetSensorContextCursor:
# Tracks the state of the cursor within the tick, created for utility purposes.
# Must call MultiAssetSensorEvaluationContext._update_cursor_after_evaluation at end of tick
# to serialize the cursor.
def __init__(self, cursor: Optional[str], context: "MultiAssetSensorEvaluationContext"):
loaded_cursor = json.loads(cursor) if cursor else {}
self._cursor_component_by_asset_key: Dict[str, MultiAssetSensorAssetCursorComponent] = {}
# The initial latest consumed event ID at the beginning of the tick
self.initial_latest_consumed_event_ids_by_asset_key: Dict[str, Optional[int]] = {}
for str_asset_key, cursor_list in loaded_cursor.items():
if len(cursor_list) != 3:
# In this case, the cursor object is not a multi asset sensor asset cursor
# component. This cursor is maintained by the asset reconciliation sensor.
break
else:
partition_key, event_id, trailing_unconsumed_partitioned_event_ids = cursor_list
self._cursor_component_by_asset_key[str_asset_key] = (
MultiAssetSensorAssetCursorComponent(
latest_consumed_event_partition=partition_key,
latest_consumed_event_id=event_id,
trailing_unconsumed_partitioned_event_ids=trailing_unconsumed_partitioned_event_ids,
)
)
self.initial_latest_consumed_event_ids_by_asset_key[str_asset_key] = event_id
check.dict_param(self._cursor_component_by_asset_key, "unpacked_cursor", key_type=str)
self._context = context
def get_cursor_for_asset(self, asset_key: AssetKey) -> MultiAssetSensorAssetCursorComponent:
return self._cursor_component_by_asset_key.get(
str(asset_key), MultiAssetSensorAssetCursorComponent(None, None, {})
)
def get_stringified_cursor(self) -> str:
return json.dumps(self._cursor_component_by_asset_key)
[docs]@experimental
class MultiAssetSensorEvaluationContext(SensorEvaluationContext):
"""The context object available as the argument to the evaluation function of a
:py:class:`dagster.MultiAssetSensorDefinition`.
Users should not instantiate this object directly. To construct a
`MultiAssetSensorEvaluationContext` for testing purposes, use :py:func:`dagster.
build_multi_asset_sensor_context`.
The `MultiAssetSensorEvaluationContext` contains a cursor object that tracks the state of
consumed event logs for each monitored asset. For each asset, the cursor stores the storage ID
of the latest materialization that has been marked as "consumed" (via a call to `advance_cursor`)
in a `latest_consumed_event_id` field.
For each monitored asset, the cursor will store the latest unconsumed event ID for up to 25
partitions. Each event ID must be before the `latest_consumed_event_id` field for the asset.
Events marked as consumed via `advance_cursor` will be returned in future ticks until they
are marked as consumed.
To update the cursor to the latest materialization and clear the unconsumed events, call
`advance_all_cursors`.
Attributes:
monitored_assets (Union[Sequence[AssetKey], AssetSelection]): The assets monitored
by the sensor. If an AssetSelection object is provided, it will only apply to assets
within the Definitions that this sensor is part of.
repository_def (Optional[RepositoryDefinition]): The repository that the sensor belongs to.
If needed by the sensor top-level resource definitions will be pulled from this repository.
You can provide either this or `definitions`.
instance_ref (Optional[InstanceRef]): The serialized instance configured to run the schedule
cursor (Optional[str]): The cursor, passed back from the last sensor evaluation via
the cursor attribute of SkipReason and RunRequest. Must be a dictionary of asset key
strings to a stringified tuple of (latest_event_partition, latest_event_storage_id,
trailing_unconsumed_partitioned_event_ids).
last_completion_time (float): DEPRECATED The last time that the sensor was consumed (UTC).
last_run_key (str): DEPRECATED The run key of the RunRequest most recently created by this
sensor. Use the preferred `cursor` attribute instead.
repository_name (Optional[str]): The name of the repository that the sensor belongs to.
instance (Optional[DagsterInstance]): The deserialized instance can also be passed in
directly (primarily useful in testing contexts).
definitions (Optional[Definitions]): `Definitions` object that the sensor is defined in.
If needed by the sensor, top-level resource definitions will be pulled from these
definitions. You can provide either this or `repository_def`.
Example:
.. code-block:: python
from dagster import multi_asset_sensor, MultiAssetSensorEvaluationContext
@multi_asset_sensor(monitored_assets=[AssetKey("asset_1), AssetKey("asset_2)])
def the_sensor(context: MultiAssetSensorEvaluationContext):
...
"""
def __init__(
self,
instance_ref: Optional[InstanceRef],
last_completion_time: Optional[float],
last_run_key: Optional[str],
cursor: Optional[str],
repository_name: Optional[str],
repository_def: Optional["RepositoryDefinition"],
monitored_assets: Union[Sequence[AssetKey], AssetSelection],
instance: Optional[DagsterInstance] = None,
resource_defs: Optional[Mapping[str, ResourceDefinition]] = None,
definitions: Optional["Definitions"] = None,
):
from dagster._core.definitions.definitions_class import Definitions
from dagster._core.definitions.repository_definition import RepositoryDefinition
self._repository_def = normalize_to_repository(
check.opt_inst_param(definitions, "definitions", Definitions),
check.opt_inst_param(repository_def, "repository_def", RepositoryDefinition),
)
self._monitored_asset_keys: Sequence[AssetKey]
if isinstance(monitored_assets, AssetSelection):
repo_assets = self._repository_def.assets_defs_by_key.values()
repo_source_assets = self._repository_def.source_assets_by_key.values()
self._monitored_asset_keys = list(
monitored_assets.resolve([*repo_assets, *repo_source_assets])
)
else:
self._monitored_asset_keys = monitored_assets
self._assets_by_key: Dict[AssetKey, Optional[AssetsDefinition]] = {}
self._partitions_def_by_asset_key: Dict[AssetKey, Optional[PartitionsDefinition]] = {}
for asset_key in self._monitored_asset_keys:
assets_def = self._repository_def.assets_defs_by_key.get(asset_key)
self._assets_by_key[asset_key] = assets_def
source_asset_def = self._repository_def.source_assets_by_key.get(asset_key)
self._partitions_def_by_asset_key[asset_key] = (
assets_def.partitions_def
if assets_def
else source_asset_def.partitions_def if source_asset_def else None
)
# Cursor object with utility methods for updating and retrieving cursor information.
# At the end of each tick, must call update_cursor_after_evaluation to update the serialized
# cursor.
self._unpacked_cursor = MultiAssetSensorContextCursor(cursor, self)
self._cursor_advance_state_mutation = MultiAssetSensorCursorAdvances()
self._initial_unconsumed_events_by_id: Dict[int, EventLogRecord] = {}
self._fetched_initial_unconsumed_events = False
super(MultiAssetSensorEvaluationContext, self).__init__(
instance_ref=instance_ref,
last_completion_time=last_completion_time,
last_run_key=last_run_key,
cursor=cursor,
repository_name=repository_name,
instance=instance,
repository_def=repository_def,
resources=resource_defs,
)
def _cache_initial_unconsumed_events(self) -> None:
from dagster._core.events import DagsterEventType
from dagster._core.storage.event_log.base import EventRecordsFilter
# This method caches the initial unconsumed events for each asset key. To generate the
# current unconsumed events, call get_trailing_unconsumed_events instead.
if self._fetched_initial_unconsumed_events:
return
for asset_key in self._monitored_asset_keys:
unconsumed_event_ids = list(
self._get_cursor(asset_key).trailing_unconsumed_partitioned_event_ids.values()
)
if unconsumed_event_ids:
event_records = self.instance.get_event_records(
EventRecordsFilter(
event_type=DagsterEventType.ASSET_MATERIALIZATION,
storage_ids=unconsumed_event_ids,
)
)
self._initial_unconsumed_events_by_id.update(
{event_record.storage_id: event_record for event_record in event_records}
)
self._fetched_initial_unconsumed_events = True
def _get_unconsumed_events_with_ids(
self, event_ids: Sequence[int]
) -> Sequence["EventLogRecord"]:
self._cache_initial_unconsumed_events()
unconsumed_events = []
for event_id in sorted(event_ids):
event = self._initial_unconsumed_events_by_id.get(event_id)
unconsumed_events.extend([event] if event else [])
return unconsumed_events
[docs] @public
def get_trailing_unconsumed_events(self, asset_key: AssetKey) -> Sequence["EventLogRecord"]:
"""Fetches the unconsumed events for a given asset key. Returns only events
before the latest consumed event ID for the given asset. To mark an event as consumed,
pass the event to `advance_cursor`. Returns events in ascending order by storage ID.
Args:
asset_key (AssetKey): The asset key to get unconsumed events for.
Returns:
Sequence[EventLogRecord]: The unconsumed events for the given asset key.
"""
check.inst_param(asset_key, "asset_key", AssetKey)
return self._get_unconsumed_events_with_ids(
list(self._get_cursor(asset_key).trailing_unconsumed_partitioned_event_ids.values())
)
def _get_partitions_after_cursor(self, asset_key: AssetKey) -> Sequence[str]:
asset_key = check.inst_param(asset_key, "asset_key", AssetKey)
partition_key = self._get_cursor(asset_key).latest_consumed_event_partition
partitions_def = self._partitions_def_by_asset_key.get(asset_key)
if not isinstance(partitions_def, PartitionsDefinition):
raise DagsterInvalidInvocationError(f"No partitions defined for asset key {asset_key}")
partitions_to_fetch = list(
partitions_def.get_partition_keys(dynamic_partitions_store=self.instance)
)
if partition_key is not None:
# Return partitions after the cursor partition, not including the cursor partition
partitions_to_fetch = partitions_to_fetch[
partitions_to_fetch.index(partition_key) + 1 :
]
return partitions_to_fetch
def update_cursor_after_evaluation(self) -> None:
"""Updates the cursor after the sensor evaluation function has been called. This method
should be called at most once per evaluation.
"""
new_cursor = self._cursor_advance_state_mutation.get_cursor_with_advances(
self, self._unpacked_cursor
)
if new_cursor is not None:
# Cursor was not updated by this context object, so we do not need to update it
self._cursor = new_cursor
self._unpacked_cursor = MultiAssetSensorContextCursor(new_cursor, self)
self._cursor_advance_state_mutation = MultiAssetSensorCursorAdvances()
self._fetched_initial_unconsumed_events = False
[docs] @public
def latest_materialization_records_by_key(
self,
asset_keys: Optional[Sequence[AssetKey]] = None,
) -> Mapping[AssetKey, Optional["EventLogRecord"]]:
"""Fetches the most recent materialization event record for each asset in asset_keys.
Only fetches events after the latest consumed event ID for the given asset key.
Args:
asset_keys (Optional[Sequence[AssetKey]]): list of asset keys to fetch events for. If
not specified, the latest materialization will be fetched for all assets the
multi_asset_sensor monitors.
Returns: Mapping of AssetKey to EventLogRecord where the EventLogRecord is the latest
materialization event for the asset. If there is no materialization event for the asset,
the value in the mapping will be None.
"""
# Do not evaluate unconsumed events, only events newer than the cursor
# if there are no new events after the cursor, the cursor points to the most
# recent event.
if asset_keys is None:
asset_keys = self._monitored_asset_keys
else:
asset_keys = check.opt_sequence_param(asset_keys, "asset_keys", of_type=AssetKey)
asset_records = self.instance.get_asset_records(asset_keys)
asset_event_records: Dict[AssetKey, Optional[EventLogRecord]] = {
asset_key: None for asset_key in asset_keys
}
for record in asset_records:
if (
record.asset_entry.last_materialization_record
and record.asset_entry.last_materialization_record.storage_id
> (self._get_cursor(record.asset_entry.asset_key).latest_consumed_event_id or 0)
):
asset_event_records[record.asset_entry.asset_key] = (
record.asset_entry.last_materialization_record
)
return asset_event_records
[docs] @public
def materialization_records_for_key(
self, asset_key: AssetKey, limit: Optional[int] = None
) -> Iterable["EventLogRecord"]:
"""Fetches asset materialization event records for asset_key, with the earliest event first.
Only fetches events after the latest consumed event ID for the given asset key.
Args:
asset_key (AssetKey): The asset to fetch materialization events for
limit (Optional[int]): The number of events to fetch
"""
from dagster._core.events import DagsterEventType
from dagster._core.storage.event_log.base import EventRecordsFilter
asset_key = check.inst_param(asset_key, "asset_key", AssetKey)
if asset_key not in self._assets_by_key:
raise DagsterInvalidInvocationError(f"Asset key {asset_key} not monitored by sensor.")
events = list(
self.instance.get_event_records(
EventRecordsFilter(
event_type=DagsterEventType.ASSET_MATERIALIZATION,
asset_key=asset_key,
after_cursor=self._get_cursor(asset_key).latest_consumed_event_id,
),
ascending=True,
limit=limit,
)
)
return events
def _get_cursor(self, asset_key: AssetKey) -> MultiAssetSensorAssetCursorComponent:
"""Returns the MultiAssetSensorAssetCursorComponent for the asset key.
For more information, view the docstring for the MultiAssetSensorAssetCursorComponent class.
"""
check.inst_param(asset_key, "asset_key", AssetKey)
return self._unpacked_cursor.get_cursor_for_asset(asset_key)
[docs] @public
def latest_materialization_records_by_partition(
self,
asset_key: AssetKey,
after_cursor_partition: Optional[bool] = False,
) -> Mapping[str, "EventLogRecord"]:
"""Given an asset, returns a mapping of partition key to the latest materialization event
for that partition. Fetches only materializations that have not been marked as "consumed"
via a call to `advance_cursor`.
Args:
asset_key (AssetKey): The asset to fetch events for.
after_cursor_partition (Optional[bool]): If True, only materializations with partitions
after the cursor's current partition will be returned. By default, set to False.
Returns:
Mapping[str, EventLogRecord]:
Mapping of AssetKey to a mapping of partitions to EventLogRecords where the
EventLogRecord is the most recent materialization event for the partition.
The mapping preserves the order that the materializations occurred.
Example:
.. code-block:: python
@asset(partitions_def=DailyPartitionsDefinition("2022-07-01"))
def july_asset():
return 1
@multi_asset_sensor(asset_keys=[july_asset.key])
def my_sensor(context):
context.latest_materialization_records_by_partition(july_asset.key)
# After materializing july_asset for 2022-07-05, latest_materialization_by_partition
# returns {"2022-07-05": EventLogRecord(...)}
"""
from dagster._core.events import DagsterEventType
from dagster._core.storage.event_log.base import EventLogRecord, EventRecordsFilter
asset_key = check.inst_param(asset_key, "asset_key", AssetKey)
if asset_key not in self._assets_by_key:
raise DagsterInvalidInvocationError(
f"Asset key {asset_key} not monitored in sensor definition"
)
partitions_def = self._partitions_def_by_asset_key.get(asset_key)
if not isinstance(partitions_def, PartitionsDefinition):
raise DagsterInvariantViolationError(
"Cannot get latest materialization by partition for assets with no partitions"
)
partitions_to_fetch = (
self._get_partitions_after_cursor(asset_key)
if after_cursor_partition
else list(partitions_def.get_partition_keys(dynamic_partitions_store=self.instance))
)
# Retain ordering of materializations
materialization_by_partition: Dict[str, EventLogRecord] = OrderedDict()
# Add unconsumed events to the materialization by partition dictionary
# These events came before the cursor, so should be inserted in storage ID ascending order
for unconsumed_event in sorted(
self._get_unconsumed_events_with_ids(
list(self._get_cursor(asset_key).trailing_unconsumed_partitioned_event_ids.values())
)
):
partition = unconsumed_event.partition_key
if isinstance(partition, str) and partition in partitions_to_fetch:
if partition in materialization_by_partition:
# Remove partition to ensure materialization_by_partition preserves
# the order of materializations
materialization_by_partition.pop(partition)
# Add partition and materialization to the end of the OrderedDict
materialization_by_partition[partition] = unconsumed_event
partition_materializations = self.instance.get_event_records(
EventRecordsFilter(
event_type=DagsterEventType.ASSET_MATERIALIZATION,
asset_key=asset_key,
asset_partitions=partitions_to_fetch,
after_cursor=self._get_cursor(asset_key).latest_consumed_event_id,
),
ascending=True,
)
for materialization in partition_materializations:
partition = materialization.partition_key
if isinstance(partition, str):
if partition in materialization_by_partition:
# Remove partition to ensure materialization_by_partition preserves
# the order of materializations
materialization_by_partition.pop(partition)
# Add partition and materialization to the end of the OrderedDict
materialization_by_partition[partition] = materialization
return materialization_by_partition
[docs] @public
def latest_materialization_records_by_partition_and_asset(
self,
) -> Mapping[str, Mapping[AssetKey, "EventLogRecord"]]:
"""Finds the most recent unconsumed materialization for each partition for each asset
monitored by the sensor. Aggregates all materializations into a mapping of partition key
to a mapping of asset key to the materialization event for that partition.
For example, if the sensor monitors two partitioned assets A and B that are materialized
for partition_x after the cursor, this function returns:
.. code-block:: python
{
"partition_x": {asset_a.key: EventLogRecord(...), asset_b.key: EventLogRecord(...)}
}
This method can only be called when all monitored assets are partitioned and share
the same partition definition.
"""
partitions_defs = list(self._partitions_def_by_asset_key.values())
if not partitions_defs or not all(x == partitions_defs[0] for x in partitions_defs):
raise DagsterInvalidInvocationError(
"All assets must be partitioned and share the same partitions definition"
)
asset_and_materialization_tuple_by_partition: Dict[
str, Dict[AssetKey, "EventLogRecord"]
] = defaultdict(dict)
for asset_key in self._monitored_asset_keys:
materialization_by_partition = self.latest_materialization_records_by_partition(
asset_key
)
for partition, materialization in materialization_by_partition.items():
asset_and_materialization_tuple_by_partition[partition][asset_key] = materialization
return asset_and_materialization_tuple_by_partition
[docs] @public
def get_cursor_partition(self, asset_key: Optional[AssetKey]) -> Optional[str]:
"""A utility method to get the current partition the cursor is on."""
asset_key = check.opt_inst_param(asset_key, "asset_key", AssetKey)
if asset_key not in self._monitored_asset_keys:
raise DagsterInvalidInvocationError(
"Provided asset key must correspond to a provided asset"
)
if asset_key:
partition_key = self._get_cursor(asset_key).latest_consumed_event_partition
elif self._monitored_asset_keys is not None and len(self._monitored_asset_keys) == 1:
partition_key = self._get_cursor(
self._monitored_asset_keys[0]
).latest_consumed_event_partition
else:
raise DagsterInvalidInvocationError(
"Asset key must be provided when multiple assets are defined"
)
return partition_key
[docs] @public
def all_partitions_materialized(
self, asset_key: AssetKey, partitions: Optional[Sequence[str]] = None
) -> bool:
"""A utility method to check if a provided list of partitions have been materialized
for a particular asset. This method ignores the cursor and checks all materializations
for the asset.
Args:
asset_key (AssetKey): The asset to check partitions for.
partitions (Optional[Sequence[str]]): A list of partitions to check. If not provided,
all partitions for the asset will be checked.
Returns:
bool: True if all selected partitions have been materialized, False otherwise.
"""
check.inst_param(asset_key, "asset_key", AssetKey)
if partitions is not None:
check.sequence_param(partitions, "partitions", of_type=str)
if len(partitions) == 0:
raise DagsterInvalidInvocationError("Must provide at least one partition in list")
materialization_count_by_partition = self.instance.get_materialization_count_by_partition(
[asset_key]
).get(asset_key, {})
if not partitions:
if asset_key not in self._monitored_asset_keys:
raise DagsterInvariantViolationError(
f"Asset key {asset_key} not monitored by sensor"
)
partitions_def = self._partitions_def_by_asset_key.get(asset_key)
if not partitions_def:
raise DagsterInvariantViolationError(
f"Asset key {asset_key} is not partitioned. Cannot check if partitions have"
" been materialized."
)
partitions = partitions_def.get_partition_keys(dynamic_partitions_store=self.instance)
return all(
[materialization_count_by_partition.get(partition, 0) != 0 for partition in partitions]
)
def _get_asset(self, asset_key: AssetKey, fn_name: str) -> AssetsDefinition:
from dagster._core.definitions.repository_definition import RepositoryDefinition
repo_def = cast(RepositoryDefinition, self._repository_def)
repository_assets = repo_def.assets_defs_by_key
if asset_key in self._assets_by_key:
asset_def = self._assets_by_key[asset_key]
if asset_def is None:
raise DagsterInvalidInvocationError(
f"Asset key {asset_key} does not have an AssetDefinition in this repository"
f" (likely because it is a SourceAsset). fn context.{fn_name} can only be"
" called for assets with AssetDefinitions in the repository."
)
else:
return asset_def
elif asset_key in repository_assets:
return repository_assets[asset_key]
else:
raise DagsterInvalidInvocationError(
f"Asset key {asset_key} not monitored in sensor and does not exist in target jobs"
)
[docs] @public
def get_downstream_partition_keys(
self, partition_key: str, from_asset_key: AssetKey, to_asset_key: AssetKey
) -> Sequence[str]:
"""Converts a partition key from one asset to the corresponding partition key in a downstream
asset. Uses the existing partition mapping between the upstream asset and the downstream
asset if it exists, otherwise, uses the default partition mapping.
Args:
partition_key (str): The partition key to convert.
from_asset_key (AssetKey): The asset key of the upstream asset, which the provided
partition key belongs to.
to_asset_key (AssetKey): The asset key of the downstream asset. The provided partition
key will be mapped to partitions within this asset.
Returns:
Sequence[str]: A list of the corresponding downstream partitions in to_asset_key that
partition_key maps to.
"""
partition_key = check.str_param(partition_key, "partition_key")
to_asset = self._get_asset(to_asset_key, fn_name="get_downstream_partition_keys")
from_asset = self._get_asset(from_asset_key, fn_name="get_downstream_partition_keys")
to_partitions_def = to_asset.partitions_def
if not isinstance(to_partitions_def, PartitionsDefinition):
raise DagsterInvalidInvocationError(
f"Asset key {to_asset_key} is not partitioned. Cannot get partition keys."
)
if not isinstance(from_asset.partitions_def, PartitionsDefinition):
raise DagsterInvalidInvocationError(
f"Asset key {from_asset_key} is not partitioned. Cannot get partition keys."
)
partition_mapping = to_asset.infer_partition_mapping(
from_asset_key, from_asset.partitions_def
)
downstream_partition_key_subset = (
partition_mapping.get_downstream_partitions_for_partitions(
from_asset.partitions_def.empty_subset().with_partition_keys([partition_key]),
downstream_partitions_def=to_partitions_def,
dynamic_partitions_store=self.instance,
)
)
return list(downstream_partition_key_subset.get_partition_keys())
[docs] @public
def advance_cursor(
self, materialization_records_by_key: Mapping[AssetKey, Optional["EventLogRecord"]]
):
"""Marks the provided materialization records as having been consumed by the sensor.
At the end of the tick, the cursor will be updated to advance past all materializations
records provided via `advance_cursor`. In the next tick, records that have been consumed
will no longer be returned.
Passing a partitioned materialization record into this function will mark prior materializations
with the same asset key and partition as having been consumed.
Args:
materialization_records_by_key (Mapping[AssetKey, Optional[EventLogRecord]]): Mapping of
AssetKeys to EventLogRecord or None. If an EventLogRecord is provided, the cursor
for the AssetKey will be updated and future calls to fetch asset materialization events
will not fetch this event again. If None is provided, the cursor for the AssetKey
will not be updated.
"""
self._cursor_advance_state_mutation.add_advanced_records(materialization_records_by_key)
self._cursor_updated = True
[docs] @public
def advance_all_cursors(self):
"""Updates the cursor to the most recent materialization event for all assets monitored by
the multi_asset_sensor.
Marks all materialization events as consumed by the sensor, including unconsumed events.
"""
materializations_by_key = self.latest_materialization_records_by_key()
self._cursor_advance_state_mutation.add_advanced_records(materializations_by_key)
self._cursor_advance_state_mutation.advance_all_cursors_called = True
self._cursor_updated = True
@public
@property
def assets_defs_by_key(self) -> Mapping[AssetKey, Optional[AssetsDefinition]]:
"""Mapping[AssetKey, Optional[AssetsDefinition]]: A mapping from AssetKey to the
AssetsDefinition object which produces it. If a given asset is monitored by this sensor, but
is not produced within the same code location as this sensor, then the value will be None.
"""
return self._assets_by_key
@public
@property
def asset_keys(self) -> Sequence[AssetKey]:
"""Sequence[AssetKey]: The asset keys which are monitored by this sensor."""
return self._monitored_asset_keys
class MultiAssetSensorCursorAdvances:
_advanced_record_ids_by_key: Dict[AssetKey, Set[int]]
_partition_key_by_record_id: Dict[int, Optional[str]]
advance_all_cursors_called: bool
def __init__(self):
self._advanced_record_ids_by_key = defaultdict(set)
self._partition_key_by_record_id = {}
self.advance_all_cursors_called = False
def add_advanced_records(
self, materialization_records_by_key: Mapping[AssetKey, Optional["EventLogRecord"]]
):
for asset_key, materialization in materialization_records_by_key.items():
if materialization:
self._advanced_record_ids_by_key[asset_key].add(materialization.storage_id)
self._partition_key_by_record_id[materialization.storage_id] = (
materialization.partition_key
)
def get_cursor_with_advances(
self,
context: MultiAssetSensorEvaluationContext,
initial_cursor: MultiAssetSensorContextCursor,
) -> Optional[str]:
"""Given the multi asset sensor context and the cursor at the start of the tick,
returns the cursor that should be used in the next tick.
If the cursor has not been updated, returns None
"""
if len(self._advanced_record_ids_by_key) == 0:
# No events marked as advanced
return None
return json.dumps(
{
str(asset_key): self.get_asset_cursor_with_advances(
asset_key, context, initial_cursor
)
for asset_key in context.asset_keys
}
)
def get_asset_cursor_with_advances(
self,
asset_key: AssetKey,
context: MultiAssetSensorEvaluationContext,
initial_cursor: MultiAssetSensorContextCursor,
) -> MultiAssetSensorAssetCursorComponent:
from dagster._core.events import DagsterEventType
from dagster._core.storage.event_log.base import EventRecordsFilter
advanced_records: Set[int] = self._advanced_record_ids_by_key.get(asset_key, set())
if len(advanced_records) == 0:
# No events marked as advanced for this asset key
return initial_cursor.get_cursor_for_asset(asset_key)
initial_asset_cursor = initial_cursor.get_cursor_for_asset(asset_key)
latest_consumed_event_id_at_tick_start = initial_asset_cursor.latest_consumed_event_id
greatest_consumed_event_id_in_tick = max(advanced_records)
latest_consumed_partition_in_tick = self._partition_key_by_record_id[
greatest_consumed_event_id_in_tick
]
latest_unconsumed_record_by_partition: Dict[str, int] = {}
if not self.advance_all_cursors_called:
latest_unconsumed_record_by_partition = (
initial_asset_cursor.trailing_unconsumed_partitioned_event_ids
)
unconsumed_events = list(context.get_trailing_unconsumed_events(asset_key)) + list(
context.instance.get_event_records(
EventRecordsFilter(
event_type=DagsterEventType.ASSET_MATERIALIZATION,
asset_key=asset_key,
after_cursor=latest_consumed_event_id_at_tick_start,
before_cursor=greatest_consumed_event_id_in_tick,
),
ascending=True,
)
if greatest_consumed_event_id_in_tick
> (latest_consumed_event_id_at_tick_start or 0)
else []
)
# Iterate through events in ascending order, storing the latest unconsumed
# event for each partition. If an advanced event exists for a partition, clear
# the prior unconsumed event for that partition.
for event in unconsumed_events:
partition = event.partition_key
if partition is not None: # Ignore unpartitioned events
if event.storage_id not in advanced_records:
latest_unconsumed_record_by_partition[partition] = event.storage_id
elif partition in latest_unconsumed_record_by_partition:
latest_unconsumed_record_by_partition.pop(partition)
if (
latest_consumed_partition_in_tick is not None
and latest_consumed_partition_in_tick in latest_unconsumed_record_by_partition
):
latest_unconsumed_record_by_partition.pop(latest_consumed_partition_in_tick)
if len(latest_unconsumed_record_by_partition.keys()) >= MAX_NUM_UNCONSUMED_EVENTS:
raise DagsterInvariantViolationError(f"""
You have reached the maximum number of trailing unconsumed events
({MAX_NUM_UNCONSUMED_EVENTS}) for asset {asset_key} and no more events can be
added. You can access the unconsumed events by calling the
`get_trailing_unconsumed_events` method on the sensor context, and
mark events as consumed by passing them to `advance_cursor`.
Otherwise, you can clear all unconsumed events and reset the cursor to the latest
materialization for each asset by calling `advance_all_cursors`.
""")
return MultiAssetSensorAssetCursorComponent(
latest_consumed_event_partition=(
latest_consumed_partition_in_tick
if greatest_consumed_event_id_in_tick
> (latest_consumed_event_id_at_tick_start or 0)
else initial_asset_cursor.latest_consumed_event_partition
),
latest_consumed_event_id=(
greatest_consumed_event_id_in_tick
if greatest_consumed_event_id_in_tick
> (latest_consumed_event_id_at_tick_start or 0)
else latest_consumed_event_id_at_tick_start
),
trailing_unconsumed_partitioned_event_ids=latest_unconsumed_record_by_partition,
)
def get_cursor_from_latest_materializations(
asset_keys: Sequence[AssetKey], instance: DagsterInstance
) -> str:
from dagster._core.events import DagsterEventType
from dagster._core.storage.event_log.base import EventRecordsFilter
cursor_dict: Dict[str, MultiAssetSensorAssetCursorComponent] = {}
for asset_key in asset_keys:
materializations = instance.get_event_records(
EventRecordsFilter(
DagsterEventType.ASSET_MATERIALIZATION,
asset_key=asset_key,
),
limit=1,
)
if materializations:
last_materialization = list(materializations)[-1]
cursor_dict[str(asset_key)] = MultiAssetSensorAssetCursorComponent(
last_materialization.partition_key,
last_materialization.storage_id,
{},
)
cursor_str = json.dumps(cursor_dict)
return cursor_str
[docs]@experimental
def build_multi_asset_sensor_context(
*,
monitored_assets: Union[Sequence[AssetKey], AssetSelection],
repository_def: Optional["RepositoryDefinition"] = None,
instance: Optional[DagsterInstance] = None,
cursor: Optional[str] = None,
repository_name: Optional[str] = None,
cursor_from_latest_materializations: bool = False,
resources: Optional[Mapping[str, object]] = None,
definitions: Optional["Definitions"] = None,
) -> MultiAssetSensorEvaluationContext:
"""Builds multi asset sensor execution context for testing purposes using the provided parameters.
This function can be used to provide a context to the invocation of a multi asset sensor definition. If
provided, the dagster instance must be persistent; DagsterInstance.ephemeral() will result in an
error.
Args:
monitored_assets (Union[Sequence[AssetKey], AssetSelection]): The assets monitored
by the sensor. If an AssetSelection object is provided, it will only apply to assets
within the Definitions that this sensor is part of.
repository_def (RepositoryDefinition): `RepositoryDefinition` object that
the sensor is defined in. Must provide `definitions` if this is not provided.
instance (Optional[DagsterInstance]): The dagster instance configured to run the sensor.
cursor (Optional[str]): A string cursor to provide to the evaluation of the sensor. Must be
a dictionary of asset key strings to ints that has been converted to a json string
repository_name (Optional[str]): The name of the repository that the sensor belongs to.
cursor_from_latest_materializations (bool): If True, the cursor will be set to the latest
materialization for each monitored asset. By default, set to False.
resources (Optional[Mapping[str, object]]): The resource definitions
to provide to the sensor.
definitions (Optional[Definitions]): `Definitions` object that the sensor is defined in.
Must provide `repository_def` if this is not provided.
Examples:
.. code-block:: python
with instance_for_test() as instance:
context = build_multi_asset_sensor_context(
monitored_assets=[AssetKey("asset_1"), AssetKey("asset_2")],
instance=instance,
)
my_asset_sensor(context)
"""
from dagster._core.definitions import RepositoryDefinition
from dagster._core.definitions.definitions_class import Definitions
from dagster._core.execution.build_resources import wrap_resources_for_execution
check.opt_inst_param(instance, "instance", DagsterInstance)
check.opt_str_param(cursor, "cursor")
check.opt_str_param(repository_name, "repository_name")
repository_def = normalize_to_repository(
check.opt_inst_param(definitions, "definitions", Definitions),
check.opt_inst_param(repository_def, "repository_def", RepositoryDefinition),
)
check.bool_param(cursor_from_latest_materializations, "cursor_from_latest_materializations")
if cursor_from_latest_materializations:
if cursor:
raise DagsterInvalidInvocationError(
"Cannot provide both cursor and cursor_from_latest_materializations objects."
" Dagster will override the provided cursor based on the"
" cursor_from_latest_materializations object."
)
if not instance:
raise DagsterInvalidInvocationError(
"Cannot provide cursor_from_latest_materializations object without a Dagster"
" instance."
)
asset_keys: Sequence[AssetKey]
if isinstance(monitored_assets, AssetSelection):
asset_keys = cast(
List[AssetKey],
list(
monitored_assets.resolve(list(set(repository_def.assets_defs_by_key.values())))
),
)
else:
asset_keys = monitored_assets
cursor = get_cursor_from_latest_materializations(asset_keys, instance)
return MultiAssetSensorEvaluationContext(
instance_ref=None,
last_completion_time=None,
last_run_key=None,
cursor=cursor,
repository_name=repository_name,
instance=instance,
monitored_assets=monitored_assets,
repository_def=repository_def,
resource_defs=wrap_resources_for_execution(resources),
)
AssetMaterializationFunctionReturn = Union[
Iterator[Union[RunRequest, SkipReason, SensorResult]],
Sequence[RunRequest],
RunRequest,
SkipReason,
None,
SensorResult,
]
AssetMaterializationFunction = Callable[
...,
AssetMaterializationFunctionReturn,
]
MultiAssetMaterializationFunction = Callable[
...,
AssetMaterializationFunctionReturn,
]
[docs]@experimental
class MultiAssetSensorDefinition(SensorDefinition):
"""Define an asset sensor that initiates a set of runs based on the materialization of a list of
assets.
Users should not instantiate this object directly. To construct a
`MultiAssetSensorDefinition`, use :py:func:`dagster.
multi_asset_sensor`.
Args:
name (str): The name of the sensor to create.
asset_keys (Sequence[AssetKey]): The asset_keys this sensor monitors.
asset_materialization_fn (Callable[[MultiAssetSensorEvaluationContext], Union[Iterator[Union[RunRequest, SkipReason]], RunRequest, SkipReason]]): The core
evaluation function for the sensor, which is run at an interval to determine whether a
run should be launched or not. Takes a :py:class:`~dagster.MultiAssetSensorEvaluationContext`.
This function must return a generator, which must yield either a single SkipReason
or one or more RunRequest objects.
minimum_interval_seconds (Optional[int]): The minimum number of seconds that will elapse
between sensor evaluations.
description (Optional[str]): A human-readable description of the sensor.
job (Optional[Union[GraphDefinition, JobDefinition, UnresolvedAssetJobDefinition]]): The job
object to target with this sensor.
jobs (Optional[Sequence[Union[GraphDefinition, JobDefinition, UnresolvedAssetJobDefinition]]]):
(experimental) A list of jobs to be executed when the sensor fires.
default_status (DefaultSensorStatus): Whether the sensor starts as running or not. The default
status can be overridden from the Dagster UI or via the GraphQL API.
request_assets (Optional[AssetSelection]): (Experimental) an asset selection to launch a run
for if the sensor condition is met. This can be provided instead of specifying a job.
"""
def __init__(
self,
name: str,
monitored_assets: Union[Sequence[AssetKey], AssetSelection],
job_name: Optional[str],
asset_materialization_fn: MultiAssetMaterializationFunction,
minimum_interval_seconds: Optional[int] = None,
description: Optional[str] = None,
job: Optional[ExecutableDefinition] = None,
jobs: Optional[Sequence[ExecutableDefinition]] = None,
default_status: DefaultSensorStatus = DefaultSensorStatus.STOPPED,
request_assets: Optional[AssetSelection] = None,
required_resource_keys: Optional[Set[str]] = None,
):
resource_arg_names: Set[str] = {
arg.name for arg in get_resource_args(asset_materialization_fn)
}
combined_required_resource_keys = (
check.opt_set_param(required_resource_keys, "required_resource_keys", of_type=str)
| resource_arg_names
)
def _wrap_asset_fn(materialization_fn):
def _fn(context):
def _check_cursor_not_set(sensor_result: SensorResult):
if sensor_result.cursor:
raise DagsterInvariantViolationError(
"Cannot set cursor in a multi_asset_sensor. Cursor is set automatically"
" based on the latest materialization for each monitored asset."
)
resource_args_populated = validate_and_get_resource_dict(
context.resources, name, resource_arg_names
)
with MultiAssetSensorEvaluationContext(
instance_ref=context.instance_ref,
last_completion_time=context.last_completion_time,
last_run_key=context.last_run_key,
cursor=context.cursor,
repository_name=context.repository_def.name,
repository_def=context.repository_def,
monitored_assets=monitored_assets,
instance=context.instance,
resource_defs=context.resource_defs,
) as multi_asset_sensor_context:
context_param_name = get_context_param_name(materialization_fn)
context_param = (
{context_param_name: multi_asset_sensor_context}
if context_param_name
else {}
)
result = materialization_fn(
**context_param,
**resource_args_populated,
)
if result is None:
return
# because the materialization_fn can yield results (see _wrapped_fn in multi_asset_sensor decorator),
# even if you return None in a sensor, it will still cause in inspect.isgenerator(result) to be True.
# So keep track to see if we actually return any values and should update the cursor
runs_yielded = False
if inspect.isgenerator(result) or isinstance(result, list):
for item in result:
if isinstance(item, RunRequest):
runs_yielded = True
if isinstance(item, SensorResult):
raise DagsterInvariantViolationError(
"Cannot yield a SensorResult from a multi_asset_sensor. Instead"
" return the SensorResult."
)
yield item
elif isinstance(result, RunRequest):
runs_yielded = True
yield result
elif isinstance(result, SkipReason):
# if result is a SkipReason, we don't update the cursor, so don't set runs_yielded = True
yield result
elif isinstance(result, SensorResult):
_check_cursor_not_set(result)
if result.run_requests:
runs_yielded = True
yield result
if runs_yielded and not multi_asset_sensor_context.cursor_updated:
raise DagsterInvalidDefinitionError(
"Asset materializations have been handled in this sensor, but the cursor"
" was not updated. This means the same materialization events will be"
" handled in the next sensor tick. Use context.advance_cursor or"
" context.advance_all_cursors to update the cursor."
)
multi_asset_sensor_context.update_cursor_after_evaluation()
context.update_cursor(multi_asset_sensor_context.cursor)
return _fn
self._raw_asset_materialization_fn = asset_materialization_fn
super(MultiAssetSensorDefinition, self).__init__(
name=check_valid_name(name),
job_name=job_name,
evaluation_fn=_wrap_asset_fn(
check.callable_param(asset_materialization_fn, "asset_materialization_fn")
),
minimum_interval_seconds=minimum_interval_seconds,
description=description,
job=job,
jobs=jobs,
default_status=default_status,
asset_selection=request_assets,
required_resource_keys=combined_required_resource_keys,
)
def __call__(self, *args, **kwargs) -> AssetMaterializationFunctionReturn:
context_param_name = get_context_param_name(self._raw_asset_materialization_fn)
context = get_sensor_context_from_args_or_kwargs(
self._raw_asset_materialization_fn,
args,
kwargs,
context_type=MultiAssetSensorEvaluationContext,
)
resources = validate_and_get_resource_dict(
context.resources if context else ScopedResourcesBuilder.build_empty(),
self._name,
self._required_resource_keys,
)
context_param = {context_param_name: context} if context_param_name and context else {}
result = self._raw_asset_materialization_fn(**context_param, **resources)
if context:
context.update_cursor_after_evaluation()
return result
@property
def sensor_type(self) -> SensorType:
return SensorType.MULTI_ASSET