import hashlib
import json
import warnings
from typing import (
TYPE_CHECKING,
AbstractSet,
Dict,
Iterable,
Iterator,
List,
Mapping,
Optional,
Sequence,
Set,
Union,
cast,
)
import dagster._check as check
from dagster._annotations import public
from dagster._core.decorator_utils import get_function_params
from dagster._core.definitions.asset_layer import get_dep_node_handles_of_graph_backed_asset
from dagster._core.definitions.freshness_policy import FreshnessPolicy
from dagster._core.definitions.metadata import MetadataUserInput
from dagster._core.definitions.time_window_partition_mapping import TimeWindowPartitionMapping
from dagster._core.definitions.time_window_partitions import TimeWindowPartitionsDefinition
from dagster._core.errors import DagsterInvalidDefinitionError, DagsterInvalidInvocationError
from dagster._core.selector.subset_selector import SelectionTree
from dagster._utils.backcompat import (
ExperimentalWarning,
deprecation_warning,
experimental_arg_warning,
)
from dagster._utils.merger import merge_dicts
from .dependency import NodeHandle
from .events import AssetKey, CoercibleToAssetKey, CoercibleToAssetKeyPrefix
from .node_definition import NodeDefinition
from .op_definition import OpDefinition
from .partition import PartitionsDefinition
from .partition_mapping import (
PartitionMapping,
get_builtin_partition_mapping_types,
infer_partition_mapping,
)
from .resource_definition import ResourceDefinition
from .resource_requirement import (
ResourceAddable,
ResourceRequirement,
ensure_requirements_satisfied,
get_resource_key_conflicts,
)
from .source_asset import SourceAsset
from .utils import DEFAULT_GROUP_NAME, validate_group_name
if TYPE_CHECKING:
from dagster._core.execution.context.compute import OpExecutionContext
from .graph_definition import GraphDefinition
[docs]class AssetsDefinition(ResourceAddable):
"""Defines a set of assets that are produced by the same op or graph.
AssetsDefinitions are typically not instantiated directly, but rather produced using the
:py:func:`@asset <asset>` or :py:func:`@multi_asset <multi_asset>` decorators.
Attributes:
asset_deps (Mapping[AssetKey, AbstractSet[AssetKey]]): Maps assets that are produced by this
definition to assets that they depend on. The dependencies can be either "internal",
meaning that they refer to other assets that are produced by this definition, or
"external", meaning that they refer to assets that aren't produced by this definition.
"""
_node_def: NodeDefinition
_keys_by_input_name: Mapping[str, AssetKey]
_keys_by_output_name: Mapping[str, AssetKey]
_partitions_def: Optional[PartitionsDefinition]
_partition_mappings: Mapping[AssetKey, PartitionMapping]
_asset_deps: Mapping[AssetKey, AbstractSet[AssetKey]]
_resource_defs: Mapping[str, ResourceDefinition]
_group_names_by_key: Mapping[AssetKey, str]
_selected_asset_keys: AbstractSet[AssetKey]
_can_subset: bool
_metadata_by_key: Mapping[AssetKey, MetadataUserInput]
_freshness_policies_by_key: Mapping[AssetKey, FreshnessPolicy]
_code_versions_by_key: Mapping[AssetKey, Optional[str]]
_descriptions_by_key: Mapping[AssetKey, str]
def __init__(
self,
*,
keys_by_input_name: Mapping[str, AssetKey],
keys_by_output_name: Mapping[str, AssetKey],
node_def: NodeDefinition,
partitions_def: Optional[PartitionsDefinition] = None,
partition_mappings: Optional[Mapping[AssetKey, PartitionMapping]] = None,
asset_deps: Optional[Mapping[AssetKey, AbstractSet[AssetKey]]] = None,
selected_asset_keys: Optional[AbstractSet[AssetKey]] = None,
can_subset: bool = False,
resource_defs: Optional[Mapping[str, ResourceDefinition]] = None,
group_names_by_key: Optional[Mapping[AssetKey, str]] = None,
metadata_by_key: Optional[Mapping[AssetKey, MetadataUserInput]] = None,
freshness_policies_by_key: Optional[Mapping[AssetKey, FreshnessPolicy]] = None,
descriptions_by_key: Optional[Mapping[AssetKey, str]] = None,
# if adding new fields, make sure to handle them in the with_prefix_or_group
# and from_graph methods
):
from .graph_definition import GraphDefinition
if isinstance(node_def, GraphDefinition):
_validate_graph_def(node_def)
self._node_def = node_def
self._keys_by_input_name = check.mapping_param(
keys_by_input_name,
"keys_by_input_name",
key_type=str,
value_type=AssetKey,
)
self._keys_by_output_name = check.mapping_param(
keys_by_output_name,
"keys_by_output_name",
key_type=str,
value_type=AssetKey,
)
self._partitions_def = partitions_def
self._partition_mappings = partition_mappings or {}
builtin_partition_mappings = get_builtin_partition_mapping_types()
for partition_mapping in self._partition_mappings.values():
if not isinstance(partition_mapping, builtin_partition_mappings):
warnings.warn(
f"Non-built-in PartitionMappings, such as {type(partition_mapping).__name__} "
"are deprecated and will not work with asset reconciliation. The built-in "
"partition mappings are "
+ ", ".join(
builtin_partition_mapping.__name__
for builtin_partition_mapping in builtin_partition_mappings
)
+ ".",
category=DeprecationWarning,
)
# if not specified assume all output assets depend on all input assets
all_asset_keys = set(keys_by_output_name.values())
self._asset_deps = asset_deps or {
out_asset_key: set(keys_by_input_name.values()) for out_asset_key in all_asset_keys
}
check.invariant(
set(self._asset_deps.keys()) == all_asset_keys,
(
"The set of asset keys with dependencies specified in the asset_deps argument must "
"equal the set of asset keys produced by this AssetsDefinition. \n"
f"asset_deps keys: {set(self._asset_deps.keys())} \n"
f"expected keys: {all_asset_keys}"
),
)
self._resource_defs = check.opt_mapping_param(resource_defs, "resource_defs")
group_names_by_key = (
check.mapping_param(group_names_by_key, "group_names_by_key")
if group_names_by_key
else {}
)
self._group_names_by_key = {}
# assets that don't have a group name get a DEFAULT_GROUP_NAME
for key in all_asset_keys:
group_name = group_names_by_key.get(key)
self._group_names_by_key[key] = validate_group_name(group_name)
if selected_asset_keys is not None:
self._selected_asset_keys = selected_asset_keys
else:
self._selected_asset_keys = all_asset_keys
self._can_subset = can_subset
self._code_versions_by_key = {}
self._metadata_by_key = dict(
check.opt_mapping_param(
metadata_by_key, "metadata_by_key", key_type=AssetKey, value_type=dict
)
)
self._descriptions_by_key = dict(
check.opt_mapping_param(
descriptions_by_key, "descriptions_by_key", key_type=AssetKey, value_type=str
)
)
for output_name, asset_key in keys_by_output_name.items():
output_def, _ = node_def.resolve_output_to_origin(output_name, None)
self._metadata_by_key[asset_key] = merge_dicts(
output_def.metadata,
self._metadata_by_key.get(asset_key, {}),
)
description = (
self._descriptions_by_key.get(asset_key, output_def.description)
or node_def.description
)
if description:
self._descriptions_by_key[asset_key] = description
self._code_versions_by_key[asset_key] = output_def.code_version
for key, freshness_policy in (freshness_policies_by_key or {}).items():
check.param_invariant(
not (
freshness_policy
and self._partitions_def is not None
and not isinstance(self._partitions_def, TimeWindowPartitionsDefinition)
),
"freshness_policies_by_key",
(
"FreshnessPolicies are currently unsupported for assets with partitions of type"
f" {type(self._partitions_def)}."
),
)
self._freshness_policies_by_key = check.opt_mapping_param(
freshness_policies_by_key,
"freshness_policies_by_key",
key_type=AssetKey,
value_type=FreshnessPolicy,
)
_validate_self_deps(
input_keys=self._keys_by_input_name.values(),
output_keys=self._keys_by_output_name.values(),
partition_mappings=self._partition_mappings,
)
def __call__(self, *args: object, **kwargs: object) -> object:
from dagster._core.definitions.decorators.op_decorator import DecoratedOpFunction
from dagster._core.execution.context.compute import OpExecutionContext
from .graph_definition import GraphDefinition
if isinstance(self.node_def, GraphDefinition):
return self._node_def(*args, **kwargs)
solid_def = self.op
provided_context: Optional[OpExecutionContext] = None
if len(args) > 0 and isinstance(args[0], OpExecutionContext):
provided_context = _build_invocation_context_with_included_resources(self, args[0])
new_args = [provided_context, *args[1:]]
return solid_def(*new_args, **kwargs)
elif (
isinstance(solid_def.compute_fn, DecoratedOpFunction)
and solid_def.compute_fn.has_context_arg()
):
context_param_name = get_function_params(solid_def.compute_fn.decorated_fn)[0].name
if context_param_name in kwargs:
provided_context = _build_invocation_context_with_included_resources(
self, cast(OpExecutionContext, kwargs[context_param_name])
)
new_kwargs = dict(kwargs)
new_kwargs[context_param_name] = provided_context
return solid_def(*args, **new_kwargs)
return solid_def(*args, **kwargs)
[docs] @public
@staticmethod
def from_graph(
graph_def: "GraphDefinition",
*,
keys_by_input_name: Optional[Mapping[str, AssetKey]] = None,
keys_by_output_name: Optional[Mapping[str, AssetKey]] = None,
key_prefix: Optional[CoercibleToAssetKeyPrefix] = None,
internal_asset_deps: Optional[Mapping[str, Set[AssetKey]]] = None,
partitions_def: Optional[PartitionsDefinition] = None,
partition_mappings: Optional[Mapping[str, PartitionMapping]] = None,
resource_defs: Optional[Mapping[str, ResourceDefinition]] = None,
group_name: Optional[str] = None,
group_names_by_output_name: Optional[Mapping[str, Optional[str]]] = None,
descriptions_by_output_name: Optional[Mapping[str, str]] = None,
metadata_by_output_name: Optional[Mapping[str, Optional[MetadataUserInput]]] = None,
freshness_policies_by_output_name: Optional[Mapping[str, Optional[FreshnessPolicy]]] = None,
can_subset: bool = False,
) -> "AssetsDefinition":
"""Constructs an AssetsDefinition from a GraphDefinition.
Args:
graph_def (GraphDefinition): The GraphDefinition that is an asset.
keys_by_input_name (Optional[Mapping[str, AssetKey]]): A mapping of the input
names of the decorated graph to their corresponding asset keys. If not provided,
the input asset keys will be created from the graph input names.
keys_by_output_name (Optional[Mapping[str, AssetKey]]): A mapping of the output
names of the decorated graph to their corresponding asset keys. If not provided,
the output asset keys will be created from the graph output names.
key_prefix (Optional[Union[str, Sequence[str]]]): If provided, key_prefix will be prepended
to each key in keys_by_output_name. Each item in key_prefix must be a valid name in
dagster (ie only contains letters, numbers, and _) and may not contain python
reserved keywords.
internal_asset_deps (Optional[Mapping[str, Set[AssetKey]]]): By default, it is assumed
that all assets produced by the graph depend on all assets that are consumed by that
graph. If this default is not correct, you pass in a map of output names to a
corrected set of AssetKeys that they depend on. Any AssetKeys in this list must be
either used as input to the asset or produced within the graph.
partitions_def (Optional[PartitionsDefinition]): Defines the set of partition keys that
compose the assets.
partition_mappings (Optional[Mapping[str, PartitionMapping]]): Defines how to map partition
keys for this asset to partition keys of upstream assets. Each key in the dictionary
correponds to one of the input assets, and each value is a PartitionMapping.
If no entry is provided for a particular asset dependency, the partition mapping defaults
to the default partition mapping for the partitions definition, which is typically maps
partition keys to the same partition keys in upstream assets.
resource_defs (Optional[Mapping[str, ResourceDefinition]]):
(Experimental) A mapping of resource keys to resource definitions. These resources
will be initialized during execution, and can be accessed from the
body of ops in the graph during execution.
group_name (Optional[str]): A group name for the constructed asset. Assets without a
group name are assigned to a group called "default".
group_names_by_output_name (Optional[Mapping[str, Optional[str]]]): Defines a group name to be
associated with some or all of the output assets for this node. Keys are names of the
outputs, and values are the group name. Cannot be used with the group_name argument.
descriptions_by_output_name (Optional[Mapping[str, Optional[str]]]): Defines a description to be
associated with each of the output asstes for this graph.
metadata_by_output_name (Optional[Mapping[str, Optional[MetadataUserInput]]]): Defines metadata to
be associated with each of the output assets for this node. Keys are names of the
outputs, and values are dictionaries of metadata to be associated with the related
asset.
freshness_policies_by_output_name_ouptut_name (Optional[Mapping[str, Optional[FreshnessPolicy]]]): Defines a
FreshnessPolicy to be associated with some or all of the output assets for this node.
Keys are the names of the outputs, and values are the FreshnessPolicies to be attached
to the associated asset.
"""
if resource_defs is not None:
experimental_arg_warning("resource_defs", "AssetsDefinition.from_graph")
return AssetsDefinition._from_node(
node_def=graph_def,
keys_by_input_name=keys_by_input_name,
keys_by_output_name=keys_by_output_name,
key_prefix=key_prefix,
internal_asset_deps=internal_asset_deps,
partitions_def=partitions_def,
partition_mappings=partition_mappings,
resource_defs=resource_defs,
group_name=group_name,
group_names_by_output_name=group_names_by_output_name,
descriptions_by_output_name=descriptions_by_output_name,
metadata_by_output_name=metadata_by_output_name,
freshness_policies_by_output_name=freshness_policies_by_output_name,
can_subset=can_subset,
)
[docs] @public
@staticmethod
def from_op(
op_def: OpDefinition,
*,
keys_by_input_name: Optional[Mapping[str, AssetKey]] = None,
keys_by_output_name: Optional[Mapping[str, AssetKey]] = None,
key_prefix: Optional[CoercibleToAssetKeyPrefix] = None,
internal_asset_deps: Optional[Mapping[str, Set[AssetKey]]] = None,
partitions_def: Optional[PartitionsDefinition] = None,
partition_mappings: Optional[Mapping[str, PartitionMapping]] = None,
group_name: Optional[str] = None,
group_names_by_output_name: Optional[Mapping[str, Optional[str]]] = None,
descriptions_by_output_name: Optional[Mapping[str, str]] = None,
metadata_by_output_name: Optional[Mapping[str, Optional[MetadataUserInput]]] = None,
freshness_policies_by_output_name: Optional[Mapping[str, Optional[FreshnessPolicy]]] = None,
can_subset: bool = False,
) -> "AssetsDefinition":
"""Constructs an AssetsDefinition from an OpDefinition.
Args:
op_def (OpDefinition): The OpDefinition that is an asset.
keys_by_input_name (Optional[Mapping[str, AssetKey]]): A mapping of the input
names of the decorated op to their corresponding asset keys. If not provided,
the input asset keys will be created from the op input names.
keys_by_output_name (Optional[Mapping[str, AssetKey]]): A mapping of the output
names of the decorated op to their corresponding asset keys. If not provided,
the output asset keys will be created from the op output names.
key_prefix (Optional[Union[str, Sequence[str]]]): If provided, key_prefix will be prepended
to each key in keys_by_output_name. Each item in key_prefix must be a valid name in
dagster (ie only contains letters, numbers, and _) and may not contain python
reserved keywords.
internal_asset_deps (Optional[Mapping[str, Set[AssetKey]]]): By default, it is assumed
that all assets produced by the op depend on all assets that are consumed by that
op. If this default is not correct, you pass in a map of output names to a
corrected set of AssetKeys that they depend on. Any AssetKeys in this list must be
either used as input to the asset or produced within the op.
partitions_def (Optional[PartitionsDefinition]): Defines the set of partition keys that
compose the assets.
partition_mappings (Optional[Mapping[str, PartitionMapping]]): Defines how to map partition
keys for this asset to partition keys of upstream assets. Each key in the dictionary
correponds to one of the input assets, and each value is a PartitionMapping.
If no entry is provided for a particular asset dependency, the partition mapping defaults
to the default partition mapping for the partitions definition, which is typically maps
partition keys to the same partition keys in upstream assets.
group_name (Optional[str]): A group name for the constructed asset. Assets without a
group name are assigned to a group called "default".
group_names_by_output_name (Optional[Mapping[str, Optional[str]]]): Defines a group name to be
associated with some or all of the output assets for this node. Keys are names of the
outputs, and values are the group name. Cannot be used with the group_name argument.
descriptions_by_output_name (Optional[Mapping[str, Optional[str]]]): Defines a description to be
associated with each of the output asstes for this graph.
metadata_by_output_name (Optional[Mapping[str, Optional[MetadataUserInput]]]): Defines metadata to
be associated with each of the output assets for this node. Keys are names of the
outputs, and values are dictionaries of metadata to be associated with the related
asset.
freshness_policies_by_output_name_ouptut_name (Optional[Mapping[str, Optional[FreshnessPolicy]]]): Defines a
FreshnessPolicy to be associated with some or all of the output assets for this node.
Keys are the names of the outputs, and values are the FreshnessPolicies to be attached
to the associated asset.
"""
return AssetsDefinition._from_node(
node_def=op_def,
keys_by_input_name=keys_by_input_name,
keys_by_output_name=keys_by_output_name,
key_prefix=key_prefix,
internal_asset_deps=internal_asset_deps,
partitions_def=partitions_def,
partition_mappings=partition_mappings,
group_name=group_name,
group_names_by_output_name=group_names_by_output_name,
descriptions_by_output_name=descriptions_by_output_name,
metadata_by_output_name=metadata_by_output_name,
freshness_policies_by_output_name=freshness_policies_by_output_name,
can_subset=can_subset,
)
@staticmethod
def _from_node(
node_def: Union[OpDefinition, "GraphDefinition"],
*,
keys_by_input_name: Optional[Mapping[str, AssetKey]] = None,
keys_by_output_name: Optional[Mapping[str, AssetKey]] = None,
key_prefix: Optional[CoercibleToAssetKeyPrefix] = None,
internal_asset_deps: Optional[Mapping[str, Set[AssetKey]]] = None,
partitions_def: Optional[PartitionsDefinition] = None,
partition_mappings: Optional[Mapping[str, PartitionMapping]] = None,
resource_defs: Optional[Mapping[str, ResourceDefinition]] = None,
group_name: Optional[str] = None,
group_names_by_output_name: Optional[Mapping[str, Optional[str]]] = None,
descriptions_by_output_name: Optional[Mapping[str, str]] = None,
metadata_by_output_name: Optional[Mapping[str, Optional[MetadataUserInput]]] = None,
freshness_policies_by_output_name: Optional[Mapping[str, Optional[FreshnessPolicy]]] = None,
can_subset: bool = False,
) -> "AssetsDefinition":
node_def = check.inst_param(node_def, "node_def", NodeDefinition)
keys_by_input_name = _infer_keys_by_input_names(
node_def,
check.opt_mapping_param(
keys_by_input_name, "keys_by_input_name", key_type=str, value_type=AssetKey
),
)
keys_by_output_name = check.opt_mapping_param(
keys_by_output_name,
"keys_by_output_name",
key_type=str,
value_type=AssetKey,
)
internal_asset_deps = check.opt_mapping_param(
internal_asset_deps, "internal_asset_deps", key_type=str, value_type=set
)
resource_defs = check.opt_mapping_param(
resource_defs, "resource_defs", key_type=str, value_type=ResourceDefinition
)
transformed_internal_asset_deps: Dict[AssetKey, AbstractSet[AssetKey]] = {}
if internal_asset_deps:
for output_name, asset_keys in internal_asset_deps.items():
check.invariant(
output_name in keys_by_output_name,
(
f"output_name {output_name} specified in internal_asset_deps does not exist"
" in the decorated function"
),
)
transformed_internal_asset_deps[keys_by_output_name[output_name]] = asset_keys
keys_by_output_name = _infer_keys_by_output_names(node_def, keys_by_output_name or {})
keys_by_output_name_with_prefix: Dict[str, AssetKey] = {}
key_prefix_list = [key_prefix] if isinstance(key_prefix, str) else key_prefix
for output_name, key in keys_by_output_name.items():
# add key_prefix to the beginning of each asset key
key_with_key_prefix = AssetKey(
list(filter(None, [*(key_prefix_list or []), *key.path]))
)
keys_by_output_name_with_prefix[output_name] = key_with_key_prefix
check.param_invariant(
group_name is None or group_names_by_output_name is None,
"group_name",
"Cannot use both group_name and group_names_by_output_name",
)
if group_name:
group_names_by_key = {
asset_key: group_name for asset_key in keys_by_output_name_with_prefix.values()
}
elif group_names_by_output_name:
group_names_by_key = {
keys_by_output_name_with_prefix[output_name]: group_name
for output_name, group_name in group_names_by_output_name.items()
if group_name is not None
}
else:
group_names_by_key = None
return AssetsDefinition(
keys_by_input_name=keys_by_input_name,
keys_by_output_name=keys_by_output_name_with_prefix,
node_def=node_def,
asset_deps=transformed_internal_asset_deps or None,
partitions_def=check.opt_inst_param(
partitions_def,
"partitions_def",
PartitionsDefinition,
),
group_names_by_key=group_names_by_key,
resource_defs=resource_defs,
partition_mappings={
keys_by_input_name[input_name]: partition_mapping
for input_name, partition_mapping in partition_mappings.items()
}
if partition_mappings
else None,
metadata_by_key={
keys_by_output_name[output_name]: metadata
for output_name, metadata in metadata_by_output_name.items()
if metadata is not None
}
if metadata_by_output_name
else None,
freshness_policies_by_key={
keys_by_output_name[output_name]: freshness_policy
for output_name, freshness_policy in freshness_policies_by_output_name.items()
if freshness_policy is not None
}
if freshness_policies_by_output_name
else None,
descriptions_by_key={
keys_by_output_name[output_name]: description
for output_name, description in descriptions_by_output_name.items()
if description is not None
}
if descriptions_by_output_name
else None,
can_subset=can_subset,
)
@public
@property
def can_subset(self) -> bool:
return self._can_subset
@public
@property
def group_names_by_key(self) -> Mapping[AssetKey, str]:
return self._group_names_by_key
@public
@property
def descriptions_by_key(self) -> Mapping[AssetKey, str]:
return self._descriptions_by_key
@public
@property
def op(self) -> OpDefinition:
check.invariant(
isinstance(self._node_def, OpDefinition),
"The NodeDefinition for this AssetsDefinition is not of type OpDefinition.",
)
return cast(OpDefinition, self._node_def)
@public
@property
def node_def(self) -> NodeDefinition:
return self._node_def
@public
@property
def asset_deps(self) -> Mapping[AssetKey, AbstractSet[AssetKey]]:
return self._asset_deps
@property
def input_names(self) -> Iterable[str]:
return self.keys_by_input_name.keys()
@public
@property
def key(self) -> AssetKey:
check.invariant(
len(self.keys) == 1,
"Tried to retrieve asset key from an assets definition with multiple asset keys: "
+ ", ".join([str(ak.to_string()) for ak in self._keys_by_output_name.values()]),
)
return next(iter(self.keys))
@property
def asset_key(self) -> AssetKey:
deprecation_warning(
"AssetsDefinition.asset_key", "1.0.0", "Use AssetsDefinition.key instead."
)
return self.key
@public
@property
def resource_defs(self) -> Mapping[str, ResourceDefinition]:
return dict(self._resource_defs)
@public
@property
def keys(self) -> AbstractSet[AssetKey]:
return self._selected_asset_keys
@property
def asset_keys(self) -> AbstractSet[AssetKey]:
deprecation_warning(
"AssetsDefinition.asset_keys", "1.0.0", "Use AssetsDefinition.keys instead."
)
return self.keys
@public
@property
def dependency_keys(self) -> Iterable[AssetKey]:
# the input asset keys that are directly upstream of a selected asset key
upstream_keys = {dep_key for key in self.keys for dep_key in self.asset_deps[key]}
input_keys = set(self._keys_by_input_name.values())
return upstream_keys.intersection(input_keys)
@property
def node_keys_by_output_name(self) -> Mapping[str, AssetKey]:
"""AssetKey for each output on the underlying NodeDefinition."""
return self._keys_by_output_name
@property
def node_keys_by_input_name(self) -> Mapping[str, AssetKey]:
"""AssetKey for each input on the underlying NodeDefinition."""
return self._keys_by_input_name
@property
def keys_by_output_name(self) -> Mapping[str, AssetKey]:
return {
name: key for name, key in self.node_keys_by_output_name.items() if key in self.keys
}
@property
def keys_by_input_name(self) -> Mapping[str, AssetKey]:
upstream_keys = {dep_key for key in self.keys for dep_key in self.asset_deps[key]}
return {
name: key for name, key in self.node_keys_by_input_name.items() if key in upstream_keys
}
@property
def freshness_policies_by_key(self) -> Mapping[AssetKey, FreshnessPolicy]:
return self._freshness_policies_by_key
@public
@property
def partitions_def(self) -> Optional[PartitionsDefinition]:
return self._partitions_def
@property
def metadata_by_key(self) -> Mapping[AssetKey, MetadataUserInput]:
return self._metadata_by_key
@property
def code_versions_by_key(self) -> Mapping[AssetKey, Optional[str]]:
return self._code_versions_by_key
@property
def partition_mappings(self) -> Mapping[AssetKey, PartitionMapping]:
return self._partition_mappings
@public
def get_partition_mapping(self, in_asset_key: AssetKey) -> Optional[PartitionMapping]:
return self._partition_mappings.get(in_asset_key)
def get_partition_mapping_for_input(self, input_name: str) -> Optional[PartitionMapping]:
return self._partition_mappings.get(self._keys_by_input_name[input_name])
def infer_partition_mapping(
self, upstream_asset_key: AssetKey, upstream_partitions_def: Optional[PartitionsDefinition]
) -> PartitionMapping:
with warnings.catch_warnings():
warnings.simplefilter("ignore", category=ExperimentalWarning)
partition_mapping = self._partition_mappings.get(upstream_asset_key)
return infer_partition_mapping(
partition_mapping, self._partitions_def, upstream_partitions_def
)
def get_output_name_for_asset_key(self, key: AssetKey) -> str:
for output_name, asset_key in self.keys_by_output_name.items():
if key == asset_key:
return output_name
check.failed(f"Asset key {key.to_user_string()} not found in AssetsDefinition")
def get_op_def_for_asset_key(self, key: AssetKey) -> OpDefinition:
"""If this is an op-backed asset, returns the op def. If it's a graph-backed asset,
returns the op def within the graph that produces the given asset key.
"""
output_name = self.get_output_name_for_asset_key(key)
return self.node_def.resolve_output_to_origin_op_def(output_name)
def with_prefix_or_group(
self,
output_asset_key_replacements: Optional[Mapping[AssetKey, AssetKey]] = None,
input_asset_key_replacements: Optional[Mapping[AssetKey, AssetKey]] = None,
group_names_by_key: Optional[Mapping[AssetKey, str]] = None,
) -> "AssetsDefinition":
output_asset_key_replacements = check.opt_mapping_param(
output_asset_key_replacements,
"output_asset_key_replacements",
key_type=AssetKey,
value_type=AssetKey,
)
input_asset_key_replacements = check.opt_mapping_param(
input_asset_key_replacements,
"input_asset_key_replacements",
key_type=AssetKey,
value_type=AssetKey,
)
group_names_by_key = check.opt_mapping_param(
group_names_by_key, "group_names_by_key", key_type=AssetKey, value_type=str
)
defined_group_names = [
asset_key.to_user_string()
for asset_key in group_names_by_key
if asset_key in self.group_names_by_key
and self.group_names_by_key[asset_key] != DEFAULT_GROUP_NAME
]
if defined_group_names:
raise DagsterInvalidDefinitionError(
f"Group name already exists on assets {', '.join(defined_group_names)}"
)
replaced_group_names_by_key = {
output_asset_key_replacements.get(key, key): group_name
for key, group_name in self.group_names_by_key.items()
}
replaced_freshness_policies_by_key = {
output_asset_key_replacements.get(key, key): policy
for key, policy in self._freshness_policies_by_key.items()
}
replaced_descriptions_by_key = {
output_asset_key_replacements.get(key, key): description
for key, description in self._descriptions_by_key.items()
}
return self.__class__(
keys_by_input_name={
input_name: input_asset_key_replacements.get(key, key)
for input_name, key in self._keys_by_input_name.items()
},
keys_by_output_name={
output_name: output_asset_key_replacements.get(key, key)
for output_name, key in self._keys_by_output_name.items()
},
node_def=self.node_def,
partitions_def=self.partitions_def,
partition_mappings={
input_asset_key_replacements.get(key, key): partition_mapping
for key, partition_mapping in self._partition_mappings.items()
},
asset_deps={
# replace both the keys and the values in this mapping
output_asset_key_replacements.get(key, key): {
input_asset_key_replacements.get(
upstream_key,
output_asset_key_replacements.get(upstream_key, upstream_key),
)
for upstream_key in value
}
for key, value in self.asset_deps.items()
},
can_subset=self.can_subset,
selected_asset_keys={
output_asset_key_replacements.get(key, key) for key in self._selected_asset_keys
},
resource_defs=self.resource_defs,
group_names_by_key={
**replaced_group_names_by_key,
**group_names_by_key,
},
metadata_by_key={
output_asset_key_replacements.get(key, key): value
for key, value in self.metadata_by_key.items()
},
freshness_policies_by_key=replaced_freshness_policies_by_key,
descriptions_by_key=replaced_descriptions_by_key,
)
def _subset_graph_backed_asset(
self,
selected_asset_keys: AbstractSet[AssetKey],
):
from dagster._core.definitions.graph_definition import GraphDefinition
from dagster._core.selector.subset_selector import (
convert_dot_separated_string_to_selection_tree,
)
from .job_definition import get_subselected_graph_definition
if not isinstance(self.node_def, GraphDefinition):
raise DagsterInvalidInvocationError(
"Method _subset_graph_backed_asset cannot subset an asset that is not a graph"
)
# All asset keys in selected_asset_keys are outputted from the same top-level graph backed asset
dep_node_handles_by_asset_key = get_dep_node_handles_of_graph_backed_asset(
self.node_def, self
)
op_selection: List[str] = []
for asset_key in selected_asset_keys:
dep_node_handles = dep_node_handles_by_asset_key[asset_key]
for dep_node_handle in dep_node_handles:
str_op_path = ".".join(dep_node_handle.path[1:])
op_selection.append(str_op_path)
# Pass an op selection into the original job containing only the ops necessary to
# generate the selected assets. The ops should all be nested within a top-level graph
# node in the original job.
op_selection_tree: SelectionTree = {}
for item in op_selection:
convert_dot_separated_string_to_selection_tree(
op_selection_tree, splits=item.split(".")
)
return get_subselected_graph_definition(self.node_def, op_selection_tree)
def subset_for(
self,
selected_asset_keys: AbstractSet[AssetKey],
) -> "AssetsDefinition":
"""Create a subset of this AssetsDefinition that will only materialize the assets in the
selected set.
Args:
selected_asset_keys (AbstractSet[AssetKey]): The total set of asset keys
"""
from dagster._core.definitions.graph_definition import GraphDefinition
check.invariant(
self.can_subset,
f"Attempted to subset AssetsDefinition for {self.node_def.name}, but can_subset=False.",
)
# Set of assets within selected_asset_keys which are outputted by this AssetDefinition
asset_subselection = selected_asset_keys & self.keys
# Early escape if all assets in AssetsDefinition are selected
if asset_subselection == self.keys:
return self
elif isinstance(self.node_def, GraphDefinition): # Node is graph-backed asset
subsetted_node = self._subset_graph_backed_asset(
asset_subselection,
)
# The subsetted node should only include asset inputs that are dependencies of the
# selected set of assets.
subsetted_input_names = [input_def.name for input_def in subsetted_node.input_defs]
subsetted_keys_by_input_name = {
key: value
for key, value in self.node_keys_by_input_name.items()
if key in subsetted_input_names
}
subsetted_output_names = [output_def.name for output_def in subsetted_node.output_defs]
subsetted_keys_by_output_name = {
key: value
for key, value in self.node_keys_by_output_name.items()
if key in subsetted_output_names
}
# An op within the graph-backed asset that yields multiple assets will be run
# any time any of its output assets are selected. Thus, if an op yields multiple assets
# and only one of them is selected, the op will still run and potentially unexpectedly
# materialize the unselected asset.
#
# Thus, we include unselected assets that may be accidentally materialized in
# keys_by_output_name and asset_deps so that Dagit can populate an warning when this
# occurs. This is the same behavior as multi-asset subsetting.
subsetted_asset_deps = {
out_asset_key: set(self._keys_by_input_name.values())
for out_asset_key in subsetted_keys_by_output_name.values()
}
return AssetsDefinition(
keys_by_input_name=subsetted_keys_by_input_name,
keys_by_output_name=subsetted_keys_by_output_name,
node_def=subsetted_node,
partitions_def=self.partitions_def,
partition_mappings=self._partition_mappings,
asset_deps=subsetted_asset_deps,
can_subset=self.can_subset,
selected_asset_keys=selected_asset_keys & self.keys,
resource_defs=self.resource_defs,
group_names_by_key=self.group_names_by_key,
metadata_by_key=self.metadata_by_key,
freshness_policies_by_key=self.freshness_policies_by_key,
)
else:
# multi_asset subsetting
return AssetsDefinition(
# keep track of the original mapping
keys_by_input_name=self._keys_by_input_name,
keys_by_output_name=self._keys_by_output_name,
node_def=self.node_def,
partitions_def=self.partitions_def,
partition_mappings=self._partition_mappings,
asset_deps=self._asset_deps,
can_subset=self.can_subset,
selected_asset_keys=asset_subselection,
resource_defs=self.resource_defs,
group_names_by_key=self.group_names_by_key,
metadata_by_key=self.metadata_by_key,
freshness_policies_by_key=self.freshness_policies_by_key,
)
def to_source_assets(self) -> Sequence[SourceAsset]:
return [
self._output_to_source_asset(output_name)
for output_name in self.keys_by_output_name.keys()
]
[docs] @public
def to_source_asset(self, key: Optional[CoercibleToAssetKey] = None) -> SourceAsset:
"""Returns a representation of this asset as a :py:class:`SourceAsset`.
If this is a multi-asset, the "key" argument allows selecting which asset to return a
SourceAsset representation of.
Args:
key (Optional[Union[str, Sequence[str], AssetKey]]]): If this is a multi-asset, select
which asset to return a SourceAsset representation of. If not a multi-asset, this
can be left as None.
Returns:
SourceAsset
"""
if len(self.keys) > 1:
check.invariant(
key is not None,
"The 'key' argument is required when there are multiple assets to choose from",
)
if key is not None:
resolved_key = AssetKey.from_coerceable(key)
check.invariant(
resolved_key in self.keys, f"Key {resolved_key} not found in AssetsDefinition"
)
else:
resolved_key = self.key
output_names = [
output_name
for output_name, ak in self.keys_by_output_name.items()
if ak == resolved_key
]
check.invariant(len(output_names) == 1)
return self._output_to_source_asset(output_names[0])
def _output_to_source_asset(self, output_name: str) -> SourceAsset:
with warnings.catch_warnings():
warnings.simplefilter("ignore", category=ExperimentalWarning)
output_def = self.node_def.resolve_output_to_origin(
output_name, NodeHandle(self.node_def.name, parent=None)
)[0]
key = self._keys_by_output_name[output_name]
return SourceAsset(
key=key,
metadata=output_def.metadata,
io_manager_key=output_def.io_manager_key,
description=output_def.description,
resource_defs=self.resource_defs,
partitions_def=self.partitions_def,
group_name=self.group_names_by_key[key],
)
def get_io_manager_key_for_asset_key(self, key: AssetKey) -> str:
output_name = self.get_output_name_for_asset_key(key)
return self.node_def.resolve_output_to_origin(
output_name, NodeHandle(self.node_def.name, parent=None)
)[0].io_manager_key
def get_resource_requirements(self) -> Iterator[ResourceRequirement]:
yield from self.node_def.get_resource_requirements() # type: ignore[attr-defined]
for source_key, resource_def in self.resource_defs.items():
yield from resource_def.get_resource_requirements(outer_context=source_key)
@public
@property
def required_resource_keys(self) -> Set[str]:
return {requirement.key for requirement in self.get_resource_requirements()}
def __str__(self):
if len(self.asset_keys) == 1:
return f"AssetsDefinition with key {self.asset_key.to_string()}"
else:
asset_keys = ", ".join(
sorted(([asset_key.to_string() for asset_key in self.asset_keys]))
)
return f"AssetsDefinition with keys {asset_keys}"
@property
def unique_id(self) -> str:
"""A unique identifier for the AssetsDefinition that's stable across processes."""
return hashlib.md5((json.dumps(sorted(self.keys))).encode("utf-8")).hexdigest()
def with_resources(self, resource_defs: Mapping[str, ResourceDefinition]) -> "AssetsDefinition":
from dagster._core.execution.resources_init import get_transitive_required_resource_keys
overlapping_keys = get_resource_key_conflicts(self.resource_defs, resource_defs)
if overlapping_keys:
overlapping_keys_str = ", ".join(sorted(list(overlapping_keys)))
raise DagsterInvalidInvocationError(
f"{str(self)} has conflicting resource "
"definitions with provided resources for the following keys: "
f"{overlapping_keys_str}. Either remove the existing "
"resources from the asset or change the resource keys so that "
"they don't overlap."
)
merged_resource_defs = merge_dicts(resource_defs, self.resource_defs)
# Ensure top-level resource requirements are met - except for
# io_manager, since that is a default it can be resolved later.
ensure_requirements_satisfied(merged_resource_defs, list(self.get_resource_requirements()))
# Get all transitive resource dependencies from other resources.
relevant_keys = get_transitive_required_resource_keys(
self.required_resource_keys, merged_resource_defs
)
relevant_resource_defs = {
key: resource_def
for key, resource_def in merged_resource_defs.items()
if key in relevant_keys
}
return AssetsDefinition(
keys_by_input_name=self._keys_by_input_name,
keys_by_output_name=self._keys_by_output_name,
node_def=self.node_def,
partitions_def=self._partitions_def,
partition_mappings=self._partition_mappings,
asset_deps=self._asset_deps,
selected_asset_keys=self._selected_asset_keys,
can_subset=self._can_subset,
resource_defs=relevant_resource_defs,
group_names_by_key=self.group_names_by_key,
metadata_by_key=self.metadata_by_key,
freshness_policies_by_key=self.freshness_policies_by_key,
)
def _infer_keys_by_input_names(
node_def: Union["GraphDefinition", OpDefinition], keys_by_input_name: Mapping[str, AssetKey]
) -> Mapping[str, AssetKey]:
all_input_names = [input_def.name for input_def in node_def.input_defs]
if keys_by_input_name:
check.invariant(
set(keys_by_input_name.keys()) == set(all_input_names),
(
"The set of input names keys specified in the keys_by_input_name argument must "
f"equal the set of asset keys inputted by '{node_def.name}'. \n"
f"keys_by_input_name keys: {set(keys_by_input_name.keys())} \n"
f"expected keys: {all_input_names}"
),
)
# If asset key is not supplied in keys_by_input_name, create asset key
# from input name
inferred_input_names_by_asset_key: Dict[str, AssetKey] = {
input_name: keys_by_input_name.get(input_name, AssetKey([input_name]))
for input_name in all_input_names
}
return inferred_input_names_by_asset_key
def _infer_keys_by_output_names(
node_def: Union["GraphDefinition", OpDefinition], keys_by_output_name: Mapping[str, AssetKey]
) -> Mapping[str, AssetKey]:
output_names = [output_def.name for output_def in node_def.output_defs]
if keys_by_output_name:
check.invariant(
set(keys_by_output_name.keys()) == set(output_names),
(
"The set of output names keys specified in the keys_by_output_name argument must "
f"equal the set of asset keys outputted by {node_def.name}. \n"
f"keys_by_output_name keys: {set(keys_by_output_name.keys())} \n"
f"expected keys: {set(output_names)}"
),
)
inferred_keys_by_output_names: Dict[str, AssetKey] = {
output_name: asset_key for output_name, asset_key in keys_by_output_name.items()
}
if (
len(output_names) == 1
and output_names[0] not in keys_by_output_name
and output_names[0] == "result"
):
# If there is only one output and the name is the default "result", generate asset key
# from the name of the node
inferred_keys_by_output_names[output_names[0]] = AssetKey([node_def.name])
for output_name in output_names:
if output_name not in inferred_keys_by_output_names:
inferred_keys_by_output_names[output_name] = AssetKey([output_name])
return inferred_keys_by_output_names
def _build_invocation_context_with_included_resources(
assets_def: AssetsDefinition,
context: "OpExecutionContext",
) -> "OpExecutionContext":
from dagster._core.execution.context.invocation import (
UnboundOpExecutionContext,
build_op_context,
)
resource_defs = assets_def.resource_defs
invocation_resources = context.resources._asdict()
for resource_key in sorted(list(invocation_resources.keys())):
if resource_key in resource_defs:
raise DagsterInvalidInvocationError(
f"Error when invoking {str(assets_def)}: resource '{resource_key}' "
"provided on both the definition and invocation context. Please "
"provide on only one or the other."
)
all_resources = merge_dicts(resource_defs, invocation_resources)
if isinstance(context, UnboundOpExecutionContext):
return build_op_context(
resources=all_resources,
config=context.op_config,
resources_config=context._resources_config, # noqa: SLF001
instance=context._instance, # noqa: SLF001
partition_key=context._partition_key, # noqa: SLF001
mapping_key=context._mapping_key, # noqa: SLF001
)
else:
# If user is mocking OpExecutionContext, send it through (we don't know
# what modifications they might be making, and we don't want to override)
return context
def _validate_graph_def(graph_def: "GraphDefinition", prefix: Optional[Sequence[str]] = None):
"""Ensure that all leaf nodes are mapped to graph outputs."""
from dagster._core.definitions.graph_definition import GraphDefinition, create_adjacency_lists
prefix = check.opt_sequence_param(prefix, "prefix")
# recursively validate any sub-graphs
for inner_node_def in graph_def.node_defs:
if isinstance(inner_node_def, GraphDefinition):
_validate_graph_def(inner_node_def, prefix=[*prefix, graph_def.name])
# leaf nodes have no downstream nodes
forward_edges, _ = create_adjacency_lists(graph_def.nodes, graph_def.dependency_structure)
leaf_nodes = {
node_name for node_name, downstream_nodes in forward_edges.items() if not downstream_nodes
}
# set of nodes that have outputs mapped to a graph output
mapped_output_nodes = {
output_mapping.maps_from.node_name for output_mapping in graph_def.output_mappings
}
# leaf nodes which do not have an associated mapped output
unmapped_leaf_nodes = {".".join([*prefix, node]) for node in leaf_nodes - mapped_output_nodes}
check.invariant(
not unmapped_leaf_nodes,
(
f"All leaf nodes within graph '{graph_def.name}' must generate outputs which are mapped"
" to outputs of the graph, and produce assets. The following leaf node(s) are"
f" non-asset producing ops: {unmapped_leaf_nodes}. This behavior is not currently"
" supported because these ops are not required for the creation of the associated"
" asset(s)."
),
)
def _validate_self_deps(
input_keys: Iterable[AssetKey],
output_keys: Iterable[AssetKey],
partition_mappings: Mapping[AssetKey, PartitionMapping],
) -> None:
output_keys_set = set(output_keys)
for input_key in input_keys:
if input_key in output_keys_set:
if input_key in partition_mappings:
partition_mapping = partition_mappings[input_key]
if (
isinstance(partition_mapping, TimeWindowPartitionMapping)
and (partition_mapping.start_offset or 0) < 0
and (partition_mapping.end_offset or 0) < 0
):
continue
raise DagsterInvalidDefinitionError(
"Assets can only depend on themselves if they are time-partitioned and each"
" partition depends on earlier partitions"
)