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.
The following classes are used as part of the new Pythonic config system. They are used in conjunction with builtin types.
Base class for Dagster configuration models, used to specify config schema for
ops and assets. Subclasses pydantic.BaseModel
.
Example definition:
from pydantic import Field
class MyAssetConfig(Config):
my_str: str = "my_default_string"
my_int_list: List[int]
my_bool_with_metadata: bool = Field(default=False, description="A bool field")
Example usage:
@asset
def asset_with_config(config: MyAssetConfig):
assert config.my_str == "my_default_string"
assert config.my_int_list == [1, 2, 3]
assert config.my_bool_with_metadata == False
asset_with_config(MyAssetConfig(my_int_list=[1, 2, 3], my_bool_with_metadata=True))
Subclass of Config
that allows arbitrary extra fields. This is useful for
config classes which may have open-ended inputs.
Example definition:
class MyPermissiveOpConfig(PermissiveConfig):
my_explicit_parameter: bool
my_other_explicit_parameter: str
Example usage:
@op
def op_with_config(config: MyPermissiveOpConfig):
assert config.my_explicit_parameter == True
assert config.my_other_explicit_parameter == "foo"
assert config.dict().get("my_implicit_parameter") == "bar"
op_with_config(
MyPermissiveOpConfig(
my_explicit_parameter=True,
my_other_explicit_parameter="foo",
my_implicit_parameter="bar"
)
)
Container for all the configuration that can be passed to a run. Accepts Pythonic definitions for op and asset config and resources and converts them under the hood to the appropriate config dictionaries.
Example usage:
class MyAssetConfig(Config):
a_str: str
@asset
def my_asset(config: MyAssetConfig):
assert config.a_str == "foo"
materialize(
[my_asset],
run_config=RunConfig(
ops={"my_asset": MyAssetConfig(a_str="foo")}
)
)
The following types are used as part of the legacy Dagster config system. They are used in conjunction with builtin types.
Placeholder type for config schemas.
Any time that it appears in documentation, it means that any of the following types are acceptable:
A Python scalar type that resolves to a Dagster config type
(python:int
, python:float
, python:bool
,
or python:str
). For example:
@op(config_schema=int)
@op(config_schema=str)
A built-in python collection (python:list
, or python:dict
).
python:list
is exactly equivalent to Array
[
Any
] and python:dict
is equivalent to
Permissive
. For example:
@op(config_schema=list)
@op(config_schema=dict)
A Dagster config type:
Any
Bool
Float
Int
String
A bare python dictionary, which will be automatically wrapped in
Shape
. Values of the dictionary are resolved recursively
according to the same rules. For example:
{'some_config': str}
is equivalent to Shape({'some_config: str})
.
{'some_config1': {'some_config2': str}}
is equivalent toShape({'some_config1: Shape({'some_config2: str})})
.
A bare python list of length one, whose single element will be wrapped in a
Array
is resolved recursively according to the same
rules. For example:
[str]
is equivalent to Array[str]
.
[[str]]
is equivalent to Array[Array[str]]
.
[{'some_config': str}]
is equivalent to Array(Shape({'some_config: str}))
.
An instance of Field
.
Defines the schema for a configuration field.
Fields are used in config schema instead of bare types when one wants to add a description, a default value, or to mark it as not required.
Config fields are parsed according to their schemas in order to yield values available at job execution time through the config system. Config fields can be set on ops, on loaders for custom, and on other pluggable components of the system, such as resources, loggers, and executors.
config (Any) –
The schema for the config. This value can be any of:
A Python primitive type that resolves to a Dagster config type
(python:int
, python:float
, python:bool
,
python:str
, or python:list
).
A Dagster config type:
Any
Bool
Float
Int
String
A bare python dictionary, which will be automatically wrapped in
Shape
. Values of the dictionary are resolved recursively
according to the same rules.
A bare python list of length one which itself is config type.
Becomes Array
with list element as an argument.
default_value (Any) –
A default value for this field, conformant to the schema set by the dagster_type
argument. If a default value is provided, is_required
should be False
.
Note: for config types that do post processing such as Enum, this value must be
the pre processed version, ie use ExampleEnum.VALUE.name
instead of
ExampleEnum.VALUE
is_required (bool) – Whether the presence of this field is required. Defaults to true. If is_required
is True
, no default value should be provided.
description (str) – A human-readable description of this config field.
Examples
@op(
config_schema={
'word': Field(str, description='I am a word.'),
'repeats': Field(Int, default_value=1, is_required=False),
}
)
def repeat_word(context):
return context.op_config['word'] * context.op_config['repeats']
Was a default value provided.
Yes or no
bool
The default value for the field.
Raises an exception if no default value was provided.
A human-readable description of this config field, if provided.
Whether a value for this field must be provided at runtime.
Cannot be True if a default value is provided.
Define a config field requiring the user to select one option.
Selectors are used when you want to be able to present several different options in config but allow only one to be selected. For example, a single input might be read in from either a csv file or a parquet file, but not both at once.
Note that in some other type systems this might be called an ‘input union’.
Functionally, a selector is like a Dict
, except that only one key from the dict can
be specified in valid config.
fields (Dict[str, Field]) – The fields from which the user must select.
Examples:
@op(
config_schema=Field(
Selector(
{
'haw': {'whom': Field(String, default_value='honua', is_required=False)},
'cn': {'whom': Field(String, default_value='世界', is_required=False)},
'en': {'whom': Field(String, default_value='world', is_required=False)},
}
),
is_required=False,
default_value={'en': {'whom': 'world'}},
)
)
def hello_world_with_default(context):
if 'haw' in context.op_config:
return 'Aloha {whom}!'.format(whom=context.op_config['haw']['whom'])
if 'cn' in context.op_config:
return '你好, {whom}!'.format(whom=context.op_config['cn']['whom'])
if 'en' in context.op_config:
return 'Hello, {whom}!'.format(whom=context.op_config['en']['whom'])
Defines a config dict with a partially specified schema.
A permissive dict allows partial specification of the config schema. Any fields with a specified schema will be type checked. Other fields will be allowed, but will be ignored by the type checker.
fields (Dict[str, Field]) – The partial specification of the config dict.
Examples:
@op(config_schema=Field(Permissive({'required': Field(String)})))
def map_config_op(context) -> List:
return sorted(list(context.op_config.items()))
Schema for configuration data with string keys and typed values via Field
.
Unlike Permissive
, unspecified fields are not allowed and will throw a
DagsterInvalidConfigError
.
fields (Dict[str, Field]) – The specification of the config dict.
field_aliases (Dict[str, str]) – Maps a string key to an alias that can be used instead of the original key. For example, an entry {“foo”: “bar”} means that someone could use “bar” instead of “foo” as a top level string key.
Defines a config dict with arbitrary scalar keys and typed values.
A map can contrain arbitrary keys of the specified scalar type, each of which has
type checked values. Unlike Shape
and Permissive
, scalar
keys other than strings can be used, and unlike Permissive
, all
values are type checked.
key_type (type) – The type of keys this map can contain. Must be a scalar type.
inner_type (type) – The type of the values that this map type can contain.
key_label_name (string) – Optional name which describes the role of keys in the map.
Examples:
@op(config_schema=Field(Map({str: int})))
def partially_specified_config(context) -> List:
return sorted(list(context.op_config.items()))
Name which describes the role of keys in the map, if provided.
Defines an array (list) configuration type that contains values of type inner_type
.
inner_type (type) – The type of the values that this configuration type can contain.
A human-readable description of this Array type.
Defines a configuration type that is the union of NoneType
and the type inner_type
.
inner_type (type) – The type of the values that this configuration type can contain.
Examples:
config_schema={"name": Noneable(str)}
config={"name": "Hello"} # Ok
config={"name": None} # Ok
config={} # Error
Defines a enum configuration type that allows one of a defined set of possible values.
name (str) – The name of the enum configuration type.
enum_values (List[EnumValue]) – The set of possible values for the enum configuration type.
Examples:
@op(
config_schema=Field(
Enum(
'CowboyType',
[
EnumValue('good'),
EnumValue('bad'),
EnumValue('ugly'),
]
)
)
)
def resolve_standoff(context):
# ...
Define an entry in a Enum
.
config_value (str) – The string representation of the config to accept when passed.
python_value (Optional[Any]) – The python value to convert the enum entry in to. Defaults to the config_value
.
description (Optional[str]) – A human-readable description of the enum entry.
Defines a configuration type that accepts a scalar value OR a non-scalar value like a
List
, Dict
, or Selector
.
This allows runtime scalars to be configured without a dictionary with the key value
and
instead just use the scalar value directly. However this still leaves the option to
load scalars from a json or pickle file.
scalar_type (type) – The scalar type of values that this configuration type can hold. For example,
python:int
, python:float
, python:bool
,
or python:str
.
non_scalar_schema (ConfigSchema) – The schema of a non-scalar Dagster configuration type. For example, List
,
Dict
, or Selector
.
key (Optional[str]) – The configuation type’s unique key. If not set, then the key will be set to
ScalarUnion.{scalar_type}-{non_scalar_schema}
.
Examples:
graph:
transform_word:
inputs:
word:
value: foobar
becomes, optionally,
graph:
transform_word:
inputs:
word: foobar
Use this type when you want to read a string config value from an environment variable. The value passed to a config field of this type may either be a string literal, or a selector describing how to look up the value from the executing process’s environment variables.
Examples:
from dagster import job, op, StringSource
@op(config_schema=StringSource)
def secret_op(context) -> str:
return context.op_config
@job
def secret_job():
secret_op()
secret_job.execute_in_process(
run_config={
'ops': {'secret_op': {'config': 'test_value'}}
}
)
secret_job.execute_in_process(
run_config={
'ops': {'secret_op': {'config': {'env': 'VERY_SECRET_ENV_VARIABLE'}}}
}
)
Use this type when you want to read an integer config value from an environment variable. The value passed to a config field of this type may either be a integer literal, or a selector describing how to look up the value from the executing process’s environment variables.
Examples:
from dagster import job, op, IntSource
@op(config_schema=IntSource)
def secret_int_op(context) -> int:
return context.op_config
@job
def secret_job():
secret_int_op()
secret_job.execute_in_process(
run_config={
'ops': {'secret_int_op': {'config': 1234}}
}
)
secret_job.execute_in_process(
run_config={
'ops': {'secret_int_op': {'config': {'env': 'VERY_SECRET_ENV_VARIABLE_INT'}}}
}
)
Use this type when you want to read an boolean config value from an environment variable. The
value passed to a config field of this type may either be a boolean literal, or a selector
describing how to look up the value from the executing process’s environment variables. Set the
value of the corresponding environment variable to ""
to indicate False
.
Examples:
from dagster import job, op, BoolSource
@op(config_schema=BoolSource)
def secret_bool_op(context) -> bool:
return context.op_config
@job
def secret_job():
secret_bool_op()
secret_job.execute_in_process(
run_config={
'ops': {'secret_bool_op': {'config': False}}
}
)
secret_job.execute_in_process(
run_config={
'ops': {'secret_bool_op': {'config': {'env': 'VERY_SECRET_ENV_VARIABLE_BOOL'}}}
}
)
Defines a config mapping for a graph (or job).
By specifying a config mapping function, you can override the configuration for the child ops and graphs contained within a graph.
Config mappings require the configuration schema to be specified as config_schema
, which will
be exposed as the configuration schema for the graph, as well as a configuration mapping
function, config_fn
, which maps the config provided to the graph to the config
that will be provided to the child nodes.
config_fn (Callable[[dict], dict]) – The function that will be called to map the graph config to a config appropriate for the child nodes.
config_schema (ConfigSchema) – The schema of the graph config.
receive_processed_config_values (Optional[bool]) – If true, config values provided to the config_fn will be converted to their dagster types before being passed in. For example, if this value is true, enum config passed to config_fn will be actual enums, while if false, then enum config passed to config_fn will be strings.
A decorator that makes it easy to create a function-configured version of an object.
The following definition types can be configured using this function:
Using configured
may result in config values being displayed in the Dagster UI,
so it is not recommended to use this API with sensitive values, such as
secrets.
If the config that will be supplied to the object is constant, you may alternatively invoke this and call the result with a dict of config values to be curried. Examples of both strategies below.
configurable (ConfigurableDefinition) – An object that can be configured.
config_schema (ConfigSchema) – The config schema that the inputs to the decorated function
must satisfy. Alternatively, annotate the config parameter to the decorated function
with a subclass of Config
and omit this argument.
**kwargs – Arbitrary keyword arguments that will be passed to the initializer of the returned object.
(Callable[[Union[Any, Callable[[Any], Any]]], ConfigurableDefinition])
Examples:
class GreetingConfig(Config):
message: str
@op
def greeting_op(config: GreetingConfig):
print(config.message)
class HelloConfig(Config):
name: str
@configured(greeting_op)
def hello_op(config: HelloConfig):
return GreetingConfig(message=f"Hello, {config.name}!")
dev_s3 = configured(S3Resource, name="dev_s3")({'bucket': 'dev'})
@configured(S3Resource)
def dev_s3(_):
return {'bucket': 'dev'}
@configured(S3Resource, {'bucket_prefix', str})
def dev_s3(config):
return {'bucket': config['bucket_prefix'] + 'dev'}