Automatic generation of marshmallow schemas from dataclasses.
from dataclasses import dataclass, field
from typing import List, Optional
import marshmallow_dataclass
import marshmallow.validate
@dataclass
class Building:
# field metadata is used to instantiate the marshmallow field
height: float = field(metadata={"validate": marshmallow.validate.Range(min=0)})
name: str = field(default="anonymous")
@dataclass
class City:
name: Optional[str]
buildings: List[Building] = field(default_factory=list)
city_schema = marshmallow_dataclass.class_schema(City)()
city = city_schema.load(
{"name": "Paris", "buildings": [{"name": "Eiffel Tower", "height": 324}]}
)
# => City(name='Paris', buildings=[Building(height=324.0, name='Eiffel Tower')])
city_dict = city_schema.dump(city)
# => {'name': 'Paris', 'buildings': [{'name': 'Eiffel Tower', 'height': 324.0}]}
Using schemas in Python often means having both a class to represent your data and a class to represent its schema, which results in duplicated code that could fall out of sync. As of Python 3.6, types can be defined for class members, which allows libraries to generate schemas automatically.
Therefore, you can document your APIs in a way that allows you to statically check that the code matches the documentation.
This package is hosted on PyPI.
pip3 install marshmallow-dataclass
pip3 install "marshmallow-dataclass"
marshmallow-dataclass
no longer supports marshmallow 2.
Install marshmallow_dataclass<6.0
if you need marshmallow 2 compatibility.
Use the class_schema
function to generate a marshmallow Schema
class from a dataclass
.
from dataclasses import dataclass
from datetime import date
import marshmallow_dataclass
@dataclass
class Person:
name: str
birth: date
PersonSchema = marshmallow_dataclass.class_schema(Person)
The type of your fields must be either basic
types supported by marshmallow
(such as float
, str
, bytes
, datetime
, ...), Union
, or other dataclasses.
Typically the Union type; Union[X, Y]
means—from a set theory perspective—either X
or Y
, i.e., an unordered set, howevever the order of the sub-types defines the precedence when attempting to ether deserialize or serialize the value per here.
For example,
from typing import Union
from dataclasses import dataclass
@dataclass
class Person:
name: str
age: Union[int, float]
PersonSchema = marshmallow_dataclass.class_schema(Person)
PersonSchema().load({"name": "jane", "age": 50.0})
# => Person(name="jane", age=50)
will first (sucessfully) try to coerce 50.0
to an int
. If coercion is not desired the Any
type can be used with the caveat that values will not be type checked without additional validation.
To pass arguments to the generated marshmallow fields (e.g., validate
, load_only
, dump_only
, etc.),
pass them to the metadata
argument of the
field
function.
Note that starting with version 4, marshmallow will disallow passing arbitrary arguments, so any
additional metadata should itself be put in its own metadata
dict:
from dataclasses import dataclass, field
import marshmallow_dataclass
import marshmallow.validate
@dataclass
class Person:
name: str = field(
metadata=dict(
load_only=True, metadata=dict(description="The person's first name")
)
)
height: float = field(metadata=dict(validate=marshmallow.validate.Range(min=0)))
PersonSchema = marshmallow_dataclass.class_schema(Person)
marshmallow_dataclass
provides a @dataclass
decorator that behaves like the standard library's
@dataclasses.dataclass
and adds a Schema
attribute with the generated marshmallow
Schema.
# Use marshmallow_dataclass's @dataclass shortcut
from marshmallow_dataclass import dataclass
@dataclass
class Point:
x: float
y: float
Point.Schema().dump(Point(4, 2))
# => {'x': 4, 'y': 2}
Note: Since the .Schema
property is added dynamically, it can confuse type checkers.
To avoid that, you can declare Schema
as a ClassVar
.
from typing import ClassVar, Type
from marshmallow_dataclass import dataclass
from marshmallow import Schema
@dataclass
class Point:
x: float
y: float
Schema: ClassVar[Type[Schema]] = Schema
It is also possible to derive all schemas from your own
base Schema class
(see marshmallow's documentation about extending Schema
).
This allows you to implement custom (de)serialization
behavior, for instance specifying a custom mapping between your classes and marshmallow fields,
or renaming fields on serialization.
class BaseSchema(marshmallow.Schema):
TYPE_MAPPING = {CustomType: CustomField, List: CustomListField}
class Sample:
my_custom: CustomType
my_custom_list: List[int]
SampleSchema = marshmallow_dataclass.class_schema(Sample, base_schema=BaseSchema)
# SampleSchema now serializes my_custom using the CustomField marshmallow field
# and serializes my_custom_list using the CustomListField marshmallow field
import marshmallow
import marshmallow_dataclass
class UppercaseSchema(marshmallow.Schema):
"""A Schema that marshals data with uppercased keys."""
def on_bind_field(self, field_name, field_obj):
field_obj.data_key = (field_obj.data_key or field_name).upper()
class Sample:
my_text: str
my_int: int
SampleSchema = marshmallow_dataclass.class_schema(Sample, base_schema=UppercaseSchema)
SampleSchema().dump(Sample(my_text="warm words", my_int=1))
# -> {"MY_TEXT": "warm words", "MY_INT": 1}
You can also pass base_schema
to marshmallow_dataclass.dataclass
.
@marshmallow_dataclass.dataclass(base_schema=UppercaseSchema)
class Sample:
my_text: str
my_int: int
See marshmallow's documentation about extending Schema
.
This library exports a NewType
function to create types that generate customized marshmallow fields.
Keyword arguments to NewType
are passed to the marshmallow field constructor.
import marshmallow.validate
from marshmallow_dataclass import NewType
IPv4 = NewType(
"IPv4", str, validate=marshmallow.validate.Regexp(r"^([0-9]{1,3}\\.){3}[0-9]{1,3}$")
)
You can also pass a marshmallow field to NewType
.
import marshmallow
from marshmallow_dataclass import NewType
Email = NewType("Email", str, field=marshmallow.fields.Email)
For convenience, some custom types are provided:
from marshmallow_dataclass.typing import Email, Url
Note: if you are using mypy
, you will notice that mypy
throws an error if a variable defined with
NewType
is used in a type annotation. To resolve this, add the marshmallow_dataclass.mypy
plugin
to your mypy
configuration, e.g.:
[mypy]
plugins = marshmallow_dataclass.mypy
# ...
Meta
options are set the same way as a marshmallow Schema
.
from marshmallow_dataclass import dataclass
@dataclass
class Point:
x: float
y: float
class Meta:
ordered = True
The project documentation is hosted on GitHub Pages: https://lovasoa.github.io/marshmallow_dataclass/
To install this project and make changes to it locally, follow the instructions in CONTRIBUTING.md
.