Generate Avro Schemas from Python classes. Serialize/Deserialize python instances with avro schemas
Project description
Dataclasses Avro Schema Generator
Generate avro schemas from python dataclasses. Code generation from avro schemas. Serialize/Deserialize python instances with avro schemas
Requirements
python 3.8+
Installation
with pip
or poetry
:
pip install dataclasses-avroschema
or poetry add dataclasses-avroschema
Extras
- pydantic:
pip install 'dataclasses-avroschema[pydantic]'
orpoetry add dataclasses-avroschema --extras "pydantic"
- faust-streaming:
pip install 'dataclasses-avroschema[faust]'
orpoetry add dataclasses-avroschema --extras "faust"
- faker:
pip install 'dataclasses-avroschema[faker]'
orpoetry add dataclasses-avroschema --extras "faker"
- dc-avro:
pip install 'dataclasses-avroschema[cli]'
orpoetry add dataclasses-avroschema --with cli
Note: You can install all extra dependencies with pip install dataclasses-avroschema[faust,pydantic,faker,cli]
or poetry add dataclasses-avroschema --extras "pydantic faust faker cli"
Documentation
https://marcosschroh.github.io/dataclasses-avroschema/
Usage
Generating the avro schema
from dataclasses import dataclass
import enum
import typing
from dataclasses_avroschema import AvroModel
class FavoriteColor(str, enum.Enum):
BLUE = "BLUE"
YELLOW = "YELLOW"
GREEN = "GREEN"
@dataclass
class User(AvroModel):
"An User"
name: str
age: int
pets: typing.List[str]
accounts: typing.Dict[str, int]
favorite_colors: FavoriteColor
country: str = "Argentina"
address: typing.Optional[str] = None
class Meta:
namespace = "User.v1"
aliases = ["user-v1", "super user"]
print(User.avro_schema())
# {
# "type": "record",
# "name": "User",
# "fields": [
# {"name": "name", "type": "string"},
# {"name": "age", "type": "long"},
# {"name": "pets", "type": {"type": "array", "items": "string", "name": "pet"}},
# {"name": "accounts", "type": {"type": "map", "values": "long", "name": "account"}},
# {"name": "favorite_colors", "type": {"type": "enum", "name": "FavoriteColor", "symbols": ["BLUE", "YELLOW", "GREEN"]}},
# {"name": "country", "type": "string", "default": "Argentina"},
# {"name": "address", "type": ["null", "string"], "default": null}
# ],
# "doc": "An User",
# "namespace": "User.v1",
# "aliases": ["user-v1", "super user"]
# }
assert User.avro_schema_to_python() == {
"type": "record",
"name": "User",
"doc": "An User",
"namespace": "User.v1",
"aliases": ["user-v1", "super user"],
"fields": [
{"name": "name", "type": "string"},
{"name": "age", "type": "long"},
{"name": "pets", "type": {"type": "array", "items": "string", "name": "pet"}},
{"name": "accounts", "type": {"type": "map", "values": "long", "name": "account"}},
{"name": "favorite_colors", "type": {"type": "enum", "name": "FavoriteColor", "symbols": ["BLUE", "YELLOW", "GREEN"]}},
{"name": "country", "type": "string", "default": "Argentina"},
{"name": "address", "type": ["null", "string"], "default": None}
],
}
Serialization to avro or avro-json and json payload
For serialization is neccesary to use python class/dataclasses instance
from dataclasses import dataclass
import typing
from dataclasses_avroschema import AvroModel
@dataclass
class Address(AvroModel):
"An Address"
street: str
street_number: int
@dataclass
class User(AvroModel):
"User with multiple Address"
name: str
age: int
addresses: typing.List[Address]
address_data = {
"street": "test",
"street_number": 10,
}
# create an Address instance
address = Address(**address_data)
data_user = {
"name": "john",
"age": 20,
"addresses": [address],
}
# create an User instance
user = User(**data_user)
# serialization
assert user.serialize() == b"\x08john(\x02\x08test\x14\x00"
assert user.serialize(
serialization_type="avro-json"
) == b'{"name": "john", "age": 20, "addresses": [{"street": "test", "street_number": 10}]}'
# # Get the json from the instance
assert user.to_json() == '{"name": "john", "age": 20, "addresses": [{"street": "test", "street_number": 10}]}'
# # Get a python dict
assert user.to_dict() == {
"name": "john",
"age": 20,
"addresses": [
{"street": "test", "street_number": 10}
]
}
Deserialization
Deserialization could take place with an instance dataclass or the dataclass itself. Can return the dict representation or a new class instance
import typing
import dataclasses
from dataclasses_avroschema import AvroModel
@dataclasses.dataclass
class Address(AvroModel):
"An Address"
street: str
street_number: int
@dataclasses.dataclass
class User(AvroModel):
"User with multiple Address"
name: str
age: int
addresses: typing.List[Address]
avro_binary = b"\x08john(\x02\x08test\x14\x00"
avro_json_binary = b'{"name": "john", "age": 20, "addresses": [{"street": "test", "street_number": 10}]}'
# return a new class instance!!
assert User.deserialize(avro_binary) == User(
name='john',
age=20,
addresses=[Address(street='test', street_number=10)]
)
# return a python dict
assert User.deserialize(avro_binary, create_instance=False) == {
"name": "john",
"age": 20,
"addresses": [
{"street": "test", "street_number": 10}
]
}
# return a new class instance!!
assert User.deserialize(avro_json_binary, serialization_type="avro-json") == User(
name='john',
age=20,
addresses=[Address(street='test', street_number=10)]
)
# return a python dict
assert User.deserialize(
avro_json_binary,
serialization_type="avro-json",
create_instance=False
) == {"name": "john", "age": 20, "addresses": [{"street": "test", "street_number": 10}]}
Pydantic integration
To add dataclasses-avroschema
functionality to pydantic
you only need to replace BaseModel
by AvroBaseModel
:
import typing
import enum
from dataclasses_avroschema.pydantic import AvroBaseModel
from pydantic import Field, ValidationError
class FavoriteColor(str, enum.Enum):
BLUE = "BLUE"
YELLOW = "YELLOW"
GREEN = "GREEN"
class UserAdvance(AvroBaseModel):
name: str
age: int
pets: typing.List[str] = Field(default_factory=lambda: ["dog", "cat"])
accounts: typing.Dict[str, int] = Field(default_factory=lambda: {"key": 1})
has_car: bool = False
favorite_colors: FavoriteColor = FavoriteColor.BLUE
country: str = "Argentina"
address: typing.Optional[str] = None
class Meta:
schema_doc = False
assert UserAdvance.avro_schema_to_python() == {
"type": "record",
"name": "UserAdvance",
"fields": [
{"name": "name", "type": "string"},
{"name": "age", "type": "long"},
{"name": "pets", "type": {"type": "array", "items": "string", "name": "pet"}, "default": ["dog", "cat"]},
{"name": "accounts", "type": {"type": "map", "values": "long", "name": "account"}, "default": {"key": 1}},
{"name": "has_car", "type": "boolean", "default": False},{"name": "favorite_colors", "type": {"type": "enum", "name": "FavoriteColor", "symbols": ["BLUE", "YELLOW", "GREEN"]}, "default": "BLUE"},
{"name": "country", "type": "string", "default": "Argentina"}, {"name": "address", "type": ["null", "string"], "default": None}
]
}
print(UserAdvance.json_schema())
# {
# "$defs": {"FavoriteColor": {"enum": ["BLUE", "YELLOW", "GREEN"], "title": "FavoriteColor", "type": "string"}},
# "properties": {
# "name": {"title": "Name", "type": "string"},
# "age": {"title": "Age", "type": "integer"},
# "pets": {"items": {"type": "string"}, "title": "Pets", "type": "array"},
# "accounts": {"additionalProperties": {"type": "integer"}, "title": "Accounts", "type": "object"},
# "has_car": {"default": false, "title": "Has Car", "type": "boolean"},
# "favorite_colors": {"allOf": [{"$ref": "#/$defs/FavoriteColor"}], "default": "BLUE"},
# "country": {"default": "Argentina", "title": "Country", "type": "string"},
# "address": {"anyOf": [{"type": "string"}, {"type": "null"}], "default": null, "title": "Address"}
# },
# "required": ["name", "age"],
# "title": "UserAdvance",
# "type": "object"
# }"""
user = UserAdvance(name="bond", age=50)
# pydantic
assert user.dict() == {
'name': 'bond',
'age': 50,
'pets': ['dog', 'cat'],
'accounts': {'key': 1},
'has_car': False,
'favorite_colors': FavoriteColor.BLUE,
'country': 'Argentina',
'address': None
}
# pydantic
print(user.json())
assert user.json() == '{"name":"bond","age":50,"pets":["dog","cat"],"accounts":{"key":1},"has_car":false,"favorite_colors":"BLUE","country":"Argentina","address":null}'
# pydantic
try:
user = UserAdvance(name="bond")
except ValidationError as exc:
...
# dataclasses-avroschema
event = user.serialize()
assert event == b'\x08bondd\x04\x06dog\x06cat\x00\x02\x06key\x02\x00\x00\x00\x12Argentina\x00'
assert UserAdvance.deserialize(data=event) == UserAdvance(
name='bond',
age=50,
pets=['dog', 'cat'],
accounts={'key': 1},
has_car=False,
favorite_colors=FavoriteColor.BLUE,
country='Argentina',
address=None
)
Examples with python streaming drivers (kafka and redis)
Under examples folder you can find 3 differents kafka examples, one with aiokafka (async
) showing the simplest use case when a AvroModel
instance is serialized and sent it thorught kafka, and the event is consumed.
The other two examples are sync
using the kafka-python driver, where the avro-json
serialization and schema evolution
(FULL
compatibility) is shown.
Also, there are two redis
examples using redis streams
with walrus and redisgears-py
Factory and fixtures
Dataclasses Avro Schema also includes a factory
feature, so you can generate fast
python instances and use them, for example, to test your data streaming pipelines. Instances can be generated using the fake
method.
Note: This feature is not enabled by default and requires you have the faker
extra installed. You may install it with pip install 'dataclasses-avroschema[faker]'
import typing
import dataclasses
from dataclasses_avroschema import AvroModel
@dataclasses.dataclass
class Address(AvroModel):
"An Address"
street: str
street_number: int
@dataclasses.dataclass
class User(AvroModel):
"User with multiple Address"
name: str
age: int
addresses: typing.List[Address]
Address.fake()
# >>>> Address(street='PxZJILDRgbXyhWrrPWxQ', street_number=2067)
User.fake()
# >>>> User(name='VGSBbOGfSGjkMDnefHIZ', age=8974, addresses=[Address(street='vNpPYgesiHUwwzGcmMiS', street_number=4790)])
Features
- Primitive types: int, long, double, float, boolean, string and null support
- Complex types: enum, array, map, fixed, unions and records support
-
typing.Annotated
supported -
typing.Literal
supported - Logical Types: date, time (millis and micro), datetime (millis and micro), uuid support
- Schema relations (oneToOne, oneToMany)
- Recursive Schemas
- Generate Avro Schemas from
faust.Record
- Instance serialization correspondent to
avro schema
generated - Data deserialization. Return python dict or class instance
- Generate json from python class instance
- Case Schemas
- Generate models from
avsc
files - Examples of integration with
kafka
drivers: aiokafka, kafka-python - Example of integration with
redis
drivers: walrus and redisgears-py - Factory instances
- Pydantic integration
Development
Poetry is needed to install the dependencies and develope locally
- Install dependencies:
poetry install --all-extras
- Code linting:
./scripts/format
- Run tests:
./scripts/test
- Tests documentation:
./scripts/test-documentation
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