Data validation and transformation library for Python. Successor to CleanCat.
Project description
CleanChausie
CleanChausie is a data validation and transformation library for Python. It is a successor to CleanCat.
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is looking for great engineers to join our team.
Key features:
- Operate on/with type-checked objects that have good IDE/autocomplete support
- Annotation-based declarations for simple fields
- Composable/reusable fields and field validation logic
- Support (but not require) passing around a context (to avoid global state)
- Context pattern is compatible with explicit sqlalchemy-based session management. i.e. pass in a session when validating
- Cleanly support intra-schema field dependencies (i.e. one field can depend on the validated value of another)
- Explicit nullability/omission parameters
- Errors returned for multiple fields at a time, with field attribution
Installation
CleanChausie requires Python 3.8+.
To install, run python3 -m pip install cleanchausie
.
CleanChausie by example
A basic example in Flask
This shows:
- Annotation-based declarations for simple fields.
- Type-checked objects (successful validation results in initialized instances of the schema)
from typing import List
from cleanchausie.fields import (
EmailField, ListField, URLField, ValidationError, field
)
from cleanchausie.schema import Schema
from flask import app, request, jsonify
class JobApplication(Schema):
first_name: str
last_name: str
email: str = field(EmailField())
urls: List[str] = field(ListField(URLField(default_scheme='http://')))
@app.route('/job_application', methods=['POST'])
def test_view():
result = JobApplication.clean(request.json)
if isinstance(result, ValidationError):
return jsonify({'errors': [{'msg': e.msg, 'field': e.field} for e in result.errors] }), 400
# Now "result" has the validated data, in the form of a `JobApplication` instance.
assert isinstance(result, JobApplication)
name = f'{result.first_name} {result.last_name}'
Errors (per-field, and all at once)
"Expected" errors (as a result of validation not passing) in CleanChausie aren't handled with exceptions, they're returned. This gives us a few things:
- We can easily detect when our validation routine isn't working how it's expected to (because exceptions are the result of unexpected scenarios, and aren't used for control flow)
- We can easily return structured information about these errors (like which field they're for)
- We can easily handle multiple errors in the same round trip, returned at the same time.
Errors are returned as a flat list, which simplifies handling nested fields.
Each Error
has a field
tuple, which allows individual errors to reference
fields deeply nested inside of embedded objects or lists.
Let's start with a simple example:
from cleanchausie.fields import Error, ValidationError
from cleanchausie.schema import Schema
class PerFieldErrorExampleSchema(Schema):
first_name: str
last_name: str
result = PerFieldErrorExampleSchema.clean({})
assert isinstance(result, ValidationError)
assert result.errors == [
Error(msg='This field is required.', field=('last_name',)),
Error(msg='This field is required.', field=('first_name',))
]
Now let's add some nesting:
from cleanchausie.fields import (
field, ListField, NestedField, ValidationError, Error
)
from cleanchausie.schema import Schema
class PhoneSchema(Schema):
country_code: str
number: str
class AddressSchema(Schema):
street_name: str
street_number: str
zip: str
class UserSchema(Schema):
email: str
phone = field(NestedField(PhoneSchema))
addresses = field(ListField(NestedField(AddressSchema)))
result = UserSchema.clean(
{
"phone": {"number": "1234567890"},
"addresses": [{"street_name": "High St", "street_number": "1337"}],
}
)
assert isinstance(result, ValidationError)
assert sorted(result.errors, key=lambda e: e.field) == [
Error(msg="This field is required.", field=("addresses", 0, "zip")),
Error(msg="This field is required.", field=("email",)),
Error(msg="This field is required.", field=("phone", "country_code")),
]
Explicit nullability
Nullability is explicit, and CleanChausie differentiates between:
- value is required and non-nullable
- value is required and nullable (if
None
is explicitly passed) - omittable (expressed as an
omitted
constant) - omittable, defaulting to a specific value
These variants can either be expressed explicitly, or CleanChausie will define them automatically to match a Schema's type annotations.
from typing import Optional, Union
from cleanchausie.consts import OMITTED
from cleanchausie.fields import field, StrField, Omittable, Required
from cleanchausie.schema import Schema
# auto define fields based on annotations
class NullabilityExample(Schema):
nonnull_required: str
nullable_required: Optional[str]
nonnull_omittable: Union[str, OMITTED]
nullable_omittable: Optional[Union[str, OMITTED]]
# or define the same fields explicitly
class NullabilityExplicitExample(Schema):
nonnull_required = field(StrField())
nullable_required = field(StrField(), nullability=Required(allow_none=True))
nonnull_omittable = field(StrField(), nullability=Omittable(allow_none=False))
nullable_omittable = field(StrField(), nullability=Omittable())
Composable/Reusable fields
from cleanchausie.fields import field, StrField, IntField
from cleanchausie.schema import Schema
@field(parents=StrField())
def name_field(value: str) -> str:
return value.strip()
age_field = IntField(min_value=0)
score_field = IntField(min_value=0, max_value=100)
class ReusableFieldsExampleSchema(Schema):
first_name = name_field
age = age_field
score = score_field
Context support
CleanChausie supports passing in a context during validation. This is commonly useful for validation-important information or implementation details that aren't really part of the validated data and shouldn't be serialized as a field.
For example, a database session
often has a short lifecycle and should
be discarded after it's been used. If this was passed in as a field, a
reference would stick around on the validated schema. If we're just trying to
be explicit about session management, we should pass it in using a context
instead:
import attrs
from cleanchausie.fields import field, StrField
from cleanchausie.schema import Schema
class MyModel: # some ORM model
id: str
created_by_id: str # User id
@attrs.frozen
class Context:
authenticated_user: 'User' # the User making a request
session: 'Session' # active ORM Session
class ContextExampleSchema(Schema):
@field(parents=StrField(), accepts=("id",))
def obj(self, value: str, context: Context) -> MyModel:
# in real usage this might look more like:
# context.session
# .query(MyModel)
# .filter(MyModel.created_by_id == authenticated_user.id)
# .filter(MyModel.id == value)
return context.session.find_by_user_and_id(
value, context.authenticated_user.id
)
with atomic() as session:
result = ContextExampleSchema.clean(
data={'id': 'mymodel_primarykey'},
context=Context(authenticated_user=EXAMPLE_USER, session=session)
)
assert isinstance(result, ContextExampleSchema)
assert isinstance(result.obj, MyModel)
Intra-schema field dependencies
Fields can depend on each other! This is common in a few real-life use cases:
- An object can have an owning user/organization, which we might want to fetch first and reference while validating other fields
- We might want to automatically derive a field's value based on other required values
- We might want to force field evaluation order to put the most expensive checks last
The semantics here is actually pretty straightforward! All you have to do when defining a field is add an argument with a name matching another field. When validating, CleanChausie will first validate the other field, then pass the resulting value into subsequent fields that depend on them. For example:
from cleanchausie.fields import field
from cleanchausie.schema import Schema
class DependencyExampleSchema(Schema):
a: str
b: str
@field()
def a_and_b(self, a: str, b: str) -> str:
return f'{a}::{b}'
result = DependencyExampleSchema.clean(
data={'a': 'foo', 'b': 'bar'},
)
assert isinstance(result, DependencyExampleSchema)
assert result.a_and_b == 'foo::bar'
Or we can write fields that both accept a value, and depend on the already-valid values from other fields:
import attr
from cleanchausie.fields import field, StrField
from cleanchausie.schema import Schema
@attr.frozen
class B:
val: str
class DependencyExample2Schema(Schema):
a: str
@field(parents=StrField())
def b(self, value: str) -> B:
return B(val=value)
@field()
def a_and_b(self, a: str, b: B) -> str:
return f"{a}::{b.val}"
Release process
- Make sure to thoroughly review and test the code changes.
- Make sure you have
releaserabbit
installed. - From the project's root run
releaserabbit
with the desired version increment -major
,minor
orpatch
. - A version bump should happen automatically, and the new version should be uploaded to PyPI.
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