Strict Mode
API Documentation
By default, Pydantic will attempt to coerce values to the desired type when possible.
For example, you can pass the string "123"
as the input to an int
field, and it will be converted to 123
.
This coercion behavior is useful in many scenarios — think: UUIDs, URL parameters, HTTP headers, environment variables,
user input, etc.
However, there are also situations where this is not desirable, and you want Pydantic to error instead of coercing data.
To better support this use case, Pydantic provides a "strict mode" that can be enabled on a per-model, per-field, or even per-validation-call basis. When strict mode is enabled, Pydantic will be much less lenient when coercing data, and will instead error if the data is not of the correct type.
Here is a brief example showing the difference between validation behavior in strict and the default/"lax" mode:
from pydantic import BaseModel, ValidationError
class MyModel(BaseModel):
x: int
print(MyModel.model_validate({'x': '123'})) # lax mode
#> x=123
try:
MyModel.model_validate({'x': '123'}, strict=True) # strict mode
except ValidationError as exc:
print(exc)
"""
1 validation error for MyModel
x
Input should be a valid integer [type=int_type, input_value='123', input_type=str]
"""
There are various ways to get strict-mode validation while using Pydantic, which will be discussed in more detail below:
- Passing
strict=True
to the validation methods, such asBaseModel.model_validate
,TypeAdapter.validate_python
, and similar for JSON - Using
Field(strict=True)
with fields of aBaseModel
,dataclass
, orTypedDict
- Using
pydantic.types.Strict
as a type annotation on a field - Pydantic provides some type aliases that are already annotated with
Strict
, such aspydantic.types.StrictInt
- Using
ConfigDict(strict=True)
Type coercions in strict mode¶
For most types, when validating data from python in strict mode, only the instances of the exact types are accepted.
For example, when validating an int
field, only instances of int
are accepted; passing instances of float
or str
will result in raising a ValidationError
.
Note that we are looser when validating data from JSON in strict mode. For example, when validating a UUID
field,
instances of str
will be accepted when validating from JSON, but not from python:
import json
from uuid import UUID
from pydantic import BaseModel, ValidationError
class MyModel(BaseModel):
guid: UUID
data = {'guid': '12345678-1234-1234-1234-123456789012'}
print(MyModel.model_validate(data)) # OK: lax
#> guid=UUID('12345678-1234-1234-1234-123456789012')
print(
MyModel.model_validate_json(json.dumps(data), strict=True)
) # OK: strict, but from json
#> guid=UUID('12345678-1234-1234-1234-123456789012')
try:
MyModel.model_validate(data, strict=True) # Not OK: strict, from python
except ValidationError as exc:
print(exc.errors(include_url=False))
"""
[
{
'type': 'is_instance_of',
'loc': ('guid',),
'msg': 'Input should be an instance of UUID',
'input': '12345678-1234-1234-1234-123456789012',
'ctx': {'class': 'UUID'},
}
]
"""
For more details about what types are allowed as inputs in strict mode, you can review the Conversion Table.
Strict mode in method calls¶
All the examples included so far get strict-mode validation through the use of strict=True
as a keyword argument to
the validation methods. While we have shown this for BaseModel.model_validate
, this also works with arbitrary types
through the use of TypeAdapter
:
from pydantic import TypeAdapter, ValidationError
print(TypeAdapter(bool).validate_python('yes')) # OK: lax
#> True
try:
TypeAdapter(bool).validate_python('yes', strict=True) # Not OK: strict
except ValidationError as exc:
print(exc)
"""
1 validation error for bool
Input should be a valid boolean [type=bool_type, input_value='yes', input_type=str]
"""
Note this also works even when using more "complex" types in TypeAdapter
:
from dataclasses import dataclass
from pydantic import TypeAdapter, ValidationError
@dataclass
class MyDataclass:
x: int
try:
TypeAdapter(MyDataclass).validate_python({'x': '123'}, strict=True)
except ValidationError as exc:
print(exc)
"""
1 validation error for MyDataclass
Input should be an instance of MyDataclass [type=dataclass_exact_type, input_value={'x': '123'}, input_type=dict]
"""
This also works with the TypeAdapter.validate_json
and BaseModel.model_validate_json
methods:
import json
from typing import List
from uuid import UUID
from pydantic import BaseModel, TypeAdapter, ValidationError
try:
TypeAdapter(List[int]).validate_json('["1", 2, "3"]', strict=True)
except ValidationError as exc:
print(exc)
"""
2 validation errors for list[int]
0
Input should be a valid integer [type=int_type, input_value='1', input_type=str]
2
Input should be a valid integer [type=int_type, input_value='3', input_type=str]
"""
class Model(BaseModel):
x: int
y: UUID
data = {'x': '1', 'y': '12345678-1234-1234-1234-123456789012'}
try:
Model.model_validate(data, strict=True)
except ValidationError as exc:
# Neither x nor y are valid in strict mode from python:
print(exc)
"""
2 validation errors for Model
x
Input should be a valid integer [type=int_type, input_value='1', input_type=str]
y
Input should be an instance of UUID [type=is_instance_of, input_value='12345678-1234-1234-1234-123456789012', input_type=str]
"""
json_data = json.dumps(data)
try:
Model.model_validate_json(json_data, strict=True)
except ValidationError as exc:
# From JSON, x is still not valid in strict mode, but y is:
print(exc)
"""
1 validation error for Model
x
Input should be a valid integer [type=int_type, input_value='1', input_type=str]
"""
import json
from uuid import UUID
from pydantic import BaseModel, TypeAdapter, ValidationError
try:
TypeAdapter(list[int]).validate_json('["1", 2, "3"]', strict=True)
except ValidationError as exc:
print(exc)
"""
2 validation errors for list[int]
0
Input should be a valid integer [type=int_type, input_value='1', input_type=str]
2
Input should be a valid integer [type=int_type, input_value='3', input_type=str]
"""
class Model(BaseModel):
x: int
y: UUID
data = {'x': '1', 'y': '12345678-1234-1234-1234-123456789012'}
try:
Model.model_validate(data, strict=True)
except ValidationError as exc:
# Neither x nor y are valid in strict mode from python:
print(exc)
"""
2 validation errors for Model
x
Input should be a valid integer [type=int_type, input_value='1', input_type=str]
y
Input should be an instance of UUID [type=is_instance_of, input_value='12345678-1234-1234-1234-123456789012', input_type=str]
"""
json_data = json.dumps(data)
try:
Model.model_validate_json(json_data, strict=True)
except ValidationError as exc:
# From JSON, x is still not valid in strict mode, but y is:
print(exc)
"""
1 validation error for Model
x
Input should be a valid integer [type=int_type, input_value='1', input_type=str]
"""
Strict mode with Field
¶
For individual fields on a model, you can set strict=True
on the field.
This will cause strict-mode validation to be used for that field, even when the validation methods are called without
strict=True
.
Only the fields for which strict=True
is set will be affected:
from pydantic import BaseModel, Field, ValidationError
class User(BaseModel):
name: str
age: int
n_pets: int
user = User(name='John', age='42', n_pets='1')
print(user)
#> name='John' age=42 n_pets=1
class AnotherUser(BaseModel):
name: str
age: int = Field(strict=True)
n_pets: int
try:
anotheruser = AnotherUser(name='John', age='42', n_pets='1')
except ValidationError as e:
print(e)
"""
1 validation error for AnotherUser
age
Input should be a valid integer [type=int_type, input_value='42', input_type=str]
"""
Note that making fields strict will also affect the validation performed when instantiating the model class:
from pydantic import BaseModel, Field, ValidationError
class Model(BaseModel):
x: int = Field(strict=True)
y: int = Field(strict=False)
try:
Model(x='1', y='2')
except ValidationError as exc:
print(exc)
"""
1 validation error for Model
x
Input should be a valid integer [type=int_type, input_value='1', input_type=str]
"""
Using Field
as an annotation¶
Note that Field(strict=True)
(or with any other keyword arguments) can be used as an annotation if necessary, e.g.,
when working with TypedDict
:
from typing_extensions import Annotated, TypedDict
from pydantic import Field, TypeAdapter, ValidationError
class MyDict(TypedDict):
x: Annotated[int, Field(strict=True)]
try:
TypeAdapter(MyDict).validate_python({'x': '1'})
except ValidationError as exc:
print(exc)
"""
1 validation error for typed-dict
x
Input should be a valid integer [type=int_type, input_value='1', input_type=str]
"""
from typing_extensions import TypedDict
from typing import Annotated
from pydantic import Field, TypeAdapter, ValidationError
class MyDict(TypedDict):
x: Annotated[int, Field(strict=True)]
try:
TypeAdapter(MyDict).validate_python({'x': '1'})
except ValidationError as exc:
print(exc)
"""
1 validation error for typed-dict
x
Input should be a valid integer [type=int_type, input_value='1', input_type=str]
"""
Strict mode with Annotated[..., Strict()]
¶
API Documentation
Pydantic also provides the Strict
class, which is intended for use as
metadata with typing.Annotated
class; this annotation indicates that the annotated field should be validated in
strict mode:
from typing_extensions import Annotated
from pydantic import BaseModel, Strict, ValidationError
class User(BaseModel):
name: str
age: int
is_active: Annotated[bool, Strict()]
User(name='David', age=33, is_active=True)
try:
User(name='David', age=33, is_active='True')
except ValidationError as exc:
print(exc)
"""
1 validation error for User
is_active
Input should be a valid boolean [type=bool_type, input_value='True', input_type=str]
"""
from typing import Annotated
from pydantic import BaseModel, Strict, ValidationError
class User(BaseModel):
name: str
age: int
is_active: Annotated[bool, Strict()]
User(name='David', age=33, is_active=True)
try:
User(name='David', age=33, is_active='True')
except ValidationError as exc:
print(exc)
"""
1 validation error for User
is_active
Input should be a valid boolean [type=bool_type, input_value='True', input_type=str]
"""
This is, in fact, the method used to implement some of the strict-out-of-the-box types provided by Pydantic,
such as StrictInt
.
Strict mode with ConfigDict
¶
BaseModel
¶
If you want to enable strict mode for all fields on a complex input type, you can use
ConfigDict(strict=True)
in the model_config
:
from pydantic import BaseModel, ConfigDict, ValidationError
class User(BaseModel):
model_config = ConfigDict(strict=True)
name: str
age: int
is_active: bool
try:
User(name='David', age='33', is_active='yes')
except ValidationError as exc:
print(exc)
"""
2 validation errors for User
age
Input should be a valid integer [type=int_type, input_value='33', input_type=str]
is_active
Input should be a valid boolean [type=bool_type, input_value='yes', input_type=str]
"""
Note
When using strict=True
through a model's model_config
, you can still override the strictness
of individual fields by setting strict=False
on individual fields:
from pydantic import BaseModel, ConfigDict, Field
class User(BaseModel):
model_config = ConfigDict(strict=True)
name: str
age: int = Field(strict=False)
Note that strict mode is not recursively applied to nested model fields:
from pydantic import BaseModel, ConfigDict, ValidationError
class Inner(BaseModel):
y: int
class Outer(BaseModel):
model_config = ConfigDict(strict=True)
x: int
inner: Inner
print(Outer(x=1, inner=Inner(y='2')))
#> x=1 inner=Inner(y=2)
try:
Outer(x='1', inner=Inner(y='2'))
except ValidationError as exc:
print(exc)
"""
1 validation error for Outer
x
Input should be a valid integer [type=int_type, input_value='1', input_type=str]
"""
(This is also the case for dataclasses and TypedDict
.)
If this is undesirable, you should make sure that strict mode is enabled for all the types involved.
For example, this can be done for model classes by using a shared base class with
model_config = ConfigDict(strict=True)
:
from pydantic import BaseModel, ConfigDict, ValidationError
class MyBaseModel(BaseModel):
model_config = ConfigDict(strict=True)
class Inner(MyBaseModel):
y: int
class Outer(MyBaseModel):
x: int
inner: Inner
try:
Outer.model_validate({'x': 1, 'inner': {'y': '2'}})
except ValidationError as exc:
print(exc)
"""
1 validation error for Outer
inner.y
Input should be a valid integer [type=int_type, input_value='2', input_type=str]
"""
Dataclasses and TypedDict
¶
Pydantic dataclasses behave similarly to the examples shown above with BaseModel
, just that instead of model_config
you should use the config
keyword argument to the @pydantic.dataclasses.dataclass
decorator.
When possible, you can achieve nested strict mode for vanilla dataclasses or TypedDict
subclasses by annotating fields
with the pydantic.types.Strict
annotation.
However, if this is not possible (e.g., when working with third-party types), you can set the config that Pydantic
should use for the type by setting the __pydantic_config__
attribute on the type:
from typing_extensions import TypedDict
from pydantic import ConfigDict, TypeAdapter, ValidationError
class Inner(TypedDict):
y: int
Inner.__pydantic_config__ = ConfigDict(strict=True)
class Outer(TypedDict):
x: int
inner: Inner
adapter = TypeAdapter(Outer)
print(adapter.validate_python({'x': '1', 'inner': {'y': 2}}))
#> {'x': 1, 'inner': {'y': 2}}
try:
adapter.validate_python({'x': '1', 'inner': {'y': '2'}})
except ValidationError as exc:
print(exc)
"""
1 validation error for typed-dict
inner.y
Input should be a valid integer [type=int_type, input_value='2', input_type=str]
"""
TypeAdapter
¶
You can also get strict mode through the use of the config keyword argument to the
TypeAdapter
class:
from pydantic import ConfigDict, TypeAdapter, ValidationError
adapter = TypeAdapter(bool, config=ConfigDict(strict=True))
try:
adapter.validate_python('yes')
except ValidationError as exc:
print(exc)
"""
1 validation error for bool
Input should be a valid boolean [type=bool_type, input_value='yes', input_type=str]
"""
@validate_call
¶
Strict mode is also usable with the @validate_call
decorator by passing the config
keyword argument:
from pydantic import ConfigDict, ValidationError, validate_call
@validate_call(config=ConfigDict(strict=True))
def foo(x: int) -> int:
return x
try:
foo('1')
except ValidationError as exc:
print(exc)
"""
1 validation error for foo
0
Input should be a valid integer [type=int_type, input_value='1', input_type=str]
"""