Trycast helps parses JSON-like values whose shape is defined by typed dictionaries (TypedDicts) and other standard Python type hints.

You can use the trycast(), checkcast(), or isassignable() functions below for parsing:

Here is an example of parsing a Point2D object defined as a TypedDict using trycast():

from bottle import HTTPResponse, request, route  # Bottle is a web framework
from trycast import trycast
from typing import TypedDict

class Point2D(TypedDict):
    x: float
    y: float
    name: str

@route('/draw_point')
def draw_point_endpoint() -> HTTPResponse:
    request_json = request.json  # type: object
    if (point := trycast(Point2D, request_json)) is None:
        return HTTPResponse(status=400)  # Bad Request
    draw_point(point)  # type is narrowed to Point2D
    return HTTPResponse(status=200)

def draw_point(point: Point2D) -> None:
    ...

In this example the trycast function is asked to parse a request_json into a Point2D object, returning the original object (with its type narrowed appropriately) if parsing was successful.

More complex types can be parsed as well, such as the Shape in the following example, which is a tagged union that can be either a Circle or Rect value:

from bottle import HTTPResponse, request, route
from trycast import trycast
from typing import Literal, TypedDict

class Point2D(TypedDict):
    x: float
    y: float

class Circle(TypedDict):
    type: Literal['circle']
    center: Point2D  # a nested TypedDict!
    radius: float

class Rect(TypedDict):
    type: Literal['rect']
    x: float
    y: float
    width: float
    height: float

Shape = Circle | Rect  # a Tagged Union!

@route('/draw_shape')
def draw_shape_endpoint() -> HTTPResponse:
    request_json = request.json  # type: object
    if (shape := trycast(Shape, request_json)) is None:
        return HTTPResponse(status=400)  # Bad Request
    draw_shape(shape)  # type is narrowed to Shape
    return HTTPResponse(status=200)  # OK

Important: Current limitations in the mypy typechecker require that you add an extra cast(Optional[Shape], ...) around the call to trycast in the example so that it is accepted by the typechecker without complaining:

shape = cast(Optional[Shape], trycast(Shape, request_json))
if shape is None:
    ...

These limitations are in the process of being resolved by introducing TypeForm support to mypy.

checkcast() is similar to trycast() but instead of returning None when parsing fails it raises an exception explaining why and where the parsing failed.

Here is an example of parsing a Circle object using checkcast():

>>> from typing import Literal, TypedDict
>>> from trycast import checkcast
>>> 
>>> class Point2D(TypedDict):
...     x: float
...     y: float
... 
>>> class Circle(TypedDict):
...     type: Literal['circle']
...     center: Point2D  # a nested TypedDict!
...     radius: float
... 
>>> checkcast(Circle, {"type": "circle", "center": {"x": 1}, "radius": 10})
Traceback (most recent call last):
  ...
trycast.ValidationError: Expected Circle but found {'type': 'circle', 'center': {'x': 1}, 'radius': 10}
  At key 'center': Expected Point2D but found {'x': 1}
    Required key 'y' is missing
>>> 

ValidationError only spends time generating a message if you try to print it or stringify it, so can be cheaply caught if you only want to use it for control flow purposes.

Here is an example of parsing a Shape object defined as a union of TypedDicts using isassignable():

class Circle(TypedDict):
    type: Literal['circle']
    ...

class Rect(TypedDict):
    type: Literal['rect']
    ...

Shape = Circle | Rect  # a Tagged Union!

@route('/draw_shape')
def draw_shape_endpoint() -> HTTPResponse:
    request_json = request.json  # type: object
    if not isassignable(request_json, Shape):
        return HTTPResponse(status=400)  # Bad Request
    draw_shape(request_json)  # type is narrowed to Shape
    return HTTPResponse(status=200)  # OK

Important: Current limitations in the mypy typechecker prevent the automatic narrowing of the type of request_json in the above example to Shape, so you must add an additional cast() to narrow the type manually:

if not isassignable(request_json, Shape):
    ...
shape = cast(Shape, request_json)  # type is manually narrowed to Shape
draw_shape(shape)

These limitations are in the process of being resolved by introducing TypeForm support to mypy.

isassignable(value, T) is similar to Python's builtin isinstance() but additionally supports checking against arbitrary type annotation objects including TypedDicts, Unions, Literals, and many others.

Formally, isassignable(value, T) checks whether value is consistent with a variable of type T (using PEP 484 static typechecking rules), but at runtime.

The trycast module is primarily designed for recognizing JSON-like structures that can be described by Python's typing system. Secondarily, it can be used for recognizing arbitrary structures that can be described by Python's typing system.

Please see Philosophy for more information about how trycast differs from similar libraries like pydantic.

Typed dictionaries are the natural form that JSON data comes in over the wire. They can be trivially serialized and deserialized without any additional logic. For applications that use a lot of JSON data - such as web applications - using typed dictionaries is very convenient for representing data structures.

If you just need a lightweight class structure that doesn't need excellent support for JSON-serialization you might consider other alternatives for representing data structures in Python such as dataclasses (recommended), named tuples, attrs, or plain classes.

python -m pip install trycast

• So that trycast() can recognize TypedDicts with mixed required and not-required keys correctly:
  • Use Python 3.9+ if possible.
  • Prefer using typing.TypedDict, unless you must use Python 3.8. In Python 3.8 prefer typing_extensions.TypedDict instead.
  • Avoid using mypy_extensions.TypedDict in general.

A presentation about using trycast to parse JSON was given at the 2021 PyCon US Typing Summit:

A presentation describing tools that use Python type annotations at runtime, including trycast, was given at the 2022 PyCon US Typing Summit:

Pull requests are welcome! The Python Community Code of Conduct does apply.

You can checkout the code locally using:

git clone git@github.com:davidfstr/trycast.git
cd trycast

Create your local virtual environment to develop in using Poetry:

poetry shell
poetry install

You can run the existing automated tests in the current version of Python with:

make test

You can also run the tests against all supported Python versions with:

make testall

See additional development commands by running:

make help

MIT

• Scalars
  • bool
  • int
  • float
  • None, type(None)
• Strings
  • str
• Raw Collections
  • list, List
  • tuple, Tuple
  • Sequence, MutableSequence
  • dict, Dict
  • Mapping, MutableMapping
• Generic Collections (including PEP 585)
  • list[T], List[T]
  • tuple[T, ...], Tuple[T, ...]
  • Sequence[T], MutableSequence[T]
  • dict[K, V], Dict[K, V]
  • Mapping[K, V], MutableMapping[K, V]
• TypedDict
  • typing.TypedDict, typing_extensions.TypedDict (PEP 589)
  • mypy_extensions.TypedDict (when strict=False)
  • –––
  • Required, NotRequired (PEP 655)
  • ReadOnly (PEP 705)
• Tuples (Heterogeneous)
  • tuple[T1], tuple[T1, T2], tuple[T1, T2, T3], etc
  • Tuple[T1], Tuple[T1, T2], Tuple[T1, T2, T3], etc
• Unions
  • Union[X, Y]
  • Optional[T]
  • X | Y (PEP 604)
• Literals
  • Literal[value] (PEP 586)
• Callables
  • Callable
  • Callable[P, R] (where P=[Any]*N and R=Any)
• NewTypes (when strict=False)
• Special Types
  • Any
  • Never
  • NoReturn

Trycast does type check successfully with the following type checkers:

• Mypy
• Pyright / Pylance
• Pyre
• Pytype

def trycast(
    tp: TypeForm[T]† | TypeFormString[T]‡,
    value: object,
    /, failure: F = None,
    *, strict: bool = True,
    eval: bool = True
) -> T | F: ...

If value is in the shape of tp (as accepted by a Python typechecker conforming to PEP 484 "Type Hints") then returns it, otherwise returns failure (which is None by default).

This method logically performs an operation similar to:

return value if isinstance(tp, value) else failure

except that it supports many more types than isinstance, including:

• List[T]
• Dict[K, V]
• Optional[T]
• Union[T1, T2, ...]
• Literal[...]
• T extends TypedDict

Similar to isinstance(), this method considers every bool value to also be a valid int value, as consistent with Python typecheckers:

trycast(int, True) -> True
isinstance(True, int) -> True

Note that unlike isinstance(), this method considers every int value to also be a valid float or complex value, as consistent with Python typecheckers:

trycast(float, 1) -> 1
trycast(complex, 1) -> 1
isinstance(1, float) -> False
isinstance(1, complex) -> False

Note that unlike isinstance(), this method considers every float value to also be a valid complex value, as consistent with Python typecheckers:

trycast(complex, 1.0) -> 1
isinstance(1.0, complex) -> False

Parameters:

• strict --
  • If strict=False then this function will additionally accept mypy_extensions.TypedDict instances and Python 3.8 typing.TypedDict instances for the tp parameter. Normally these kinds of types are rejected with a TypeNotSupportedError because these types do not preserve enough information at runtime to reliably determine which keys are required and which are potentially-missing.
  • If strict=False then NewType("Foo", T) will be treated the same as T. Normally NewTypes are rejected with a TypeNotSupportedError because values of NewTypes at runtime are indistinguishable from their wrapped supertype.
• eval -- If eval=False then this function will not attempt to resolve string type references, which requires the use of the eval() function. Otherwise string type references will be accepted.

Raises:

• TypeNotSupportedError --
  • If strict=True and either mypy_extensions.TypedDict or a Python 3.8 typing.TypedDict is found within the tp argument.
  • If strict=True and a NewType is found within the tp argument.
  • If a TypeVar is found within the tp argument.
  • If an unrecognized Generic type is found within the tp argument.
• UnresolvedForwardRefError -- If tp is a type form which contains a ForwardRef.
• UnresolvableTypeError -- If tp is a string that could not be resolved to a type.

Footnotes:

• † TypeForm[T] is a type annotation object. For example: list[str]

• ‡ TypeFormString[T] is a stringified type annotation object. For example: "list[str]"

def checkcast(
    tp: TypeForm[T]† | TypeFormString[T]‡,
    value: object,
    /, *, strict: bool = True,
    eval: bool = True
) -> T: ...

If value is in the shape of tp (as accepted by a Python typechecker conforming to PEP 484 "Type Hints") then returns it, otherwise raises ValidationError.

This method logically performs an operation similar to:

if isinstance(tp, value):
    return value
else:
    raise ValidationError(tp, value)

except that it supports many more types than isinstance, including:

• List[T]
• Dict[K, V]
• Optional[T]
• Union[T1, T2, ...]
• Literal[...]
• T extends TypedDict

See trycast.trycast() for information about parameters, raised exceptions, and other details.

Raises:

• ValidationError -- If value is not in the shape of tp.
• TypeNotSupportedError
• UnresolvedForwardRefError
• UnresolvableTypeError

def isassignable(
    value: object,
    tp: TypeForm[T]† | TypeFormString[T]‡,
    /, *, eval: bool = True
) -> TypeGuard[T]: ...

Returns whether value is in the shape of tp (as accepted by a Python typechecker conforming to PEP 484 "Type Hints").

This method logically performs an operation similar to:

return isinstance(value, tp)

except that it supports many more types than isinstance, including:

• List[T]
• Dict[K, V]
• Optional[T]
• Union[T1, T2, ...]
• Literal[...]
• T extends TypedDict

See trycast.trycast(..., strict=True) for information about parameters, raised exceptions, and other details.

• See the Roadmap.

• Add checkcast(), an alternative to trycast() which raises a ValidationError upon failure instead of returning None. (#16)
• Add support for Python 3.13.
  • Recognize ReadOnly[] from PEP 705. (#25)
• Add support for Python 3.12.
  • Recognize type statements from PEP 695. (#29)
• Enhance support for Python 3.11:
  • Recognize special Never values. (#26)
• Drop support for Python 3.7. (#21)
• Enforce that calls to trycast() and isassignable() pass the first 2 arguments in positional fashion and not in a named fashion: (#18) (Breaking change)
  • Yes: trycast(T, value), isassignable(value, T)
  • No: trycast(tp=T, value=value), isassignable(value=value, tp=T)

• Fix trycast() to recognize TypedDicts with extra keys. (#19)
  • This new behavior helps recognize JSON structures with arbitrary additional keys and is consistent with how static typecheckers treat additional keys.
• Fix magic wand in logo to look more like a magic wand. (#20)

• Extend trycast() to recognize more kinds of types:
  • Extend trycast() to recognize set[T] and Set[T] values.
  • Extend trycast() to recognize frozenset[T] and FrozenSet[T] values.
  • Extend trycast() to recognize Callable and Callable[P, R] types when P and R only contain Any.
  • Extend trycast() to recognize NewType types when strict=False.
  • Extend trycast() to explicitly disallow TypeVar types.
  • Extend trycast() to explicitly disallow unrecognized Generic types.
• Fix issues with PEP 484 conformance: (Breaking change)
  • bool values are now correctly treated as assignable to int.
  • bool, int, and float values are now correctly treated as assignable to complex.
• Add support for Python 3.11.
• Documentation improvements:
  • Add installation instructions.
  • Improve differentiation from similar libraries.
  • Document supported typing features & type checkers.
  • Mention that trycast() and isassignable() accept TypeFormString[T] in addition to TypeForm[T].
  • Add developer documentation.

• Support X|Y syntax for Union types from PEP 604.
• Documentation improvements:
  • Improve introduction.
  • Add API reference.

• Add logo.

• Upgrade development status from Beta to Production/Stable: 🎉
  • trycast is thoroughly tested.
  • trycast has high code coverage (98%, across Python 3.7-3.10).
  • trycast has been in production use for over a year at at least one company without issues.
  • trycast supports all major Python type checkers (Mypy, Pyright/Pylance, Pyre, Pytype).
  • trycast's initial API is finalized.
• Fix coverage to be a dev-dependency rather than a regular dependency.

• Finalize the initial API:
  • Alter trycast() to use strict=True by default rather than strict=False. (Breaking change)
  • Define trycast's __all__ to export only the trycast and isassignable functions.
• Add support for additional type checkers, in addition to Mypy:
  • Add support for the Pyright type checker and Pylance language server extension (for Visual Studio Code).
  • Add support for the Pyre type checker.
  • Add support for the Pytype type checker.
• Extend trycast() to recognize special Any and NoReturn values.
• Fix trycast() to provide better diagnostic error when given a tuple of types as its tp argument. Was broken in v0.6.0.

• Fix trycast(..., eval=False) to not use typing.get_type_hints(), which internally calls eval().
• Fix trycast() and isassignable() to avoid swallowing KeyboardInterrupt and other non-Exception BaseExceptions.

• Extend trycast() to recognize a stringified type argument.
• Extend trycast() to report a better error message when given a type argument with an unresolved forward reference (ForwardRef).
• Fix strict argument to trycast to be passed to inner calls of trycast correctly.
  • This also fixes isassignable()'s use of strict matching to be correct.
• Alter trycast() to interpret a type argument of None or "None" as an alias for type(None), as consistent with PEP 484.
• Alter TypeNotSupportedError to extend TypeError rather than ValueError. (Breaking change)
  • This is consistent with trycast's and isinstance's behavior of using a TypeError rather than a ValueError when there is a problem with its tp argument.
• Drop support for Python 3.6. (Breaking change)
  • Python 3.6 is end-of-life.

• isassignable() is introduced to the API:
  • isassignable() leverages trycast() to enable type-checking of values against type objects (i.e. type forms) provided at runtime, using the same PEP 484 typechecking rules used by typecheckers such as mypy.
• Extend trycast() to recognize Required[] and NotRequired[] from PEP 655, as imported from typing_extensions.
• Extend trycast() to support a strict parameter that controls whether it accepts mypy_extensions.TypedDict or Python 3.8 typing.TypedDict instances (which lack certain runtime type information necessary for accurate runtime typechecking).
  • For now strict=False by default for backward compatibility with earlier versions of trycast(), but this default is expected to be altered to strict=True when/before trycast v1.0.0 is released.
• Rename primary development branch from master to main.

• Upgrade development status from Alpha to Beta:
  • trycast is thoroughly tested.
  • trycast has high code coverage (92% on Python 3.9).
  • trycast has been in production use for over a year at at least one company without issues.
• Add support for Python 3.10.
• Setup continuous integration with GitHub Actions, against Python 3.6 - 3.10.
• Migrate to the Black code style.
• Introduce Black and isort code formatters.
• Introduce flake8 linter.
• Introduce coverage.py code coverage reports.

• TypedDict improvements & fixes:
  • Fix trycast() to recognize custom Mapping subclasses as TypedDicts.
• Extend trycast() to recognize more JSON-like values:
  • Extend trycast() to recognize Mapping and MutableMapping values.
  • Extend trycast() to recognize tuple[T, ...] and Tuple[T, ...] values.
  • Extend trycast() to recognize Sequence and MutableSequence values.
• Extend trycast() to recognize tuple[T1, T2, etc] and Tuple[T1, T2, etc] values.
• Documentation improvements:
  • Improve introduction.
  • Outline motivation to use trycast and note alternatives.

• TypedDict improvements & fixes:
  • Fix trycast() to recognize TypedDicts from mypy_extensions.
  • Extend trycast() to recognize TypedDicts that contain forward-references to other types.
    • Unfortunately there appears to be no easy way to support arbitrary kinds of types that contain forward-references.
    • In particular {Union, Optional} types and collection types (List, Dict) with forward-references remain unsupported by trycast().
  • Recognize TypedDicts that have mixed required and not-required keys correctly.
    • Exception: Does not work for mypy_extensions.TypedDict or Python 3.8's typing.TypedDict due to insufficient runtime type annotation information.
  • Fix recognition of a total=False TypedDict so that extra keys are disallowed.
• Alter typing_extensions to be an optional dependency of trycast.

• Add support for Python 3.6, 3.7, and 3.9, in addition to 3.8.

• Fix README to appear on PyPI.
• Add other package metadata, such as the supported Python versions.

• Initial release.
• Supports typechecking all types found in JSON.