""" Validation errors, and some surrounding helpers. """ from __future__ import annotations from collections import defaultdict, deque from pprint import pformat from textwrap import dedent, indent from typing import TYPE_CHECKING, ClassVar import heapq import itertools import warnings from attrs import define from referencing.exceptions import Unresolvable as _Unresolvable from jsonschema import _utils if TYPE_CHECKING: from collections.abc import Iterable, Mapping, MutableMapping WEAK_MATCHES: frozenset[str] = frozenset(["anyOf", "oneOf"]) STRONG_MATCHES: frozenset[str] = frozenset() _unset = _utils.Unset() def __getattr__(name): if name == "RefResolutionError": warnings.warn( _RefResolutionError._DEPRECATION_MESSAGE, DeprecationWarning, stacklevel=2, ) return _RefResolutionError raise AttributeError(f"module {__name__} has no attribute {name}") class _Error(Exception): _word_for_schema_in_error_message: ClassVar[str] _word_for_instance_in_error_message: ClassVar[str] def __init__( self, message: str, validator=_unset, path=(), cause=None, context=(), validator_value=_unset, instance=_unset, schema=_unset, schema_path=(), parent=None, type_checker=_unset, ): super().__init__( message, validator, path, cause, context, validator_value, instance, schema, schema_path, parent, ) self.message = message self.path = self.relative_path = deque(path) self.schema_path = self.relative_schema_path = deque(schema_path) self.context = list(context) self.cause = self.__cause__ = cause self.validator = validator self.validator_value = validator_value self.instance = instance self.schema = schema self.parent = parent self._type_checker = type_checker for error in context: error.parent = self def __repr__(self): return f"<{self.__class__.__name__}: {self.message!r}>" def __str__(self): essential_for_verbose = ( self.validator, self.validator_value, self.instance, self.schema, ) if any(m is _unset for m in essential_for_verbose): return self.message schema_path = _utils.format_as_index( container=self._word_for_schema_in_error_message, indices=list(self.relative_schema_path)[:-1], ) instance_path = _utils.format_as_index( container=self._word_for_instance_in_error_message, indices=self.relative_path, ) prefix = 16 * " " return dedent( f"""\ {self.message} Failed validating {self.validator!r} in {schema_path}: {indent(pformat(self.schema, width=72), prefix).lstrip()} On {instance_path}: {indent(pformat(self.instance, width=72), prefix).lstrip()} """.rstrip(), ) @classmethod def create_from(cls, other): return cls(**other._contents()) @property def absolute_path(self): parent = self.parent if parent is None: return self.relative_path path = deque(self.relative_path) path.extendleft(reversed(parent.absolute_path)) return path @property def absolute_schema_path(self): parent = self.parent if parent is None: return self.relative_schema_path path = deque(self.relative_schema_path) path.extendleft(reversed(parent.absolute_schema_path)) return path @property def json_path(self): path = "$" for elem in self.absolute_path: if isinstance(elem, int): path += "[" + str(elem) + "]" else: path += "." + elem return path def _set(self, type_checker=None, **kwargs): if type_checker is not None and self._type_checker is _unset: self._type_checker = type_checker for k, v in kwargs.items(): if getattr(self, k) is _unset: setattr(self, k, v) def _contents(self): attrs = ( "message", "cause", "context", "validator", "validator_value", "path", "schema_path", "instance", "schema", "parent", ) return {attr: getattr(self, attr) for attr in attrs} def _matches_type(self): try: expected = self.schema["type"] except (KeyError, TypeError): return False if isinstance(expected, str): return self._type_checker.is_type(self.instance, expected) return any( self._type_checker.is_type(self.instance, expected_type) for expected_type in expected ) class ValidationError(_Error): """ An instance was invalid under a provided schema. """ _word_for_schema_in_error_message = "schema" _word_for_instance_in_error_message = "instance" class SchemaError(_Error): """ A schema was invalid under its corresponding metaschema. """ _word_for_schema_in_error_message = "metaschema" _word_for_instance_in_error_message = "schema" @define(slots=False) class _RefResolutionError(Exception): """ A ref could not be resolved. """ _DEPRECATION_MESSAGE = ( "jsonschema.exceptions.RefResolutionError is deprecated as of version " "4.18.0. If you wish to catch potential reference resolution errors, " "directly catch referencing.exceptions.Unresolvable." ) _cause: Exception def __eq__(self, other): if self.__class__ is not other.__class__: return NotImplemented # pragma: no cover -- uncovered but deprecated # noqa: E501 return self._cause == other._cause def __str__(self): return str(self._cause) class _WrappedReferencingError(_RefResolutionError, _Unresolvable): # pragma: no cover -- partially uncovered but to be removed # noqa: E501 def __init__(self, cause: _Unresolvable): object.__setattr__(self, "_wrapped", cause) def __eq__(self, other): if other.__class__ is self.__class__: return self._wrapped == other._wrapped elif other.__class__ is self._wrapped.__class__: return self._wrapped == other return NotImplemented def __getattr__(self, attr): return getattr(self._wrapped, attr) def __hash__(self): return hash(self._wrapped) def __repr__(self): return f"" def __str__(self): return f"{self._wrapped.__class__.__name__}: {self._wrapped}" class UndefinedTypeCheck(Exception): """ A type checker was asked to check a type it did not have registered. """ def __init__(self, type): self.type = type def __str__(self): return f"Type {self.type!r} is unknown to this type checker" class UnknownType(Exception): """ A validator was asked to validate an instance against an unknown type. """ def __init__(self, type, instance, schema): self.type = type self.instance = instance self.schema = schema def __str__(self): prefix = 16 * " " return dedent( f"""\ Unknown type {self.type!r} for validator with schema: {indent(pformat(self.schema, width=72), prefix).lstrip()} While checking instance: {indent(pformat(self.instance, width=72), prefix).lstrip()} """.rstrip(), ) class FormatError(Exception): """ Validating a format failed. """ def __init__(self, message, cause=None): super().__init__(message, cause) self.message = message self.cause = self.__cause__ = cause def __str__(self): return self.message class ErrorTree: """ ErrorTrees make it easier to check which validations failed. """ _instance = _unset def __init__(self, errors: Iterable[ValidationError] = ()): self.errors: MutableMapping[str, ValidationError] = {} self._contents: Mapping[str, ErrorTree] = defaultdict(self.__class__) for error in errors: container = self for element in error.path: container = container[element] container.errors[error.validator] = error container._instance = error.instance def __contains__(self, index: str | int): """ Check whether ``instance[index]`` has any errors. """ return index in self._contents def __getitem__(self, index): """ Retrieve the child tree one level down at the given ``index``. If the index is not in the instance that this tree corresponds to and is not known by this tree, whatever error would be raised by ``instance.__getitem__`` will be propagated (usually this is some subclass of `LookupError`. """ if self._instance is not _unset and index not in self: self._instance[index] return self._contents[index] def __setitem__(self, index: str | int, value: ErrorTree): """ Add an error to the tree at the given ``index``. .. deprecated:: v4.20.0 Setting items on an `ErrorTree` is deprecated without replacement. To populate a tree, provide all of its sub-errors when you construct the tree. """ warnings.warn( "ErrorTree.__setitem__ is deprecated without replacement.", DeprecationWarning, stacklevel=2, ) self._contents[index] = value # type: ignore[index] def __iter__(self): """ Iterate (non-recursively) over the indices in the instance with errors. """ return iter(self._contents) def __len__(self): """ Return the `total_errors`. """ return self.total_errors def __repr__(self): total = len(self) errors = "error" if total == 1 else "errors" return f"<{self.__class__.__name__} ({total} total {errors})>" @property def total_errors(self): """ The total number of errors in the entire tree, including children. """ child_errors = sum(len(tree) for _, tree in self._contents.items()) return len(self.errors) + child_errors def by_relevance(weak=WEAK_MATCHES, strong=STRONG_MATCHES): """ Create a key function that can be used to sort errors by relevance. Arguments: weak (set): a collection of validation keywords to consider to be "weak". If there are two errors at the same level of the instance and one is in the set of weak validation keywords, the other error will take priority. By default, :kw:`anyOf` and :kw:`oneOf` are considered weak keywords and will be superseded by other same-level validation errors. strong (set): a collection of validation keywords to consider to be "strong" """ def relevance(error): validator = error.validator return ( # prefer errors which are ... -len(error.path), # 'deeper' and thereby more specific error.path, # earlier (for sibling errors) validator not in weak, # for a non-low-priority keyword validator in strong, # for a high priority keyword not error._matches_type(), # at least match the instance's type ) # otherwise we'll treat them the same return relevance relevance = by_relevance() """ A key function (e.g. to use with `sorted`) which sorts errors by relevance. Example: .. code:: python sorted(validator.iter_errors(12), key=jsonschema.exceptions.relevance) """ def best_match(errors, key=relevance): """ Try to find an error that appears to be the best match among given errors. In general, errors that are higher up in the instance (i.e. for which `ValidationError.path` is shorter) are considered better matches, since they indicate "more" is wrong with the instance. If the resulting match is either :kw:`oneOf` or :kw:`anyOf`, the *opposite* assumption is made -- i.e. the deepest error is picked, since these keywords only need to match once, and any other errors may not be relevant. Arguments: errors (collections.abc.Iterable): the errors to select from. Do not provide a mixture of errors from different validation attempts (i.e. from different instances or schemas), since it won't produce sensical output. key (collections.abc.Callable): the key to use when sorting errors. See `relevance` and transitively `by_relevance` for more details (the default is to sort with the defaults of that function). Changing the default is only useful if you want to change the function that rates errors but still want the error context descent done by this function. Returns: the best matching error, or ``None`` if the iterable was empty .. note:: This function is a heuristic. Its return value may change for a given set of inputs from version to version if better heuristics are added. """ errors = iter(errors) best = next(errors, None) if best is None: return best = max(itertools.chain([best], errors), key=key) while best.context: # Calculate the minimum via nsmallest, because we don't recurse if # all nested errors have the same relevance (i.e. if min == max == all) smallest = heapq.nsmallest(2, best.context, key=key) if len(smallest) == 2 and key(smallest[0]) == key(smallest[1]): # noqa: PLR2004 return best best = smallest[0] return best