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Filename: //lib/python3/dist-packages/pyrsistent/_checked_types.py
from ._compat import Iterable import six from pyrsistent._compat import Enum, string_types from pyrsistent._pmap import PMap, pmap from pyrsistent._pset import PSet, pset from pyrsistent._pvector import PythonPVector, python_pvector class CheckedType(object): """ Marker class to enable creation and serialization of checked object graphs. """ __slots__ = () @classmethod def create(cls, source_data, _factory_fields=None): raise NotImplementedError() def serialize(self, format=None): raise NotImplementedError() def _restore_pickle(cls, data): return cls.create(data, _factory_fields=set()) class InvariantException(Exception): """ Exception raised from a :py:class:`CheckedType` when invariant tests fail or when a mandatory field is missing. Contains two fields of interest: invariant_errors, a tuple of error data for the failing invariants missing_fields, a tuple of strings specifying the missing names """ def __init__(self, error_codes=(), missing_fields=(), *args, **kwargs): self.invariant_errors = tuple(e() if callable(e) else e for e in error_codes) self.missing_fields = missing_fields super(InvariantException, self).__init__(*args, **kwargs) def __str__(self): return super(InvariantException, self).__str__() + \ ", invariant_errors=[{invariant_errors}], missing_fields=[{missing_fields}]".format( invariant_errors=', '.join(str(e) for e in self.invariant_errors), missing_fields=', '.join(self.missing_fields)) _preserved_iterable_types = ( Enum, ) """Some types are themselves iterable, but we want to use the type itself and not its members for the type specification. This defines a set of such types that we explicitly preserve. Note that strings are not such types because the string inputs we pass in are values, not types. """ def maybe_parse_user_type(t): """Try to coerce a user-supplied type directive into a list of types. This function should be used in all places where a user specifies a type, for consistency. The policy for what defines valid user input should be clear from the implementation. """ is_type = isinstance(t, type) is_preserved = isinstance(t, type) and issubclass(t, _preserved_iterable_types) is_string = isinstance(t, string_types) is_iterable = isinstance(t, Iterable) if is_preserved: return [t] elif is_string: return [t] elif is_type and not is_iterable: return [t] elif is_iterable: # Recur to validate contained types as well. ts = t return tuple(e for t in ts for e in maybe_parse_user_type(t)) else: # If this raises because `t` cannot be formatted, so be it. raise TypeError( 'Type specifications must be types or strings. Input: {}'.format(t) ) def maybe_parse_many_user_types(ts): # Just a different name to communicate that you're parsing multiple user # inputs. `maybe_parse_user_type` handles the iterable case anyway. return maybe_parse_user_type(ts) def _store_types(dct, bases, destination_name, source_name): maybe_types = maybe_parse_many_user_types([ d[source_name] for d in ([dct] + [b.__dict__ for b in bases]) if source_name in d ]) dct[destination_name] = maybe_types def _merge_invariant_results(result): verdict = True data = [] for verd, dat in result: if not verd: verdict = False data.append(dat) return verdict, tuple(data) def wrap_invariant(invariant): # Invariant functions may return the outcome of several tests # In those cases the results have to be merged before being passed # back to the client. def f(*args, **kwargs): result = invariant(*args, **kwargs) if isinstance(result[0], bool): return result return _merge_invariant_results(result) return f def _all_dicts(bases, seen=None): """ Yield each class in ``bases`` and each of their base classes. """ if seen is None: seen = set() for cls in bases: if cls in seen: continue seen.add(cls) yield cls.__dict__ for b in _all_dicts(cls.__bases__, seen): yield b def store_invariants(dct, bases, destination_name, source_name): # Invariants are inherited invariants = [] for ns in [dct] + list(_all_dicts(bases)): try: invariant = ns[source_name] except KeyError: continue invariants.append(invariant) if not all(callable(invariant) for invariant in invariants): raise TypeError('Invariants must be callable') dct[destination_name] = tuple(wrap_invariant(inv) for inv in invariants) class _CheckedTypeMeta(type): def __new__(mcs, name, bases, dct): _store_types(dct, bases, '_checked_types', '__type__') store_invariants(dct, bases, '_checked_invariants', '__invariant__') def default_serializer(self, _, value): if isinstance(value, CheckedType): return value.serialize() return value dct.setdefault('__serializer__', default_serializer) dct['__slots__'] = () return super(_CheckedTypeMeta, mcs).__new__(mcs, name, bases, dct) class CheckedTypeError(TypeError): def __init__(self, source_class, expected_types, actual_type, actual_value, *args, **kwargs): super(CheckedTypeError, self).__init__(*args, **kwargs) self.source_class = source_class self.expected_types = expected_types self.actual_type = actual_type self.actual_value = actual_value class CheckedKeyTypeError(CheckedTypeError): """ Raised when trying to set a value using a key with a type that doesn't match the declared type. Attributes: source_class -- The class of the collection expected_types -- Allowed types actual_type -- The non matching type actual_value -- Value of the variable with the non matching type """ pass class CheckedValueTypeError(CheckedTypeError): """ Raised when trying to set a value using a key with a type that doesn't match the declared type. Attributes: source_class -- The class of the collection expected_types -- Allowed types actual_type -- The non matching type actual_value -- Value of the variable with the non matching type """ pass def _get_class(type_name): module_name, class_name = type_name.rsplit('.', 1) module = __import__(module_name, fromlist=[class_name]) return getattr(module, class_name) def get_type(typ): if isinstance(typ, type): return typ return _get_class(typ) def get_types(typs): return [get_type(typ) for typ in typs] def _check_types(it, expected_types, source_class, exception_type=CheckedValueTypeError): if expected_types: for e in it: if not any(isinstance(e, get_type(t)) for t in expected_types): actual_type = type(e) msg = "Type {source_class} can only be used with {expected_types}, not {actual_type}".format( source_class=source_class.__name__, expected_types=tuple(get_type(et).__name__ for et in expected_types), actual_type=actual_type.__name__) raise exception_type(source_class, expected_types, actual_type, e, msg) def _invariant_errors(elem, invariants): return [data for valid, data in (invariant(elem) for invariant in invariants) if not valid] def _invariant_errors_iterable(it, invariants): return sum([_invariant_errors(elem, invariants) for elem in it], []) def optional(*typs): """ Convenience function to specify that a value may be of any of the types in type 'typs' or None """ return tuple(typs) + (type(None),) def _checked_type_create(cls, source_data, _factory_fields=None, ignore_extra=False): if isinstance(source_data, cls): return source_data # Recursively apply create methods of checked types if the types of the supplied data # does not match any of the valid types. types = get_types(cls._checked_types) checked_type = next((t for t in types if issubclass(t, CheckedType)), None) if checked_type: return cls([checked_type.create(data, ignore_extra=ignore_extra) if not any(isinstance(data, t) for t in types) else data for data in source_data]) return cls(source_data) @six.add_metaclass(_CheckedTypeMeta) class CheckedPVector(PythonPVector, CheckedType): """ A CheckedPVector is a PVector which allows specifying type and invariant checks. >>> class Positives(CheckedPVector): ... __type__ = (long, int) ... __invariant__ = lambda n: (n >= 0, 'Negative') ... >>> Positives([1, 2, 3]) Positives([1, 2, 3]) """ __slots__ = () def __new__(cls, initial=()): if type(initial) == PythonPVector: return super(CheckedPVector, cls).__new__(cls, initial._count, initial._shift, initial._root, initial._tail) return CheckedPVector.Evolver(cls, python_pvector()).extend(initial).persistent() def set(self, key, value): return self.evolver().set(key, value).persistent() def append(self, val): return self.evolver().append(val).persistent() def extend(self, it): return self.evolver().extend(it).persistent() create = classmethod(_checked_type_create) def serialize(self, format=None): serializer = self.__serializer__ return list(serializer(format, v) for v in self) def __reduce__(self): # Pickling support return _restore_pickle, (self.__class__, list(self),) class Evolver(PythonPVector.Evolver): __slots__ = ('_destination_class', '_invariant_errors') def __init__(self, destination_class, vector): super(CheckedPVector.Evolver, self).__init__(vector) self._destination_class = destination_class self._invariant_errors = [] def _check(self, it): _check_types(it, self._destination_class._checked_types, self._destination_class) error_data = _invariant_errors_iterable(it, self._destination_class._checked_invariants) self._invariant_errors.extend(error_data) def __setitem__(self, key, value): self._check([value]) return super(CheckedPVector.Evolver, self).__setitem__(key, value) def append(self, elem): self._check([elem]) return super(CheckedPVector.Evolver, self).append(elem) def extend(self, it): it = list(it) self._check(it) return super(CheckedPVector.Evolver, self).extend(it) def persistent(self): if self._invariant_errors: raise InvariantException(error_codes=self._invariant_errors) result = self._orig_pvector if self.is_dirty() or (self._destination_class != type(self._orig_pvector)): pv = super(CheckedPVector.Evolver, self).persistent().extend(self._extra_tail) result = self._destination_class(pv) self._reset(result) return result def __repr__(self): return self.__class__.__name__ + "({0})".format(self.tolist()) __str__ = __repr__ def evolver(self): return CheckedPVector.Evolver(self.__class__, self) @six.add_metaclass(_CheckedTypeMeta) class CheckedPSet(PSet, CheckedType): """ A CheckedPSet is a PSet which allows specifying type and invariant checks. >>> class Positives(CheckedPSet): ... __type__ = (long, int) ... __invariant__ = lambda n: (n >= 0, 'Negative') ... >>> Positives([1, 2, 3]) Positives([1, 2, 3]) """ __slots__ = () def __new__(cls, initial=()): if type(initial) is PMap: return super(CheckedPSet, cls).__new__(cls, initial) evolver = CheckedPSet.Evolver(cls, pset()) for e in initial: evolver.add(e) return evolver.persistent() def __repr__(self): return self.__class__.__name__ + super(CheckedPSet, self).__repr__()[4:] def __str__(self): return self.__repr__() def serialize(self, format=None): serializer = self.__serializer__ return set(serializer(format, v) for v in self) create = classmethod(_checked_type_create) def __reduce__(self): # Pickling support return _restore_pickle, (self.__class__, list(self),) def evolver(self): return CheckedPSet.Evolver(self.__class__, self) class Evolver(PSet._Evolver): __slots__ = ('_destination_class', '_invariant_errors') def __init__(self, destination_class, original_set): super(CheckedPSet.Evolver, self).__init__(original_set) self._destination_class = destination_class self._invariant_errors = [] def _check(self, it): _check_types(it, self._destination_class._checked_types, self._destination_class) error_data = _invariant_errors_iterable(it, self._destination_class._checked_invariants) self._invariant_errors.extend(error_data) def add(self, element): self._check([element]) self._pmap_evolver[element] = True return self def persistent(self): if self._invariant_errors: raise InvariantException(error_codes=self._invariant_errors) if self.is_dirty() or self._destination_class != type(self._original_pset): return self._destination_class(self._pmap_evolver.persistent()) return self._original_pset class _CheckedMapTypeMeta(type): def __new__(mcs, name, bases, dct): _store_types(dct, bases, '_checked_key_types', '__key_type__') _store_types(dct, bases, '_checked_value_types', '__value_type__') store_invariants(dct, bases, '_checked_invariants', '__invariant__') def default_serializer(self, _, key, value): sk = key if isinstance(key, CheckedType): sk = key.serialize() sv = value if isinstance(value, CheckedType): sv = value.serialize() return sk, sv dct.setdefault('__serializer__', default_serializer) dct['__slots__'] = () return super(_CheckedMapTypeMeta, mcs).__new__(mcs, name, bases, dct) # Marker object _UNDEFINED_CHECKED_PMAP_SIZE = object() @six.add_metaclass(_CheckedMapTypeMeta) class CheckedPMap(PMap, CheckedType): """ A CheckedPMap is a PMap which allows specifying type and invariant checks. >>> class IntToFloatMap(CheckedPMap): ... __key_type__ = int ... __value_type__ = float ... __invariant__ = lambda k, v: (int(v) == k, 'Invalid mapping') ... >>> IntToFloatMap({1: 1.5, 2: 2.25}) IntToFloatMap({1: 1.5, 2: 2.25}) """ __slots__ = () def __new__(cls, initial={}, size=_UNDEFINED_CHECKED_PMAP_SIZE): if size is not _UNDEFINED_CHECKED_PMAP_SIZE: return super(CheckedPMap, cls).__new__(cls, size, initial) evolver = CheckedPMap.Evolver(cls, pmap()) for k, v in initial.items(): evolver.set(k, v) return evolver.persistent() def evolver(self): return CheckedPMap.Evolver(self.__class__, self) def __repr__(self): return self.__class__.__name__ + "({0})".format(str(dict(self))) __str__ = __repr__ def serialize(self, format=None): serializer = self.__serializer__ return dict(serializer(format, k, v) for k, v in self.items()) @classmethod def create(cls, source_data, _factory_fields=None): if isinstance(source_data, cls): return source_data # Recursively apply create methods of checked types if the types of the supplied data # does not match any of the valid types. key_types = get_types(cls._checked_key_types) checked_key_type = next((t for t in key_types if issubclass(t, CheckedType)), None) value_types = get_types(cls._checked_value_types) checked_value_type = next((t for t in value_types if issubclass(t, CheckedType)), None) if checked_key_type or checked_value_type: return cls(dict((checked_key_type.create(key) if checked_key_type and not any(isinstance(key, t) for t in key_types) else key, checked_value_type.create(value) if checked_value_type and not any(isinstance(value, t) for t in value_types) else value) for key, value in source_data.items())) return cls(source_data) def __reduce__(self): # Pickling support return _restore_pickle, (self.__class__, dict(self),) class Evolver(PMap._Evolver): __slots__ = ('_destination_class', '_invariant_errors') def __init__(self, destination_class, original_map): super(CheckedPMap.Evolver, self).__init__(original_map) self._destination_class = destination_class self._invariant_errors = [] def set(self, key, value): _check_types([key], self._destination_class._checked_key_types, self._destination_class, CheckedKeyTypeError) _check_types([value], self._destination_class._checked_value_types, self._destination_class) self._invariant_errors.extend(data for valid, data in (invariant(key, value) for invariant in self._destination_class._checked_invariants) if not valid) return super(CheckedPMap.Evolver, self).set(key, value) def persistent(self): if self._invariant_errors: raise InvariantException(error_codes=self._invariant_errors) if self.is_dirty() or type(self._original_pmap) != self._destination_class: return self._destination_class(self._buckets_evolver.persistent(), self._size) return self._original_pmap
./Ninja\.