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from enum import Enum | |
from functools import lru_cache | |
from typing import ( | |
Any, | |
Callable, | |
Dict, | |
Optional, | |
Tuple, | |
Type, | |
TypeVar, | |
) | |
from attr import resolve_types, has as attrs_has | |
from ._compat import ( | |
get_origin, | |
is_bare, | |
is_frozenset, | |
is_generic, | |
is_mapping, | |
is_mutable_set, | |
is_sequence, | |
is_tuple, | |
is_union_type, | |
is_annotated, | |
has, | |
fields, | |
has_with_generic, | |
Set, | |
MutableSet, | |
Sequence, | |
MutableSequence, | |
Mapping, | |
MutableMapping, | |
) | |
from .disambiguators import create_uniq_field_dis_func | |
from .dispatch import MultiStrategyDispatch | |
from .gen import ( | |
AttributeOverride, | |
make_dict_structure_fn, | |
make_dict_unstructure_fn, | |
make_iterable_unstructure_fn, | |
make_mapping_unstructure_fn, | |
) | |
from collections import Counter | |
NoneType = type(None) | |
T = TypeVar("T") | |
V = TypeVar("V") | |
class UnstructureStrategy(Enum): | |
"""`attrs` classes unstructuring strategies.""" | |
AS_DICT = "asdict" | |
AS_TUPLE = "astuple" | |
def _subclass(typ): | |
""" a shortcut """ | |
return lambda cls: issubclass(cls, typ) | |
class Converter(object): | |
"""Converts between structured and unstructured data.""" | |
__slots__ = ( | |
"_dis_func_cache", | |
"_unstructure_func", | |
"_unstructure_attrs", | |
"_structure_attrs", | |
"_dict_factory", | |
"_union_struct_registry", | |
"_structure_func", | |
) | |
def __init__( | |
self, | |
dict_factory: Callable[[], Any] = dict, | |
unstruct_strat: UnstructureStrategy = UnstructureStrategy.AS_DICT, | |
) -> None: | |
unstruct_strat = UnstructureStrategy(unstruct_strat) | |
# Create a per-instance cache. | |
if unstruct_strat is UnstructureStrategy.AS_DICT: | |
self._unstructure_attrs = self.unstructure_attrs_asdict | |
self._structure_attrs = self.structure_attrs_fromdict | |
else: | |
self._unstructure_attrs = self.unstructure_attrs_astuple | |
self._structure_attrs = self.structure_attrs_fromtuple | |
self._dis_func_cache = lru_cache()(self._get_dis_func) | |
self._unstructure_func = MultiStrategyDispatch( | |
self._unstructure_identity | |
) | |
self._unstructure_func.register_cls_list( | |
[ | |
(bytes, self._unstructure_identity), | |
(str, self._unstructure_identity), | |
] | |
) | |
self._unstructure_func.register_func_list( | |
[ | |
(is_mapping, self._unstructure_mapping), | |
(is_sequence, self._unstructure_seq), | |
(is_mutable_set, self._unstructure_seq), | |
(is_frozenset, self._unstructure_seq), | |
(_subclass(Enum), self._unstructure_enum), | |
(has, self._unstructure_attrs), | |
(is_union_type, self._unstructure_union), | |
] | |
) | |
# Per-instance register of to-attrs converters. | |
# Singledispatch dispatches based on the first argument, so we | |
# store the function and switch the arguments in self.loads. | |
self._structure_func = MultiStrategyDispatch(self._structure_default) | |
self._structure_func.register_func_list( | |
[ | |
(is_sequence, self._structure_list), | |
(is_mutable_set, self._structure_set), | |
(is_frozenset, self._structure_frozenset), | |
(is_tuple, self._structure_tuple), | |
(is_mapping, self._structure_dict), | |
(is_union_type, self._structure_union), | |
(has, self._structure_attrs), | |
] | |
) | |
# Strings are sequences. | |
self._structure_func.register_cls_list( | |
[ | |
( | |
str, | |
self._structure_call, | |
), | |
(bytes, self._structure_call), | |
(int, self._structure_call), | |
(float, self._structure_call), | |
(Enum, self._structure_call), | |
] | |
) | |
self._dict_factory = dict_factory | |
# Unions are instances now, not classes. We use different registries. | |
self._union_struct_registry: Dict[ | |
Any, Callable[[Any, Type[T]], T] | |
] = {} | |
def unstructure(self, obj: Any, unstructure_as=None) -> Any: | |
return self._unstructure_func.dispatch( | |
obj.__class__ if unstructure_as is None else unstructure_as | |
)(obj) | |
def unstruct_strat(self) -> UnstructureStrategy: | |
"""The default way of unstructuring ``attrs`` classes.""" | |
return ( | |
UnstructureStrategy.AS_DICT | |
if self._unstructure_attrs == self.unstructure_attrs_asdict | |
else UnstructureStrategy.AS_TUPLE | |
) | |
def register_unstructure_hook( | |
self, cls: Any, func: Callable[[T], Any] | |
) -> None: | |
"""Register a class-to-primitive converter function for a class. | |
The converter function should take an instance of the class and return | |
its Python equivalent. | |
""" | |
if attrs_has(cls): | |
resolve_types(cls) | |
if is_union_type(cls): | |
self._unstructure_func.register_func_list( | |
[(lambda t: t == cls, func)] | |
) | |
else: | |
self._unstructure_func.register_cls_list([(cls, func)]) | |
def register_unstructure_hook_func( | |
self, check_func: Callable[[Any], bool], func: Callable[[T], Any] | |
): | |
"""Register a class-to-primitive converter function for a class, using | |
a function to check if it's a match. | |
""" | |
self._unstructure_func.register_func_list([(check_func, func)]) | |
def register_structure_hook( | |
self, cl: Any, func: Callable[[Any, Type[T]], T] | |
): | |
"""Register a primitive-to-class converter function for a type. | |
The converter function should take two arguments: | |
* a Python object to be converted, | |
* the type to convert to | |
and return the instance of the class. The type may seem redundant, but | |
is sometimes needed (for example, when dealing with generic classes). | |
""" | |
if attrs_has(cl): | |
resolve_types(cl) | |
if is_union_type(cl): | |
self._union_struct_registry[cl] = func | |
else: | |
self._structure_func.register_cls_list([(cl, func)]) | |
def register_structure_hook_func( | |
self, | |
check_func: Callable[[Type[T]], bool], | |
func: Callable[[Any, Type[T]], T], | |
): | |
"""Register a class-to-primitive converter function for a class, using | |
a function to check if it's a match. | |
""" | |
self._structure_func.register_func_list([(check_func, func)]) | |
def structure(self, obj: Any, cl: Type[T]) -> T: | |
"""Convert unstructured Python data structures to structured data.""" | |
return self._structure_func.dispatch(cl)(obj, cl) | |
# Classes to Python primitives. | |
def unstructure_attrs_asdict(self, obj) -> Dict[str, Any]: | |
"""Our version of `attrs.asdict`, so we can call back to us.""" | |
attrs = fields(obj.__class__) | |
dispatch = self._unstructure_func.dispatch | |
rv = self._dict_factory() | |
for a in attrs: | |
name = a.name | |
v = getattr(obj, name) | |
rv[name] = dispatch(a.type or v.__class__)(v) | |
return rv | |
def unstructure_attrs_astuple(self, obj) -> Tuple[Any, ...]: | |
"""Our version of `attrs.astuple`, so we can call back to us.""" | |
attrs = fields(obj.__class__) | |
dispatch = self._unstructure_func.dispatch | |
res = list() | |
for a in attrs: | |
name = a.name | |
v = getattr(obj, name) | |
res.append(dispatch(a.type or v.__class__)(v)) | |
return tuple(res) | |
def _unstructure_enum(self, obj): | |
"""Convert an enum to its value.""" | |
return obj.value | |
def _unstructure_identity(self, obj): | |
"""Just pass it through.""" | |
return obj | |
def _unstructure_seq(self, seq): | |
"""Convert a sequence to primitive equivalents.""" | |
# We can reuse the sequence class, so tuples stay tuples. | |
dispatch = self._unstructure_func.dispatch | |
return seq.__class__(dispatch(e.__class__)(e) for e in seq) | |
def _unstructure_mapping(self, mapping): | |
"""Convert a mapping of attr classes to primitive equivalents.""" | |
# We can reuse the mapping class, so dicts stay dicts and OrderedDicts | |
# stay OrderedDicts. | |
dispatch = self._unstructure_func.dispatch | |
return mapping.__class__( | |
(dispatch(k.__class__)(k), dispatch(v.__class__)(v)) | |
for k, v in mapping.items() | |
) | |
def _unstructure_union(self, obj): | |
""" | |
Unstructure an object as a union. | |
By default, just unstructures the instance. | |
""" | |
return self._unstructure_func.dispatch(obj.__class__)(obj) | |
# Python primitives to classes. | |
def _structure_default(self, obj, cl): | |
"""This is the fallthrough case. Everything is a subclass of `Any`. | |
A special condition here handles ``attrs`` classes. | |
Bare optionals end here too (optionals with arguments are unions.) We | |
treat bare optionals as Any. | |
""" | |
if cl is Any or cl is Optional or cl is None: | |
return obj | |
if is_generic(cl): | |
fn = make_dict_structure_fn(cl, self) | |
self.register_structure_hook(cl, fn) | |
return fn(obj) | |
# We don't know what this is, so we complain loudly. | |
msg = ( | |
"Unsupported type: {0}. Register a structure hook for " | |
"it.".format(cl) | |
) | |
raise ValueError(msg) | |
def _structure_call(obj, cl): | |
"""Just call ``cl`` with the given ``obj``. | |
This is just an optimization on the ``_structure_default`` case, when | |
we know we can skip the ``if`` s. Use for ``str``, ``bytes``, ``enum``, | |
etc. | |
""" | |
return cl(obj) | |
# Attrs classes. | |
def structure_attrs_fromtuple( | |
self, obj: Tuple[Any, ...], cl: Type[T] | |
) -> T: | |
"""Load an attrs class from a sequence (tuple).""" | |
conv_obj = [] # A list of converter parameters. | |
for a, value in zip(fields(cl), obj): # type: ignore | |
# We detect the type by the metadata. | |
converted = self._structure_attr_from_tuple(a, a.name, value) | |
conv_obj.append(converted) | |
return cl(*conv_obj) # type: ignore | |
def _structure_attr_from_tuple(self, a, _, value): | |
"""Handle an individual attrs attribute.""" | |
type_ = a.type | |
if type_ is None: | |
# No type metadata. | |
return value | |
return self._structure_func.dispatch(type_)(value, type_) | |
def structure_attrs_fromdict( | |
self, obj: Mapping[str, Any], cl: Type[T] | |
) -> T: | |
"""Instantiate an attrs class from a mapping (dict).""" | |
# For public use. | |
conv_obj = {} # Start with a fresh dict, to ignore extra keys. | |
dispatch = self._structure_func.dispatch | |
for a in fields(cl): # type: ignore | |
# We detect the type by metadata. | |
type_ = a.type | |
name = a.name | |
try: | |
val = obj[name] | |
except KeyError: | |
continue | |
if name[0] == "_": | |
name = name[1:] | |
conv_obj[name] = ( | |
dispatch(type_)(val, type_) if type_ is not None else val | |
) | |
return cl(**conv_obj) # type: ignore | |
def _structure_list(self, obj, cl): | |
"""Convert an iterable to a potentially generic list.""" | |
if is_bare(cl) or cl.__args__[0] is Any: | |
return [e for e in obj] | |
else: | |
elem_type = cl.__args__[0] | |
return [ | |
self._structure_func.dispatch(elem_type)(e, elem_type) | |
for e in obj | |
] | |
def _structure_set(self, obj, cl): | |
"""Convert an iterable into a potentially generic set.""" | |
if is_bare(cl) or cl.__args__[0] is Any: | |
return set(obj) | |
else: | |
elem_type = cl.__args__[0] | |
return { | |
self._structure_func.dispatch(elem_type)(e, elem_type) | |
for e in obj | |
} | |
def _structure_frozenset(self, obj, cl): | |
"""Convert an iterable into a potentially generic frozenset.""" | |
if is_bare(cl) or cl.__args__[0] is Any: | |
return frozenset(obj) | |
else: | |
elem_type = cl.__args__[0] | |
dispatch = self._structure_func.dispatch | |
return frozenset(dispatch(elem_type)(e, elem_type) for e in obj) | |
def _structure_dict(self, obj, cl): | |
"""Convert a mapping into a potentially generic dict.""" | |
if is_bare(cl) or cl.__args__ == (Any, Any): | |
return dict(obj) | |
else: | |
key_type, val_type = cl.__args__ | |
if key_type is Any: | |
val_conv = self._structure_func.dispatch(val_type) | |
return {k: val_conv(v, val_type) for k, v in obj.items()} | |
elif val_type is Any: | |
key_conv = self._structure_func.dispatch(key_type) | |
return {key_conv(k, key_type): v for k, v in obj.items()} | |
else: | |
key_conv = self._structure_func.dispatch(key_type) | |
val_conv = self._structure_func.dispatch(val_type) | |
return { | |
key_conv(k, key_type): val_conv(v, val_type) | |
for k, v in obj.items() | |
} | |
def _structure_union(self, obj, union): | |
"""Deal with converting a union.""" | |
# Unions with NoneType in them are basically optionals. | |
# We check for NoneType early and handle the case of obj being None, | |
# so disambiguation functions don't need to handle NoneType. | |
union_params = union.__args__ | |
if NoneType in union_params: # type: ignore | |
if obj is None: | |
return None | |
if len(union_params) == 2: | |
# This is just a NoneType and something else. | |
other = ( | |
union_params[0] | |
if union_params[1] is NoneType # type: ignore | |
else union_params[1] | |
) | |
# We can't actually have a Union of a Union, so this is safe. | |
return self._structure_func.dispatch(other)(obj, other) | |
# Check the union registry first. | |
handler = self._union_struct_registry.get(union) | |
if handler is not None: | |
return handler(obj, union) | |
# Getting here means either this is not an optional, or it's an | |
# optional with more than one parameter. | |
# Let's support only unions of attr classes for now. | |
cl = self._dis_func_cache(union)(obj) | |
return self._structure_func.dispatch(cl)(obj, cl) | |
def _structure_tuple(self, obj, tup: Type[T]): | |
"""Deal with converting to a tuple.""" | |
if tup in (Tuple, tuple): | |
tup_params = None | |
else: | |
tup_params = tup.__args__ | |
has_ellipsis = tup_params and tup_params[-1] is Ellipsis | |
if tup_params is None or (has_ellipsis and tup_params[0] is Any): | |
# Just a Tuple. (No generic information.) | |
return tuple(obj) | |
if has_ellipsis: | |
# We're dealing with a homogenous tuple, Tuple[int, ...] | |
tup_type = tup_params[0] | |
conv = self._structure_func.dispatch(tup_type) | |
return tuple(conv(e, tup_type) for e in obj) | |
else: | |
# We're dealing with a heterogenous tuple. | |
return tuple( | |
self._structure_func.dispatch(t)(e, t) | |
for t, e in zip(tup_params, obj) | |
) | |
def _get_dis_func(union): | |
# type: (Type) -> Callable[..., Type] | |
"""Fetch or try creating a disambiguation function for a union.""" | |
union_types = union.__args__ | |
if NoneType in union_types: # type: ignore | |
# We support unions of attrs classes and NoneType higher in the | |
# logic. | |
union_types = tuple( | |
e for e in union_types if e is not NoneType # type: ignore | |
) | |
if not all(has(get_origin(e) or e) for e in union_types): | |
raise ValueError( | |
"Only unions of attr classes supported " | |
"currently. Register a loads hook manually." | |
) | |
return create_uniq_field_dis_func(*union_types) | |
class GenConverter(Converter): | |
"""A converter which generates specialized un/structuring functions.""" | |
__slots__ = ( | |
"omit_if_default", | |
"forbid_extra_keys", | |
"type_overrides", | |
"_unstruct_collection_overrides", | |
) | |
def __init__( | |
self, | |
dict_factory: Callable[[], Any] = dict, | |
unstruct_strat: UnstructureStrategy = UnstructureStrategy.AS_DICT, | |
omit_if_default: bool = False, | |
forbid_extra_keys: bool = False, | |
type_overrides: Mapping[Type, AttributeOverride] = {}, | |
unstruct_collection_overrides: Mapping[Type, Callable] = {}, | |
): | |
super().__init__( | |
dict_factory=dict_factory, unstruct_strat=unstruct_strat | |
) | |
self.omit_if_default = omit_if_default | |
self.forbid_extra_keys = forbid_extra_keys | |
self.type_overrides = dict(type_overrides) | |
self._unstruct_collection_overrides = unstruct_collection_overrides | |
# Do a little post-processing magic to make things easier for users. | |
co = unstruct_collection_overrides | |
# abc.Set overrides, if defined, apply to abc.MutableSets and sets | |
if Set in co: | |
if MutableSet not in co: | |
co[MutableSet] = co[Set] | |
# abc.MutableSet overrrides, if defined, apply to sets | |
if MutableSet in co: | |
if set not in co: | |
co[set] = co[MutableSet] | |
# abc.Sequence overrides, if defined, can apply to MutableSequences, lists and tuples | |
if Sequence in co: | |
if MutableSequence not in co: | |
co[MutableSequence] = co[Sequence] | |
if tuple not in co: | |
co[tuple] = co[Sequence] | |
# abc.MutableSequence overrides, if defined, can apply to lists | |
if MutableSequence in co: | |
if list not in co: | |
co[list] = co[MutableSequence] | |
# abc.Mapping overrides, if defined, can apply to MutableMappings | |
if Mapping in co: | |
if MutableMapping not in co: | |
co[MutableMapping] = co[Mapping] | |
# abc.MutableMapping overrides, if defined, can apply to dicts | |
if MutableMapping in co: | |
if dict not in co: | |
co[dict] = co[MutableMapping] | |
# builtins.dict overrides, if defined, can apply to counters | |
if dict in co: | |
if Counter not in co: | |
co[Counter] = co[dict] | |
if unstruct_strat is UnstructureStrategy.AS_DICT: | |
# Override the attrs handler. | |
self._unstructure_func.register_func_list( | |
[ | |
( | |
has_with_generic, | |
self.gen_unstructure_attrs_fromdict, | |
True, | |
), | |
] | |
) | |
self._structure_func.register_func_list( | |
[ | |
(has, self.gen_structure_attrs_fromdict, True), | |
] | |
) | |
self._unstructure_func.register_func_list( | |
[ | |
(is_annotated, self.gen_unstructure_annotated, True), | |
( | |
is_sequence, | |
self.gen_unstructure_iterable, | |
True, | |
), | |
(is_mapping, self.gen_unstructure_mapping, True), | |
( | |
is_mutable_set, | |
lambda cl: self.gen_unstructure_iterable( | |
cl, unstructure_to=set | |
), | |
True, | |
), | |
( | |
is_frozenset, | |
lambda cl: self.gen_unstructure_iterable( | |
cl, unstructure_to=frozenset | |
), | |
True, | |
), | |
] | |
) | |
self._structure_func.register_func_list( | |
[(is_annotated, self.gen_structure_annotated, True)] | |
) | |
def gen_unstructure_annotated(self, type): | |
origin = type.__origin__ | |
h = self._unstructure_func.dispatch(origin) | |
return h | |
def gen_structure_annotated(self, type): | |
origin = type.__origin__ | |
h = self._structure_func.dispatch(origin) | |
return h | |
def gen_unstructure_attrs_fromdict(self, cl: Type[T]) -> Dict[str, Any]: | |
origin = get_origin(cl) | |
if origin is not None: | |
cl = origin | |
attribs = fields(cl) | |
if any(isinstance(a.type, str) for a in attribs): | |
# PEP 563 annotations - need to be resolved. | |
resolve_types(cl) | |
attrib_overrides = { | |
a.name: self.type_overrides[a.type] | |
for a in attribs | |
if a.type in self.type_overrides | |
} | |
h = make_dict_unstructure_fn( | |
cl, self, omit_if_default=self.omit_if_default, **attrib_overrides | |
) | |
self._unstructure_func.register_cls_list([(cl, h)], direct=True) | |
return h | |
def gen_structure_attrs_fromdict(self, cl: Type[T]) -> T: | |
attribs = fields(cl) | |
if any(isinstance(a.type, str) for a in attribs): | |
# PEP 563 annotations - need to be resolved. | |
resolve_types(cl) | |
attrib_overrides = { | |
a.name: self.type_overrides[a.type] | |
for a in attribs | |
if a.type in self.type_overrides | |
} | |
h = make_dict_structure_fn( | |
cl, | |
self, | |
_cattrs_forbid_extra_keys=self.forbid_extra_keys, | |
**attrib_overrides | |
) | |
self._structure_func.register_cls_list([(cl, h)], direct=True) | |
# only direct dispatch so that subclasses get separately generated | |
return h | |
def gen_unstructure_iterable(self, cl: Any, unstructure_to=None): | |
unstructure_to = self._unstruct_collection_overrides.get( | |
get_origin(cl) or cl, unstructure_to or list | |
) | |
h = make_iterable_unstructure_fn( | |
cl, self, unstructure_to=unstructure_to | |
) | |
self._unstructure_func.register_cls_list([(cl, h)], direct=True) | |
return h | |
def gen_unstructure_mapping(self, cl: Any, unstructure_to=None): | |
unstructure_to = self._unstruct_collection_overrides.get( | |
get_origin(cl) or cl, unstructure_to or dict | |
) | |
h = make_mapping_unstructure_fn( | |
cl, self, unstructure_to=unstructure_to | |
) | |
self._unstructure_func.register_cls_list([(cl, h)], direct=True) | |
return h | |