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from __future__ import annotations
import collections
from collections.abc import Iterable
import textwrap
from typing import Any
from typing import Callable
from typing import cast
from typing import Dict
from typing import List
from typing import Mapping
from typing import MutableMapping
from typing import NoReturn
from typing import Optional
from typing import overload
from typing import Sequence
from typing import Set
from typing import Tuple
from typing import Type
from typing import TYPE_CHECKING
from typing import TypeVar
from typing import Union
import uuid
import warnings
from sqlalchemy.util import asbool as asbool # noqa: F401
from sqlalchemy.util import immutabledict as immutabledict # noqa: F401
from sqlalchemy.util import to_list as to_list # noqa: F401
from sqlalchemy.util import unique_list as unique_list
from .compat import inspect_getfullargspec
if True:
# zimports workaround :(
from sqlalchemy.util import ( # noqa: F401
memoized_property as memoized_property,
)
EMPTY_DICT: Mapping[Any, Any] = immutabledict()
_T = TypeVar("_T", bound=Any)
_C = TypeVar("_C", bound=Callable[..., Any])
class _ModuleClsMeta(type):
def __setattr__(cls, key: str, value: Callable[..., Any]) -> None:
super().__setattr__(key, value)
cls._update_module_proxies(key) # type: ignore
class ModuleClsProxy(metaclass=_ModuleClsMeta):
"""Create module level proxy functions for the
methods on a given class.
The functions will have a compatible signature
as the methods.
"""
_setups: Dict[
Type[Any],
Tuple[
Set[str],
List[Tuple[MutableMapping[str, Any], MutableMapping[str, Any]]],
],
] = collections.defaultdict(lambda: (set(), []))
@classmethod
def _update_module_proxies(cls, name: str) -> None:
attr_names, modules = cls._setups[cls]
for globals_, locals_ in modules:
cls._add_proxied_attribute(name, globals_, locals_, attr_names)
def _install_proxy(self) -> None:
attr_names, modules = self._setups[self.__class__]
for globals_, locals_ in modules:
globals_["_proxy"] = self
for attr_name in attr_names:
globals_[attr_name] = getattr(self, attr_name)
def _remove_proxy(self) -> None:
attr_names, modules = self._setups[self.__class__]
for globals_, locals_ in modules:
globals_["_proxy"] = None
for attr_name in attr_names:
del globals_[attr_name]
@classmethod
def create_module_class_proxy(
cls,
globals_: MutableMapping[str, Any],
locals_: MutableMapping[str, Any],
) -> None:
attr_names, modules = cls._setups[cls]
modules.append((globals_, locals_))
cls._setup_proxy(globals_, locals_, attr_names)
@classmethod
def _setup_proxy(
cls,
globals_: MutableMapping[str, Any],
locals_: MutableMapping[str, Any],
attr_names: Set[str],
) -> None:
for methname in dir(cls):
cls._add_proxied_attribute(methname, globals_, locals_, attr_names)
@classmethod
def _add_proxied_attribute(
cls,
methname: str,
globals_: MutableMapping[str, Any],
locals_: MutableMapping[str, Any],
attr_names: Set[str],
) -> None:
if not methname.startswith("_"):
meth = getattr(cls, methname)
if callable(meth):
locals_[methname] = cls._create_method_proxy(
methname, globals_, locals_
)
else:
attr_names.add(methname)
@classmethod
def _create_method_proxy(
cls,
name: str,
globals_: MutableMapping[str, Any],
locals_: MutableMapping[str, Any],
) -> Callable[..., Any]:
fn = getattr(cls, name)
def _name_error(name: str, from_: Exception) -> NoReturn:
raise NameError(
"Can't invoke function '%s', as the proxy object has "
"not yet been "
"established for the Alembic '%s' class. "
"Try placing this code inside a callable."
% (name, cls.__name__)
) from from_
globals_["_name_error"] = _name_error
translations = getattr(fn, "_legacy_translations", [])
if translations:
spec = inspect_getfullargspec(fn)
if spec[0] and spec[0][0] == "self":
spec[0].pop(0)
outer_args = inner_args = "*args, **kw"
translate_str = "args, kw = _translate(%r, %r, %r, args, kw)" % (
fn.__name__,
tuple(spec),
translations,
)
def translate(
fn_name: str, spec: Any, translations: Any, args: Any, kw: Any
) -> Any:
return_kw = {}
return_args = []
for oldname, newname in translations:
if oldname in kw:
warnings.warn(
"Argument %r is now named %r "
"for method %s()." % (oldname, newname, fn_name)
)
return_kw[newname] = kw.pop(oldname)
return_kw.update(kw)
args = list(args)
if spec[3]:
pos_only = spec[0][: -len(spec[3])]
else:
pos_only = spec[0]
for arg in pos_only:
if arg not in return_kw:
try:
return_args.append(args.pop(0))
except IndexError:
raise TypeError(
"missing required positional argument: %s"
% arg
)
return_args.extend(args)
return return_args, return_kw
globals_["_translate"] = translate
else:
outer_args = "*args, **kw"
inner_args = "*args, **kw"
translate_str = ""
func_text = textwrap.dedent(
"""\
def %(name)s(%(args)s):
%(doc)r
%(translate)s
try:
p = _proxy
except NameError as ne:
_name_error('%(name)s', ne)
return _proxy.%(name)s(%(apply_kw)s)
e
"""
% {
"name": name,
"translate": translate_str,
"args": outer_args,
"apply_kw": inner_args,
"doc": fn.__doc__,
}
)
lcl: MutableMapping[str, Any] = {}
exec(func_text, cast("Dict[str, Any]", globals_), lcl)
return cast("Callable[..., Any]", lcl[name])
def _with_legacy_names(translations: Any) -> Any:
def decorate(fn: _C) -> _C:
fn._legacy_translations = translations # type: ignore[attr-defined]
return fn
return decorate
def rev_id() -> str:
return uuid.uuid4().hex[-12:]
@overload
def to_tuple(x: Any, default: Tuple[Any, ...]) -> Tuple[Any, ...]: ...
@overload
def to_tuple(x: None, default: Optional[_T] = ...) -> _T: ...
@overload
def to_tuple(
x: Any, default: Optional[Tuple[Any, ...]] = None
) -> Tuple[Any, ...]: ...
def to_tuple(
x: Any, default: Optional[Tuple[Any, ...]] = None
) -> Optional[Tuple[Any, ...]]:
if x is None:
return default
elif isinstance(x, str):
return (x,)
elif isinstance(x, Iterable):
return tuple(x)
else:
return (x,)
def dedupe_tuple(tup: Tuple[str, ...]) -> Tuple[str, ...]:
return tuple(unique_list(tup))
class Dispatcher:
def __init__(self, uselist: bool = False) -> None:
self._registry: Dict[Tuple[Any, ...], Any] = {}
self.uselist = uselist
def dispatch_for(
self, target: Any, qualifier: str = "default"
) -> Callable[[_C], _C]:
def decorate(fn: _C) -> _C:
if self.uselist:
self._registry.setdefault((target, qualifier), []).append(fn)
else:
assert (target, qualifier) not in self._registry
self._registry[(target, qualifier)] = fn
return fn
return decorate
def dispatch(self, obj: Any, qualifier: str = "default") -> Any:
if isinstance(obj, str):
targets: Sequence[Any] = [obj]
elif isinstance(obj, type):
targets = obj.__mro__
else:
targets = type(obj).__mro__
for spcls in targets:
if qualifier != "default" and (spcls, qualifier) in self._registry:
return self._fn_or_list(self._registry[(spcls, qualifier)])
elif (spcls, "default") in self._registry:
return self._fn_or_list(self._registry[(spcls, "default")])
else:
raise ValueError("no dispatch function for object: %s" % obj)
def _fn_or_list(
self, fn_or_list: Union[List[Callable[..., Any]], Callable[..., Any]]
) -> Callable[..., Any]:
if self.uselist:
def go(*arg: Any, **kw: Any) -> None:
if TYPE_CHECKING:
assert isinstance(fn_or_list, Sequence)
for fn in fn_or_list:
fn(*arg, **kw)
return go
else:
return fn_or_list # type: ignore
def branch(self) -> Dispatcher:
"""Return a copy of this dispatcher that is independently
writable."""
d = Dispatcher()
if self.uselist:
d._registry.update(
(k, [fn for fn in self._registry[k]]) for k in self._registry
)
else:
d._registry.update(self._registry)
return d
def not_none(value: Optional[_T]) -> _T:
assert value is not None
return value