"""Wiring module.""" import asyncio import functools import inspect import importlib import importlib.machinery import pkgutil import warnings import sys from types import ModuleType from typing import ( Optional, Iterable, Iterator, Callable, Any, Tuple, Dict, Generic, TypeVar, Type, Union, Set, cast, ) if sys.version_info < (3, 7): from typing import GenericMeta else: class GenericMeta(type): ... # Hotfix, see: https://github.com/ets-labs/python-dependency-injector/issues/362 if sys.version_info >= (3, 9): from types import GenericAlias else: GenericAlias = None try: import fastapi.params except ImportError: fastapi = None try: import starlette.requests except ImportError: starlette = None try: import werkzeug.local except ImportError: werkzeug = None from . import providers if sys.version_info[:2] == (3, 5): warnings.warn( "Dependency Injector will drop support of Python 3.5 after Jan 1st of 2022. " "This does not mean that there will be any immediate breaking changes, " "but tests will no longer be executed on Python 3.5, and bugs will not be addressed.", category=DeprecationWarning, ) __all__ = ( "wire", "unwire", "inject", "as_int", "as_float", "as_", "required", "invariant", "provided", "Provide", "Provider", "Closing", "register_loader_containers", "unregister_loader_containers", "install_loader", "uninstall_loader", "is_loader_installed", ) T = TypeVar("T") F = TypeVar("F", bound=Callable[..., Any]) Container = Any class PatchedRegistry: def __init__(self): self._callables: Set[Callable[..., Any]] = set() self._attributes: Set[PatchedAttribute] = set() def add_callable(self, patched: Callable[..., Any]) -> None: self._callables.add(patched) def get_callables_from_module(self, module: ModuleType) -> Iterator[Callable[..., Any]]: for patched in self._callables: if patched.__module__ != module.__name__: continue yield patched def add_attribute(self, patched: "PatchedAttribute"): self._attributes.add(patched) def get_attributes_from_module(self, module: ModuleType) -> Iterator["PatchedAttribute"]: for attribute in self._attributes: if not attribute.is_in_module(module): continue yield attribute def clear_module_attributes(self, module: ModuleType): for attribute in self._attributes.copy(): if not attribute.is_in_module(module): continue self._attributes.remove(attribute) class PatchedAttribute: def __init__(self, member: Any, name: str, marker: "_Marker"): self.member = member self.name = name self.marker = marker @property def module_name(self) -> str: if isinstance(self.member, ModuleType): return self.member.__name__ else: return self.member.__module__ def is_in_module(self, module: ModuleType) -> bool: return self.module_name == module.__name__ class ProvidersMap: CONTAINER_STRING_ID = "" def __init__(self, container): self._container = container self._map = self._create_providers_map( current_container=container, original_container=( container.declarative_parent if container.declarative_parent else container ), ) def resolve_provider( self, provider: Union[providers.Provider, str], modifier: Optional["Modifier"] = None, ) -> Optional[providers.Provider]: if isinstance(provider, providers.Delegate): return self._resolve_delegate(provider) elif isinstance(provider, ( providers.ProvidedInstance, providers.AttributeGetter, providers.ItemGetter, providers.MethodCaller, )): return self._resolve_provided_instance(provider) elif isinstance(provider, providers.ConfigurationOption): return self._resolve_config_option(provider) elif isinstance(provider, providers.TypedConfigurationOption): return self._resolve_config_option(provider.option, as_=provider.provides) elif isinstance(provider, str): return self._resolve_string_id(provider, modifier) else: return self._resolve_provider(provider) def _resolve_string_id( self, id: str, modifier: Optional["Modifier"] = None, ) -> Optional[providers.Provider]: if id == self.CONTAINER_STRING_ID: return self._container.__self__ provider = self._container for segment in id.split("."): try: provider = getattr(provider, segment) except AttributeError: return None if modifier: provider = modifier.modify(provider, providers_map=self) return provider def _resolve_provided_instance( self, original: providers.Provider, ) -> Optional[providers.Provider]: modifiers = [] while isinstance(original, ( providers.ProvidedInstance, providers.AttributeGetter, providers.ItemGetter, providers.MethodCaller, )): modifiers.insert(0, original) original = original.provides new = self._resolve_provider(original) if new is None: return None for modifier in modifiers: if isinstance(modifier, providers.ProvidedInstance): new = new.provided elif isinstance(modifier, providers.AttributeGetter): new = getattr(new, modifier.name) elif isinstance(modifier, providers.ItemGetter): new = new[modifier.name] elif isinstance(modifier, providers.MethodCaller): new = new.call( *modifier.args, **modifier.kwargs, ) return new def _resolve_delegate( self, original: providers.Delegate, ) -> Optional[providers.Provider]: provider = self._resolve_provider(original.provides) if provider: provider = provider.provider return provider def _resolve_config_option( self, original: providers.ConfigurationOption, as_: Any = None, ) -> Optional[providers.Provider]: original_root = original.root new = self._resolve_provider(original_root) if new is None: return None new = cast(providers.Configuration, new) for segment in original.get_name_segments(): if providers.is_provider(segment): segment = self.resolve_provider(segment) new = new[segment] else: new = getattr(new, segment) if original.is_required(): new = new.required() if as_: new = new.as_(as_) return new def _resolve_provider( self, original: providers.Provider, ) -> Optional[providers.Provider]: try: return self._map[original] except KeyError: return None @classmethod def _create_providers_map( cls, current_container: Container, original_container: Container, ) -> Dict[providers.Provider, providers.Provider]: current_providers = current_container.providers current_providers["__self__"] = current_container.__self__ original_providers = original_container.providers original_providers["__self__"] = original_container.__self__ providers_map = {} for provider_name, current_provider in current_providers.items(): original_provider = original_providers[provider_name] providers_map[original_provider] = current_provider if isinstance(current_provider, providers.Container) \ and isinstance(original_provider, providers.Container): subcontainer_map = cls._create_providers_map( current_container=current_provider.container, original_container=original_provider.container, ) providers_map.update(subcontainer_map) return providers_map class InspectFilter: def is_excluded(self, instance: object) -> bool: if self._is_werkzeug_local_proxy(instance): return True elif self._is_starlette_request_cls(instance): return True elif self._is_builtin(instance): return True else: return False def _is_werkzeug_local_proxy(self, instance: object) -> bool: return werkzeug and isinstance(instance, werkzeug.local.LocalProxy) def _is_starlette_request_cls(self, instance: object) -> bool: return starlette \ and isinstance(instance, type) \ and _safe_is_subclass(instance, starlette.requests.Request) def _is_builtin(self, instance: object) -> bool: return inspect.isbuiltin(instance) def wire( # noqa: C901 container: Container, *, modules: Optional[Iterable[ModuleType]] = None, packages: Optional[Iterable[ModuleType]] = None, ) -> None: """Wire container providers with provided packages and modules.""" modules = [*modules] if modules else [] if packages: for package in packages: modules.extend(_fetch_modules(package)) providers_map = ProvidersMap(container) for module in modules: for member_name, member in inspect.getmembers(module): if _inspect_filter.is_excluded(member): continue if _is_marker(member): _patch_attribute(module, member_name, member, providers_map) elif inspect.isfunction(member): _patch_fn(module, member_name, member, providers_map) elif inspect.isclass(member): cls = member try: cls_members = inspect.getmembers(cls) except Exception: # noqa # Hotfix, see: https://github.com/ets-labs/python-dependency-injector/issues/441 continue else: for cls_member_name, cls_member in cls_members: if _is_marker(cls_member): _patch_attribute(cls, cls_member_name, cls_member, providers_map) elif _is_method(cls_member): _patch_method(cls, cls_member_name, cls_member, providers_map) for patched in _patched_registry.get_callables_from_module(module): _bind_injections(patched, providers_map) def unwire( # noqa: C901 *, modules: Optional[Iterable[ModuleType]] = None, packages: Optional[Iterable[ModuleType]] = None, ) -> None: """Wire provided packages and modules with previous wired providers.""" modules = [*modules] if modules else [] if packages: for package in packages: modules.extend(_fetch_modules(package)) for module in modules: for name, member in inspect.getmembers(module): if inspect.isfunction(member): _unpatch(module, name, member) elif inspect.isclass(member): for method_name, method in inspect.getmembers(member, inspect.isfunction): _unpatch(member, method_name, method) for patched in _patched_registry.get_callables_from_module(module): _unbind_injections(patched) for patched_attribute in _patched_registry.get_attributes_from_module(module): _unpatch_attribute(patched_attribute) _patched_registry.clear_module_attributes(module) def inject(fn: F) -> F: """Decorate callable with injecting decorator.""" reference_injections, reference_closing = _fetch_reference_injections(fn) patched = _get_patched(fn, reference_injections, reference_closing) _patched_registry.add_callable(patched) return cast(F, patched) def _patch_fn( module: ModuleType, name: str, fn: Callable[..., Any], providers_map: ProvidersMap, ) -> None: if not _is_patched(fn): reference_injections, reference_closing = _fetch_reference_injections(fn) if not reference_injections: return fn = _get_patched(fn, reference_injections, reference_closing) _patched_registry.add_callable(fn) _bind_injections(fn, providers_map) setattr(module, name, fn) def _patch_method( cls: Type, name: str, method: Callable[..., Any], providers_map: ProvidersMap, ) -> None: if hasattr(cls, "__dict__") \ and name in cls.__dict__ \ and isinstance(cls.__dict__[name], (classmethod, staticmethod)): method = cls.__dict__[name] fn = method.__func__ else: fn = method if not _is_patched(fn): reference_injections, reference_closing = _fetch_reference_injections(fn) if not reference_injections: return fn = _get_patched(fn, reference_injections, reference_closing) _patched_registry.add_callable(fn) _bind_injections(fn, providers_map) if isinstance(method, (classmethod, staticmethod)): fn = type(method)(fn) setattr(cls, name, fn) def _unpatch( module: ModuleType, name: str, fn: Callable[..., Any], ) -> None: if hasattr(module, "__dict__") \ and name in module.__dict__ \ and isinstance(module.__dict__[name], (classmethod, staticmethod)): method = module.__dict__[name] fn = method.__func__ if not _is_patched(fn): return _unbind_injections(fn) def _patch_attribute( member: Any, name: str, marker: "_Marker", providers_map: ProvidersMap, ) -> None: provider = providers_map.resolve_provider(marker.provider, marker.modifier) if provider is None: return _patched_registry.add_attribute(PatchedAttribute(member, name, marker)) if isinstance(marker, Provide): instance = provider() setattr(member, name, instance) elif isinstance(marker, Provider): setattr(member, name, provider) else: raise Exception(f"Unknown type of marker {marker}") def _unpatch_attribute(patched: PatchedAttribute) -> None: setattr(patched.member, patched.name, patched.marker) def _fetch_reference_injections( # noqa: C901 fn: Callable[..., Any], ) -> Tuple[Dict[str, Any], Dict[str, Any]]: # Hotfix, see: # - https://github.com/ets-labs/python-dependency-injector/issues/362 # - https://github.com/ets-labs/python-dependency-injector/issues/398 if GenericAlias and any(( fn is GenericAlias, getattr(fn, "__func__", None) is GenericAlias )): fn = fn.__init__ try: signature = inspect.signature(fn) except ValueError as exception: if "no signature found" in str(exception): return {}, {} elif "not supported by signature" in str(exception): return {}, {} else: raise exception injections = {} closing = {} for parameter_name, parameter in signature.parameters.items(): if not isinstance(parameter.default, _Marker) \ and not _is_fastapi_depends(parameter.default): continue marker = parameter.default if _is_fastapi_depends(marker): marker = marker.dependency if not isinstance(marker, _Marker): continue if isinstance(marker, Closing): marker = marker.provider closing[parameter_name] = marker injections[parameter_name] = marker return injections, closing def _bind_injections(fn: Callable[..., Any], providers_map: ProvidersMap) -> None: for injection, marker in fn.__reference_injections__.items(): provider = providers_map.resolve_provider(marker.provider, marker.modifier) if provider is None: continue if isinstance(marker, Provide): fn.__injections__[injection] = provider elif isinstance(marker, Provider): if isinstance(provider, providers.Delegate): fn.__injections__[injection] = provider else: fn.__injections__[injection] = provider.provider if injection in fn.__reference_closing__: fn.__closing__[injection] = provider def _unbind_injections(fn: Callable[..., Any]) -> None: fn.__injections__ = {} fn.__closing__ = {} def _fetch_modules(package): modules = [package] if not hasattr(package, "__path__") or not hasattr(package, "__name__"): return modules for module_info in pkgutil.walk_packages( path=package.__path__, prefix=package.__name__ + ".", ): module = importlib.import_module(module_info.name) modules.append(module) return modules def _is_method(member): return inspect.ismethod(member) or inspect.isfunction(member) def _is_marker(member): return isinstance(member, _Marker) def _get_patched(fn, reference_injections, reference_closing): if inspect.iscoroutinefunction(fn): patched = _get_async_patched(fn) else: patched = _get_sync_patched(fn) patched.__wired__ = True patched.__original__ = fn patched.__injections__ = {} patched.__reference_injections__ = reference_injections patched.__closing__ = {} patched.__reference_closing__ = reference_closing return patched from ._cwiring import _get_sync_patched # def _get_sync_patched(fn): # @functools.wraps(fn) # def _patched(*args, **kwargs): # to_inject = kwargs.copy() # for injection, provider in _patched.__injections__.items(): # if injection not in kwargs \ # or _is_fastapi_default_arg_injection(injection, kwargs): # to_inject[injection] = provider() # # result = fn(*args, **to_inject) # # for injection, provider in _patched.__closing__.items(): # if injection in kwargs \ # and not _is_fastapi_default_arg_injection(injection, kwargs): # continue # if not isinstance(provider, providers.Resource): # continue # provider.shutdown() # # return result # return _patched def _get_async_patched(fn): @functools.wraps(fn) async def _patched(*args, **kwargs): to_inject = kwargs.copy() to_inject_await = [] to_close_await = [] for injection, provider in _patched.__injections__.items(): if injection not in kwargs \ or _is_fastapi_default_arg_injection(injection, kwargs): provide = provider() if inspect.isawaitable(provide): to_inject_await.append((injection, provide)) else: to_inject[injection] = provide async_to_inject = await asyncio.gather(*[provide for _, provide in to_inject_await]) for provide, (injection, _) in zip(async_to_inject, to_inject_await): to_inject[injection] = provide result = await fn(*args, **to_inject) for injection, provider in _patched.__closing__.items(): if injection in kwargs \ and not _is_fastapi_default_arg_injection(injection, kwargs): continue if not isinstance(provider, providers.Resource): continue shutdown = provider.shutdown() if inspect.isawaitable(shutdown): to_close_await.append(shutdown) await asyncio.gather(*to_close_await) return result return _patched def _is_fastapi_default_arg_injection(injection, kwargs): """Check if injection is FastAPI injection of the default argument.""" return injection in kwargs and isinstance(kwargs[injection], _Marker) def _is_fastapi_depends(param: Any) -> bool: return fastapi and isinstance(param, fastapi.params.Depends) def _is_patched(fn): return getattr(fn, "__wired__", False) is True def _is_declarative_container(instance: Any) -> bool: return (isinstance(instance, type) and getattr(instance, "__IS_CONTAINER__", False) is True and getattr(instance, "declarative_parent", None) is None) def _safe_is_subclass(instance: Any, cls: Type) -> bool: try: return issubclass(instance, cls) except TypeError: return False class Modifier: def modify( self, provider: providers.ConfigurationOption, providers_map: ProvidersMap, ) -> providers.Provider: ... class TypeModifier(Modifier): def __init__(self, type_: Type): self.type_ = type_ def modify( self, provider: providers.ConfigurationOption, providers_map: ProvidersMap, ) -> providers.Provider: return provider.as_(self.type_) def as_int() -> TypeModifier: """Return int type modifier.""" return TypeModifier(int) def as_float() -> TypeModifier: """Return float type modifier.""" return TypeModifier(float) def as_(type_: Type) -> TypeModifier: """Return custom type modifier.""" return TypeModifier(type_) class RequiredModifier(Modifier): def __init__(self): self.type_modifier = None def as_int(self) -> "RequiredModifier": self.type_modifier = TypeModifier(int) return self def as_float(self) -> "RequiredModifier": self.type_modifier = TypeModifier(float) return self def as_(self, type_: Type) -> "RequiredModifier": self.type_modifier = TypeModifier(type_) return self def modify( self, provider: providers.ConfigurationOption, providers_map: ProvidersMap, ) -> providers.Provider: provider = provider.required() if self.type_modifier: provider = provider.as_(self.type_modifier.type_) return provider def required() -> RequiredModifier: """Return required modifier.""" return RequiredModifier() class InvariantModifier(Modifier): def __init__(self, id: str) -> None: self.id = id def modify( self, provider: providers.ConfigurationOption, providers_map: ProvidersMap, ) -> providers.Provider: invariant_segment = providers_map.resolve_provider(self.id) return provider[invariant_segment] def invariant(id: str) -> InvariantModifier: """Return invariant modifier.""" return InvariantModifier(id) class ProvidedInstance(Modifier): TYPE_ATTRIBUTE = "attr" TYPE_ITEM = "item" TYPE_CALL = "call" def __init__(self): self.segments = [] def __getattr__(self, item): self.segments.append((self.TYPE_ATTRIBUTE, item)) return self def __getitem__(self, item): self.segments.append((self.TYPE_ITEM, item)) return self def call(self): self.segments.append((self.TYPE_CALL, None)) return self def modify( self, provider: providers.Provider, providers_map: ProvidersMap, ) -> providers.Provider: provider = provider.provided for type_, value in self.segments: if type_ == ProvidedInstance.TYPE_ATTRIBUTE: provider = getattr(provider, value) elif type_ == ProvidedInstance.TYPE_ITEM: provider = provider[value] elif type_ == ProvidedInstance.TYPE_CALL: provider = provider.call() return provider def provided() -> ProvidedInstance: """Return provided instance modifier.""" return ProvidedInstance() class ClassGetItemMeta(GenericMeta): def __getitem__(cls, item): # Spike for Python 3.6 if isinstance(item, tuple): return cls(*item) return cls(item) class _Marker(Generic[T], metaclass=ClassGetItemMeta): __IS_MARKER__ = True def __init__( self, provider: Union[providers.Provider, Container, str], modifier: Optional[Modifier] = None, ) -> None: if _is_declarative_container(provider): provider = provider.__self__ self.provider = provider self.modifier = modifier def __class_getitem__(cls, item) -> T: if isinstance(item, tuple): return cls(*item) return cls(item) def __call__(self) -> T: return self class Provide(_Marker): ... class Provider(_Marker): ... class Closing(_Marker): ... class AutoLoader: """Auto-wiring module loader. Automatically wire containers when modules are imported. """ def __init__(self): self.containers = [] self._path_hook = None def register_containers(self, *containers): self.containers.extend(containers) if not self.installed: self.install() def unregister_containers(self, *containers): for container in containers: self.containers.remove(container) if not self.containers: self.uninstall() def wire_module(self, module): for container in self.containers: container.wire(modules=[module]) @property def installed(self): return self._path_hook in sys.path_hooks def install(self): if self.installed: return loader = self class SourcelessFileLoader(importlib.machinery.SourcelessFileLoader): def exec_module(self, module): super().exec_module(module) loader.wire_module(module) class SourceFileLoader(importlib.machinery.SourceFileLoader): def exec_module(self, module): super().exec_module(module) loader.wire_module(module) class ExtensionFileLoader(importlib.machinery.ExtensionFileLoader): ... loader_details = [ (SourcelessFileLoader, importlib.machinery.BYTECODE_SUFFIXES), (SourceFileLoader, importlib.machinery.SOURCE_SUFFIXES), (ExtensionFileLoader, importlib.machinery.EXTENSION_SUFFIXES), ] self._path_hook = importlib.machinery.FileFinder.path_hook(*loader_details) sys.path_hooks.insert(0, self._path_hook) sys.path_importer_cache.clear() importlib.invalidate_caches() def uninstall(self): if not self.installed: return sys.path_hooks.remove(self._path_hook) sys.path_importer_cache.clear() importlib.invalidate_caches() def register_loader_containers(*containers: Container) -> None: """Register containers in auto-wiring module loader.""" _loader.register_containers(*containers) def unregister_loader_containers(*containers: Container) -> None: """Unregister containers from auto-wiring module loader.""" _loader.unregister_containers(*containers) def install_loader() -> None: """Install auto-wiring module loader hook.""" _loader.install() def uninstall_loader() -> None: """Uninstall auto-wiring module loader hook.""" _loader.uninstall() def is_loader_installed() -> bool: """Check if auto-wiring module loader hook is installed.""" return _loader.installed _patched_registry = PatchedRegistry() _inspect_filter = InspectFilter() _loader = AutoLoader()