""" 依赖注入处理模块 ================ 该模块实现了依赖注入的定义与处理。 """ import inspect from itertools import chain from typing import Any, Dict, List, Type, Tuple, Callable, Optional, cast from contextlib import AsyncExitStack, contextmanager, asynccontextmanager from pydantic import BaseConfig from pydantic.schema import get_annotation_from_field_info from pydantic.fields import Required, Undefined, ModelField from nonebot.log import logger from .models import Param as Param from .utils import get_typed_signature from .models import Dependent as Dependent from nonebot.exception import SkippedException from .models import DependsWrapper as DependsWrapper from nonebot.typing import T_Handler, T_DependencyCache from nonebot.utils import ( CacheLock, run_sync, is_gen_callable, run_sync_ctx_manager, is_async_gen_callable, is_coroutine_callable, ) cache_lock = CacheLock() class CustomConfig(BaseConfig): arbitrary_types_allowed = True def get_param_sub_dependent( *, param: inspect.Parameter, allow_types: Optional[List[Type[Param]]] = None ) -> Dependent: depends: DependsWrapper = param.default if depends.dependency: dependency = depends.dependency else: dependency = param.annotation return get_sub_dependant( depends=depends, dependency=dependency, name=param.name, allow_types=allow_types ) def get_parameterless_sub_dependant( *, depends: DependsWrapper, allow_types: Optional[List[Type[Param]]] = None ) -> Dependent: assert callable( depends.dependency ), "A parameter-less dependency must have a callable dependency" return get_sub_dependant( depends=depends, dependency=depends.dependency, allow_types=allow_types ) def get_sub_dependant( *, depends: DependsWrapper, dependency: T_Handler, name: Optional[str] = None, allow_types: Optional[List[Type[Param]]] = None, ) -> Dependent: sub_dependant = get_dependent( call=dependency, name=name, use_cache=depends.use_cache, allow_types=allow_types ) return sub_dependant def get_dependent( *, call: T_Handler, name: Optional[str] = None, use_cache: bool = True, allow_types: Optional[List[Type[Param]]] = None, ) -> Dependent: signature = get_typed_signature(call) params = signature.parameters dependent = Dependent( call=call, name=name, allow_types=allow_types, use_cache=use_cache ) for param_name, param in params.items(): if isinstance(param.default, DependsWrapper): sub_dependent = get_param_sub_dependent( param=param, allow_types=allow_types ) dependent.dependencies.append(sub_dependent) continue default_value = Required if param.default != param.empty: default_value = param.default if isinstance(default_value, Param): field_info = default_value default_value = field_info.default else: for allow_type in dependent.allow_types: if allow_type._check(param_name, param): field_info = allow_type(default_value) break else: raise ValueError( f"Unknown parameter {param_name} for function {call} with type {param.annotation}" ) annotation: Any = Any required = default_value == Required if param.annotation != param.empty: annotation = param.annotation annotation = get_annotation_from_field_info(annotation, field_info, param_name) dependent.params.append( ModelField( name=param_name, type_=annotation, class_validators=None, model_config=CustomConfig, default=None if required else default_value, required=required, field_info=field_info, ) ) return dependent async def solve_dependencies( *, _dependent: Dependent, _stack: Optional[AsyncExitStack] = None, _sub_dependents: Optional[List[Dependent]] = None, _dependency_cache: Optional[T_DependencyCache] = None, **params: Any, ) -> Tuple[Dict[str, Any], T_DependencyCache]: values: Dict[str, Any] = {} dependency_cache = {} if _dependency_cache is None else _dependency_cache # usual dependency for field in _dependent.params: field_info = field.field_info assert isinstance(field_info, Param), "Params must be subclasses of Param" value = field_info._solve(**params) if value == Undefined: value = field.get_default() _, errs_ = field.validate(value, values, loc=(str(field_info), field.alias)) if errs_: logger.debug( f"{field_info} " f"type {type(value)} not match depends {_dependent.call} " f"annotation {field._type_display()}, ignored" ) raise SkippedException(field, value) else: values[field.name] = value # solve sub dependencies sub_dependent: Dependent for sub_dependent in chain(_sub_dependents or tuple(), _dependent.dependencies): sub_dependent.call = cast(Callable[..., Any], sub_dependent.call) sub_dependent.cache_key = cast(Callable[..., Any], sub_dependent.cache_key) call = sub_dependent.call # solve sub dependency with current cache solved_result = await solve_dependencies( _dependent=sub_dependent, _dependency_cache=dependency_cache, **params ) sub_values, sub_dependency_cache = solved_result # update cache? # dependency_cache.update(sub_dependency_cache) # run dependency function async with cache_lock: if sub_dependent.use_cache and sub_dependent.cache_key in dependency_cache: solved = dependency_cache[sub_dependent.cache_key] elif is_gen_callable(call) or is_async_gen_callable(call): assert isinstance( _stack, AsyncExitStack ), "Generator dependency should be called in context" if is_gen_callable(call): cm = run_sync_ctx_manager(contextmanager(call)(**sub_values)) else: cm = asynccontextmanager(call)(**sub_values) solved = await _stack.enter_async_context(cm) elif is_coroutine_callable(call): solved = await call(**sub_values) else: solved = await run_sync(call)(**sub_values) # parameter dependency if sub_dependent.name is not None: values[sub_dependent.name] = solved # save current dependency to cache if sub_dependent.cache_key not in dependency_cache: dependency_cache[sub_dependent.cache_key] = solved return values, dependency_cache def Depends(dependency: Optional[T_Handler] = None, *, use_cache: bool = True) -> Any: """ :说明: 参数依赖注入装饰器 :参数: * ``dependency: Optional[Callable[..., Any]] = None``: 依赖函数。默认为参数的类型注释。 * ``use_cache: bool = True``: 是否使用缓存。默认为 ``True``。 .. code-block:: python def depend_func() -> Any: return ... def depend_gen_func(): try: yield ... finally: ... async def handler(param_name: Any = Depends(depend_func), gen: Any = Depends(depend_gen_func)): ... """ return DependsWrapper(dependency=dependency, use_cache=use_cache)