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# Licensed under the LGPL: https://www.gnu.org/licenses/old-licenses/lgpl-2.1.en.html # For details: https://github.com/PyCQA/astroid/blob/main/LICENSE # Copyright (c) https://github.com/PyCQA/astroid/blob/main/CONTRIBUTORS.txt """astroid manager: avoid multiple astroid build of a same module when possible by providing a class responsible to get astroid representation from various source and using a cache of built modules) """ from __future__ import annotations import collections import os import types import zipimport from collections.abc import Callable, Iterator, Sequence from importlib.util import find_spec, module_from_spec from typing import Any, ClassVar from astroid import nodes from astroid._cache import CACHE_MANAGER from astroid.const import BRAIN_MODULES_DIRECTORY from astroid.context import InferenceContext, _invalidate_cache from astroid.exceptions import AstroidBuildingError, AstroidImportError from astroid.interpreter._import import spec, util from astroid.modutils import ( NoSourceFile, _cache_normalize_path_, file_info_from_modpath, get_source_file, is_module_name_part_of_extension_package_whitelist, is_python_source, is_stdlib_module, load_module_from_name, modpath_from_file, ) from astroid.transforms import TransformVisitor from astroid.typing import AstroidManagerBrain, InferenceResult ZIP_IMPORT_EXTS = (".zip", ".egg", ".whl", ".pyz", ".pyzw") def safe_repr(obj: Any) -> str: try: return repr(obj) except Exception: # pylint: disable=broad-except return "???" class AstroidManager: """Responsible to build astroid from files or modules. Use the Borg (singleton) pattern. """ name = "astroid loader" brain: AstroidManagerBrain = { "astroid_cache": {}, "_mod_file_cache": {}, "_failed_import_hooks": [], "always_load_extensions": False, "optimize_ast": False, "extension_package_whitelist": set(), "_transform": TransformVisitor(), } max_inferable_values: ClassVar[int] = 100 def __init__(self) -> None: # NOTE: cache entries are added by the [re]builder self.astroid_cache = AstroidManager.brain["astroid_cache"] self._mod_file_cache = AstroidManager.brain["_mod_file_cache"] self._failed_import_hooks = AstroidManager.brain["_failed_import_hooks"] self.extension_package_whitelist = AstroidManager.brain[ "extension_package_whitelist" ] self._transform = AstroidManager.brain["_transform"] @property def always_load_extensions(self) -> bool: return AstroidManager.brain["always_load_extensions"] @always_load_extensions.setter def always_load_extensions(self, value: bool) -> None: AstroidManager.brain["always_load_extensions"] = value @property def optimize_ast(self) -> bool: return AstroidManager.brain["optimize_ast"] @optimize_ast.setter def optimize_ast(self, value: bool) -> None: AstroidManager.brain["optimize_ast"] = value @property def register_transform(self): # This and unregister_transform below are exported for convenience return self._transform.register_transform @property def unregister_transform(self): return self._transform.unregister_transform @property def builtins_module(self) -> nodes.Module: return self.astroid_cache["builtins"] def visit_transforms(self, node: nodes.NodeNG) -> InferenceResult: """Visit the transforms and apply them to the given *node*.""" return self._transform.visit(node) def ast_from_file( self, filepath: str, modname: str | None = None, fallback: bool = True, source: bool = False, ) -> nodes.Module: """Given a module name, return the astroid object.""" try: filepath = get_source_file(filepath, include_no_ext=True) source = True except NoSourceFile: pass if modname is None: try: modname = ".".join(modpath_from_file(filepath)) except ImportError: modname = filepath if ( modname in self.astroid_cache and self.astroid_cache[modname].file == filepath ): return self.astroid_cache[modname] if source: # pylint: disable=import-outside-toplevel; circular import from astroid.builder import AstroidBuilder return AstroidBuilder(self).file_build(filepath, modname) if fallback and modname: return self.ast_from_module_name(modname) raise AstroidBuildingError("Unable to build an AST for {path}.", path=filepath) def ast_from_string( self, data: str, modname: str = "", filepath: str | None = None ) -> nodes.Module: """Given some source code as a string, return its corresponding astroid object. """ # pylint: disable=import-outside-toplevel; circular import from astroid.builder import AstroidBuilder return AstroidBuilder(self).string_build(data, modname, filepath) def _build_stub_module(self, modname: str) -> nodes.Module: # pylint: disable=import-outside-toplevel; circular import from astroid.builder import AstroidBuilder return AstroidBuilder(self).string_build("", modname) def _build_namespace_module( self, modname: str, path: Sequence[str] ) -> nodes.Module: # pylint: disable=import-outside-toplevel; circular import from astroid.builder import build_namespace_package_module return build_namespace_package_module(modname, path) def _can_load_extension(self, modname: str) -> bool: if self.always_load_extensions: return True if is_stdlib_module(modname): return True return is_module_name_part_of_extension_package_whitelist( modname, self.extension_package_whitelist ) def ast_from_module_name( # noqa: C901 self, modname: str | None, context_file: str | None = None, use_cache: bool = True, ) -> nodes.Module: """Given a module name, return the astroid object.""" if modname is None: raise AstroidBuildingError("No module name given.") # Sometimes we don't want to use the cache. For example, when we're # importing a module with the same name as the file that is importing # we want to fallback on the import system to make sure we get the correct # module. if modname in self.astroid_cache and use_cache: return self.astroid_cache[modname] if modname == "__main__": return self._build_stub_module(modname) if context_file: old_cwd = os.getcwd() os.chdir(os.path.dirname(context_file)) try: found_spec = self.file_from_module_name(modname, context_file) if found_spec.type == spec.ModuleType.PY_ZIPMODULE: module = self.zip_import_data(found_spec.location) if module is not None: return module elif found_spec.type in ( spec.ModuleType.C_BUILTIN, spec.ModuleType.C_EXTENSION, ): if ( found_spec.type == spec.ModuleType.C_EXTENSION and not self._can_load_extension(modname) ): return self._build_stub_module(modname) try: named_module = load_module_from_name(modname) except Exception as e: raise AstroidImportError( "Loading {modname} failed with:\n{error}", modname=modname, path=found_spec.location, ) from e return self.ast_from_module(named_module, modname) elif found_spec.type == spec.ModuleType.PY_COMPILED: raise AstroidImportError( "Unable to load compiled module {modname}.", modname=modname, path=found_spec.location, ) elif found_spec.type == spec.ModuleType.PY_NAMESPACE: return self._build_namespace_module( modname, found_spec.submodule_search_locations or [] ) elif found_spec.type == spec.ModuleType.PY_FROZEN: if found_spec.location is None: return self._build_stub_module(modname) # For stdlib frozen modules we can determine the location and # can therefore create a module from the source file return self.ast_from_file(found_spec.location, modname, fallback=False) if found_spec.location is None: raise AstroidImportError( "Can't find a file for module {modname}.", modname=modname ) return self.ast_from_file(found_spec.location, modname, fallback=False) except AstroidBuildingError as e: for hook in self._failed_import_hooks: try: return hook(modname) except AstroidBuildingError: pass raise e finally: if context_file: os.chdir(old_cwd) def zip_import_data(self, filepath: str) -> nodes.Module | None: if zipimport is None: return None # pylint: disable=import-outside-toplevel; circular import from astroid.builder import AstroidBuilder builder = AstroidBuilder(self) for ext in ZIP_IMPORT_EXTS: try: eggpath, resource = filepath.rsplit(ext + os.path.sep, 1) except ValueError: continue try: # pylint: disable-next=no-member importer = zipimport.zipimporter(eggpath + ext) zmodname = resource.replace(os.path.sep, ".") if importer.is_package(resource): zmodname = zmodname + ".__init__" module = builder.string_build( importer.get_source(resource), zmodname, filepath ) return module except Exception: # pylint: disable=broad-except continue return None def file_from_module_name( self, modname: str, contextfile: str | None ) -> spec.ModuleSpec: try: value = self._mod_file_cache[(modname, contextfile)] except KeyError: try: value = file_info_from_modpath( modname.split("."), context_file=contextfile ) except ImportError as e: # pylint: disable-next=redefined-variable-type value = AstroidImportError( "Failed to import module {modname} with error:\n{error}.", modname=modname, # we remove the traceback here to save on memory usage (since these exceptions are cached) error=e.with_traceback(None), ) self._mod_file_cache[(modname, contextfile)] = value if isinstance(value, AstroidBuildingError): # we remove the traceback here to save on memory usage (since these exceptions are cached) raise value.with_traceback(None) # pylint: disable=no-member return value def ast_from_module( self, module: types.ModuleType, modname: str | None = None ) -> nodes.Module: """Given an imported module, return the astroid object.""" modname = modname or module.__name__ if modname in self.astroid_cache: return self.astroid_cache[modname] try: # some builtin modules don't have __file__ attribute filepath = module.__file__ if is_python_source(filepath): # Type is checked in is_python_source return self.ast_from_file(filepath, modname) # type: ignore[arg-type] except AttributeError: pass # pylint: disable=import-outside-toplevel; circular import from astroid.builder import AstroidBuilder return AstroidBuilder(self).module_build(module, modname) def ast_from_class(self, klass: type, modname: str | None = None) -> nodes.ClassDef: """Get astroid for the given class.""" if modname is None: try: modname = klass.__module__ except AttributeError as exc: raise AstroidBuildingError( "Unable to get module for class {class_name}.", cls=klass, class_repr=safe_repr(klass), modname=modname, ) from exc modastroid = self.ast_from_module_name(modname) ret = modastroid.getattr(klass.__name__)[0] assert isinstance(ret, nodes.ClassDef) return ret def infer_ast_from_something( self, obj: object, context: InferenceContext | None = None ) -> Iterator[InferenceResult]: """Infer astroid for the given class.""" if hasattr(obj, "__class__") and not isinstance(obj, type): klass = obj.__class__ elif isinstance(obj, type): klass = obj else: raise AstroidBuildingError( # pragma: no cover "Unable to get type for {class_repr}.", cls=None, class_repr=safe_repr(obj), ) try: modname = klass.__module__ except AttributeError as exc: raise AstroidBuildingError( "Unable to get module for {class_repr}.", cls=klass, class_repr=safe_repr(klass), ) from exc except Exception as exc: raise AstroidImportError( "Unexpected error while retrieving module for {class_repr}:\n" "{error}", cls=klass, class_repr=safe_repr(klass), ) from exc try: name = klass.__name__ except AttributeError as exc: raise AstroidBuildingError( "Unable to get name for {class_repr}:\n", cls=klass, class_repr=safe_repr(klass), ) from exc except Exception as exc: raise AstroidImportError( "Unexpected error while retrieving name for {class_repr}:\n{error}", cls=klass, class_repr=safe_repr(klass), ) from exc # take care, on living object __module__ is regularly wrong :( modastroid = self.ast_from_module_name(modname) if klass is obj: for inferred in modastroid.igetattr(name, context): yield inferred else: for inferred in modastroid.igetattr(name, context): yield inferred.instantiate_class() def register_failed_import_hook(self, hook: Callable[[str], nodes.Module]) -> None: """Registers a hook to resolve imports that cannot be found otherwise. `hook` must be a function that accepts a single argument `modname` which contains the name of the module or package that could not be imported. If `hook` can resolve the import, must return a node of type `astroid.Module`, otherwise, it must raise `AstroidBuildingError`. """ self._failed_import_hooks.append(hook) def cache_module(self, module: nodes.Module) -> None: """Cache a module if no module with the same name is known yet.""" self.astroid_cache.setdefault(module.name, module) def bootstrap(self) -> None: """Bootstrap the required AST modules needed for the manager to work. The bootstrap usually involves building the AST for the builtins module, which is required by the rest of astroid to work correctly. """ from astroid import raw_building # pylint: disable=import-outside-toplevel raw_building._astroid_bootstrapping() def clear_cache(self) -> None: """Clear the underlying caches, bootstrap the builtins module and re-register transforms. """ # import here because of cyclic imports # pylint: disable=import-outside-toplevel from astroid.inference_tip import clear_inference_tip_cache from astroid.interpreter.objectmodel import ObjectModel from astroid.nodes.node_classes import LookupMixIn from astroid.nodes.scoped_nodes import ClassDef clear_inference_tip_cache() _invalidate_cache() # inference context cache self.astroid_cache.clear() # NB: not a new TransformVisitor() AstroidManager.brain["_transform"].transforms = collections.defaultdict(list) CACHE_MANAGER.clear_all_caches() for lru_cache in ( LookupMixIn.lookup, _cache_normalize_path_, util.is_namespace, ObjectModel.attributes, ClassDef._metaclass_lookup_attribute, ): lru_cache.cache_clear() # type: ignore[attr-defined] self.bootstrap() # Reload brain plugins. During initialisation this is done in astroid.__init__.py for module in BRAIN_MODULES_DIRECTORY.iterdir(): if module.suffix == ".py": module_spec = find_spec(f"astroid.brain.{module.stem}") assert module_spec module_object = module_from_spec(module_spec) assert module_spec.loader module_spec.loader.exec_module(module_object)