"""The composite types for Sphinx. """ import sys import typing from struct import Struct from types import TracebackType from typing import Any, Callable, Dict, Generator, List, Optional, Tuple, Type, TypeVar, Union from docutils import nodes from docutils.parsers.rst.states import Inliner from sphinx.deprecation import RemovedInSphinx60Warning, deprecated_alias if sys.version_info > (3, 7): from typing import ForwardRef else: from typing import _ForwardRef # type: ignore class ForwardRef: """A pseudo ForwardRef class for py36.""" def __init__(self, arg: Any, is_argument: bool = True) -> None: self.arg = arg def _evaluate(self, globalns: Dict, localns: Dict) -> Any: ref = _ForwardRef(self.arg) return ref._eval_type(globalns, localns) try: from types import UnionType # type: ignore # python 3.10 or above except ImportError: UnionType = None if False: # For type annotation from typing import Type # NOQA # for python3.5.1 # builtin classes that have incorrect __module__ INVALID_BUILTIN_CLASSES = { Struct: 'struct.Struct', # Before Python 3.9 TracebackType: 'types.TracebackType', } def is_invalid_builtin_class(obj: Any) -> bool: """Check *obj* is an invalid built-in class.""" try: return obj in INVALID_BUILTIN_CLASSES except TypeError: # unhashable type return False # Text like nodes which are initialized with text and rawsource TextlikeNode = Union[nodes.Text, nodes.TextElement] # type of None NoneType = type(None) # path matcher PathMatcher = Callable[[str], bool] # common role functions RoleFunction = Callable[[str, str, str, int, Inliner, Dict[str, Any], List[str]], Tuple[List[nodes.Node], List[nodes.system_message]]] # A option spec for directive OptionSpec = Dict[str, Callable[[str], Any]] # title getter functions for enumerable nodes (see sphinx.domains.std) TitleGetter = Callable[[nodes.Node], str] # inventory data on memory InventoryItem = Tuple[str, str, str, str] Inventory = Dict[str, Dict[str, InventoryItem]] def get_type_hints(obj: Any, globalns: Dict = None, localns: Dict = None) -> Dict[str, Any]: """Return a dictionary containing type hints for a function, method, module or class object. This is a simple wrapper of `typing.get_type_hints()` that does not raise an error on runtime. """ from sphinx.util.inspect import safe_getattr # lazy loading try: return typing.get_type_hints(obj, globalns, localns) except NameError: # Failed to evaluate ForwardRef (maybe TYPE_CHECKING) return safe_getattr(obj, '__annotations__', {}) except AttributeError: # Failed to evaluate ForwardRef (maybe not runtime checkable) return safe_getattr(obj, '__annotations__', {}) except TypeError: # Invalid object is given. But try to get __annotations__ as a fallback for # the code using type union operator (PEP 604) in python 3.9 or below. return safe_getattr(obj, '__annotations__', {}) except KeyError: # a broken class found (refs: https://github.com/sphinx-doc/sphinx/issues/8084) return {} def is_system_TypeVar(typ: Any) -> bool: """Check *typ* is system defined TypeVar.""" modname = getattr(typ, '__module__', '') return modname == 'typing' and isinstance(typ, TypeVar) def restify(cls: Optional[Type], mode: str = 'fully-qualified-except-typing') -> str: """Convert python class to a reST reference. :param mode: Specify a method how annotations will be stringified. 'fully-qualified-except-typing' Show the module name and qualified name of the annotation except the "typing" module. 'smart' Show the name of the annotation. """ from sphinx.ext.autodoc.mock import ismock, ismockmodule # lazy loading from sphinx.util import inspect # lazy loading if mode == 'smart': modprefix = '~' else: modprefix = '' try: if cls is None or cls is NoneType: return ':py:obj:`None`' elif cls is Ellipsis: return '...' elif isinstance(cls, str): return cls elif ismockmodule(cls): return ':py:class:`%s%s`' % (modprefix, cls.__name__) elif ismock(cls): return ':py:class:`%s%s.%s`' % (modprefix, cls.__module__, cls.__name__) elif is_invalid_builtin_class(cls): return ':py:class:`%s%s`' % (modprefix, INVALID_BUILTIN_CLASSES[cls]) elif inspect.isNewType(cls): if sys.version_info > (3, 10): # newtypes have correct module info since Python 3.10+ return ':py:class:`%s%s.%s`' % (modprefix, cls.__module__, cls.__name__) else: return ':py:class:`%s`' % cls.__name__ elif UnionType and isinstance(cls, UnionType): if len(cls.__args__) > 1 and None in cls.__args__: args = ' | '.join(restify(a, mode) for a in cls.__args__ if a) return 'Optional[%s]' % args else: return ' | '.join(restify(a, mode) for a in cls.__args__) elif cls.__module__ in ('__builtin__', 'builtins'): if hasattr(cls, '__args__'): return ':py:class:`%s`\\ [%s]' % ( cls.__name__, ', '.join(restify(arg, mode) for arg in cls.__args__), ) else: return ':py:class:`%s`' % cls.__name__ else: if sys.version_info >= (3, 7): # py37+ return _restify_py37(cls, mode) else: return _restify_py36(cls, mode) except (AttributeError, TypeError): return inspect.object_description(cls) def _restify_py37(cls: Optional[Type], mode: str = 'fully-qualified-except-typing') -> str: """Convert python class to a reST reference.""" from sphinx.util import inspect # lazy loading if mode == 'smart': modprefix = '~' else: modprefix = '' if (inspect.isgenericalias(cls) and cls.__module__ == 'typing' and cls.__origin__ is Union): # Union if len(cls.__args__) > 1 and cls.__args__[-1] is NoneType: if len(cls.__args__) > 2: args = ', '.join(restify(a, mode) for a in cls.__args__[:-1]) return ':py:obj:`~typing.Optional`\\ [:obj:`~typing.Union`\\ [%s]]' % args else: return ':py:obj:`~typing.Optional`\\ [%s]' % restify(cls.__args__[0], mode) else: args = ', '.join(restify(a, mode) for a in cls.__args__) return ':py:obj:`~typing.Union`\\ [%s]' % args elif inspect.isgenericalias(cls): if isinstance(cls.__origin__, typing._SpecialForm): text = restify(cls.__origin__, mode) # type: ignore elif getattr(cls, '_name', None): if cls.__module__ == 'typing': text = ':py:class:`~%s.%s`' % (cls.__module__, cls._name) else: text = ':py:class:`%s%s.%s`' % (modprefix, cls.__module__, cls._name) else: text = restify(cls.__origin__, mode) origin = getattr(cls, '__origin__', None) if not hasattr(cls, '__args__'): pass elif all(is_system_TypeVar(a) for a in cls.__args__): # Suppress arguments if all system defined TypeVars (ex. Dict[KT, VT]) pass elif cls.__module__ == 'typing' and cls._name == 'Callable': args = ', '.join(restify(a, mode) for a in cls.__args__[:-1]) text += r"\ [[%s], %s]" % (args, restify(cls.__args__[-1], mode)) elif cls.__module__ == 'typing' and getattr(origin, '_name', None) == 'Literal': text += r"\ [%s]" % ', '.join(repr(a) for a in cls.__args__) elif cls.__args__: text += r"\ [%s]" % ", ".join(restify(a, mode) for a in cls.__args__) return text elif isinstance(cls, typing._SpecialForm): return ':py:obj:`~%s.%s`' % (cls.__module__, cls._name) elif hasattr(cls, '__qualname__'): if cls.__module__ == 'typing': return ':py:class:`~%s.%s`' % (cls.__module__, cls.__qualname__) else: return ':py:class:`%s%s.%s`' % (modprefix, cls.__module__, cls.__qualname__) elif isinstance(cls, ForwardRef): return ':py:class:`%s`' % cls.__forward_arg__ else: # not a class (ex. TypeVar) if cls.__module__ == 'typing': return ':py:obj:`~%s.%s`' % (cls.__module__, cls.__name__) else: return ':py:obj:`%s%s.%s`' % (modprefix, cls.__module__, cls.__name__) def _restify_py36(cls: Optional[Type], mode: str = 'fully-qualified-except-typing') -> str: if mode == 'smart': modprefix = '~' else: modprefix = '' module = getattr(cls, '__module__', None) if module == 'typing': if getattr(cls, '_name', None): qualname = cls._name elif getattr(cls, '__qualname__', None): qualname = cls.__qualname__ elif getattr(cls, '__forward_arg__', None): qualname = cls.__forward_arg__ elif getattr(cls, '__origin__', None): qualname = stringify(cls.__origin__) # ex. Union else: qualname = repr(cls).replace('typing.', '') elif hasattr(cls, '__qualname__'): qualname = '%s%s.%s' % (modprefix, module, cls.__qualname__) else: qualname = repr(cls) if (isinstance(cls, typing.TupleMeta) and # type: ignore not hasattr(cls, '__tuple_params__')): if module == 'typing': reftext = ':py:class:`~typing.%s`' % qualname else: reftext = ':py:class:`%s%s`' % (modprefix, qualname) params = cls.__args__ if params: param_str = ', '.join(restify(p, mode) for p in params) return reftext + '\\ [%s]' % param_str else: return reftext elif isinstance(cls, typing.GenericMeta): if module == 'typing': reftext = ':py:class:`~typing.%s`' % qualname else: reftext = ':py:class:`%s%s`' % (modprefix, qualname) if cls.__args__ is None or len(cls.__args__) <= 2: params = cls.__args__ elif cls.__origin__ == Generator: params = cls.__args__ else: # typing.Callable args = ', '.join(restify(arg, mode) for arg in cls.__args__[:-1]) result = restify(cls.__args__[-1], mode) return reftext + '\\ [[%s], %s]' % (args, result) if params: param_str = ', '.join(restify(p, mode) for p in params) return reftext + '\\ [%s]' % (param_str) else: return reftext elif (hasattr(cls, '__origin__') and cls.__origin__ is typing.Union): params = cls.__args__ if params is not None: if len(params) > 1 and params[-1] is NoneType: if len(params) > 2: param_str = ", ".join(restify(p, mode) for p in params[:-1]) return (':py:obj:`~typing.Optional`\\ ' '[:py:obj:`~typing.Union`\\ [%s]]' % param_str) else: return ':py:obj:`~typing.Optional`\\ [%s]' % restify(params[0], mode) else: param_str = ', '.join(restify(p, mode) for p in params) return ':py:obj:`~typing.Union`\\ [%s]' % param_str else: return ':py:obj:`Union`' elif hasattr(cls, '__qualname__'): if cls.__module__ == 'typing': return ':py:class:`~%s.%s`' % (cls.__module__, cls.__qualname__) else: return ':py:class:`%s%s.%s`' % (modprefix, cls.__module__, cls.__qualname__) elif hasattr(cls, '_name'): # SpecialForm if cls.__module__ == 'typing': return ':py:obj:`~%s.%s`' % (cls.__module__, cls._name) else: return ':py:obj:`%s%s.%s`' % (modprefix, cls.__module__, cls._name) elif hasattr(cls, '__name__'): # not a class (ex. TypeVar) if cls.__module__ == 'typing': return ':py:obj:`~%s.%s`' % (cls.__module__, cls.__name__) else: return ':py:obj:`%s%s.%s`' % (modprefix, cls.__module__, cls.__name__) else: # others (ex. Any) if cls.__module__ == 'typing': return ':py:obj:`~%s.%s`' % (cls.__module__, qualname) else: return ':py:obj:`%s%s.%s`' % (modprefix, cls.__module__, qualname) def stringify(annotation: Any, mode: str = 'fully-qualified-except-typing') -> str: """Stringify type annotation object. :param mode: Specify a method how annotations will be stringified. 'fully-qualified-except-typing' Show the module name and qualified name of the annotation except the "typing" module. 'smart' Show the name of the annotation. 'fully-qualified' Show the module name and qualified name of the annotation. """ from sphinx.ext.autodoc.mock import ismock, ismockmodule # lazy loading from sphinx.util import inspect # lazy loading if mode == 'smart': modprefix = '~' else: modprefix = '' if isinstance(annotation, str): if annotation.startswith("'") and annotation.endswith("'"): # might be a double Forward-ref'ed type. Go unquoting. return annotation[1:-1] else: return annotation elif isinstance(annotation, TypeVar): if (annotation.__module__ == 'typing' and mode in ('fully-qualified-except-typing', 'smart')): return annotation.__name__ else: return modprefix + '.'.join([annotation.__module__, annotation.__name__]) elif inspect.isNewType(annotation): if sys.version_info > (3, 10): # newtypes have correct module info since Python 3.10+ return modprefix + '%s.%s' % (annotation.__module__, annotation.__name__) else: return annotation.__name__ elif not annotation: return repr(annotation) elif annotation is NoneType: return 'None' elif ismockmodule(annotation): return modprefix + annotation.__name__ elif ismock(annotation): return modprefix + '%s.%s' % (annotation.__module__, annotation.__name__) elif is_invalid_builtin_class(annotation): return modprefix + INVALID_BUILTIN_CLASSES[annotation] elif str(annotation).startswith('typing.Annotated'): # for py310+ pass elif (getattr(annotation, '__module__', None) == 'builtins' and getattr(annotation, '__qualname__', None)): if hasattr(annotation, '__args__'): # PEP 585 generic return repr(annotation) else: return annotation.__qualname__ elif annotation is Ellipsis: return '...' if sys.version_info >= (3, 7): # py37+ return _stringify_py37(annotation, mode) else: return _stringify_py36(annotation, mode) def _stringify_py37(annotation: Any, mode: str = 'fully-qualified-except-typing') -> str: """stringify() for py37+.""" module = getattr(annotation, '__module__', None) modprefix = '' if module == 'typing' and getattr(annotation, '__forward_arg__', None): qualname = annotation.__forward_arg__ elif module == 'typing': if getattr(annotation, '_name', None): qualname = annotation._name elif getattr(annotation, '__qualname__', None): qualname = annotation.__qualname__ else: qualname = stringify(annotation.__origin__).replace('typing.', '') # ex. Union if mode == 'smart': modprefix = '~%s.' % module elif mode == 'fully-qualified': modprefix = '%s.' % module elif hasattr(annotation, '__qualname__'): if mode == 'smart': modprefix = '~%s.' % module else: modprefix = '%s.' % module qualname = annotation.__qualname__ elif hasattr(annotation, '__origin__'): # instantiated generic provided by a user qualname = stringify(annotation.__origin__, mode) elif UnionType and isinstance(annotation, UnionType): # types.Union (for py3.10+) qualname = 'types.Union' else: # we weren't able to extract the base type, appending arguments would # only make them appear twice return repr(annotation) if getattr(annotation, '__args__', None): if not isinstance(annotation.__args__, (list, tuple)): # broken __args__ found pass elif qualname in ('Optional', 'Union'): if len(annotation.__args__) > 1 and annotation.__args__[-1] is NoneType: if len(annotation.__args__) > 2: args = ', '.join(stringify(a, mode) for a in annotation.__args__[:-1]) return '%sOptional[%sUnion[%s]]' % (modprefix, modprefix, args) else: return '%sOptional[%s]' % (modprefix, stringify(annotation.__args__[0], mode)) else: args = ', '.join(stringify(a, mode) for a in annotation.__args__) return '%sUnion[%s]' % (modprefix, args) elif qualname == 'types.Union': if len(annotation.__args__) > 1 and None in annotation.__args__: args = ' | '.join(stringify(a) for a in annotation.__args__ if a) return '%sOptional[%s]' % (modprefix, args) else: return ' | '.join(stringify(a) for a in annotation.__args__) elif qualname == 'Callable': args = ', '.join(stringify(a, mode) for a in annotation.__args__[:-1]) returns = stringify(annotation.__args__[-1], mode) return '%s%s[[%s], %s]' % (modprefix, qualname, args, returns) elif qualname == 'Literal': args = ', '.join(repr(a) for a in annotation.__args__) return '%s%s[%s]' % (modprefix, qualname, args) elif str(annotation).startswith('typing.Annotated'): # for py39+ return stringify(annotation.__args__[0], mode) elif all(is_system_TypeVar(a) for a in annotation.__args__): # Suppress arguments if all system defined TypeVars (ex. Dict[KT, VT]) return modprefix + qualname else: args = ', '.join(stringify(a, mode) for a in annotation.__args__) return '%s%s[%s]' % (modprefix, qualname, args) return modprefix + qualname def _stringify_py36(annotation: Any, mode: str = 'fully-qualified-except-typing') -> str: """stringify() for py36.""" module = getattr(annotation, '__module__', None) modprefix = '' if module == 'typing' and getattr(annotation, '__forward_arg__', None): qualname = annotation.__forward_arg__ elif module == 'typing': if getattr(annotation, '_name', None): qualname = annotation._name elif getattr(annotation, '__qualname__', None): qualname = annotation.__qualname__ elif getattr(annotation, '__origin__', None): qualname = stringify(annotation.__origin__) # ex. Union else: qualname = repr(annotation).replace('typing.', '') if mode == 'smart': modprefix = '~%s.' % module elif mode == 'fully-qualified': modprefix = '%s.' % module elif hasattr(annotation, '__qualname__'): if mode == 'smart': modprefix = '~%s.' % module else: modprefix = '%s.' % module qualname = annotation.__qualname__ else: qualname = repr(annotation) if (isinstance(annotation, typing.TupleMeta) and # type: ignore not hasattr(annotation, '__tuple_params__')): # for Python 3.6 params = annotation.__args__ if params: param_str = ', '.join(stringify(p, mode) for p in params) return '%s%s[%s]' % (modprefix, qualname, param_str) else: return modprefix + qualname elif isinstance(annotation, typing.GenericMeta): params = None if annotation.__args__ is None or len(annotation.__args__) <= 2: # type: ignore # NOQA params = annotation.__args__ # type: ignore elif annotation.__origin__ == Generator: # type: ignore params = annotation.__args__ # type: ignore else: # typing.Callable args = ', '.join(stringify(arg, mode) for arg in annotation.__args__[:-1]) # type: ignore result = stringify(annotation.__args__[-1]) # type: ignore return '%s%s[[%s], %s]' % (modprefix, qualname, args, result) if params is not None: param_str = ', '.join(stringify(p, mode) for p in params) return '%s%s[%s]' % (modprefix, qualname, param_str) elif (hasattr(annotation, '__origin__') and annotation.__origin__ is typing.Union): params = annotation.__args__ if params is not None: if len(params) > 1 and params[-1] is NoneType: if len(params) > 2: param_str = ", ".join(stringify(p, mode) for p in params[:-1]) return '%sOptional[%sUnion[%s]]' % (modprefix, modprefix, param_str) else: return '%sOptional[%s]' % (modprefix, stringify(params[0], mode)) else: param_str = ', '.join(stringify(p, mode) for p in params) return '%sUnion[%s]' % (modprefix, param_str) return modprefix + qualname deprecated_alias('sphinx.util.typing', { 'DirectiveOption': Callable[[str], Any], }, RemovedInSphinx60Warning)