pdoc.doc
This module defines pdoc's documentation objects. A documentation object corresponds to something
in your Python code that has a docstring or type annotation. Typically, this only includes
modules, classes, functions and methods. However, pdoc adds support for extracting documentation
from the abstract syntax tree, which means that variables (module, class or instance) are supported too.
There are four main types of documentation objects:
All documentation types types make heavy use of @functools.cached_property decorators.
This means they have a large set of attributes that are lazily computed on first access.
By convention, all attributes are read-only, although this this not enforced at runtime.
View Source
""" This module defines pdoc's documentation objects. A documentation object corresponds to *something* in your Python code that has a docstring or type annotation. Typically, this only includes modules, classes, functions and methods. However, `pdoc` adds support for extracting documentation from the abstract syntax tree, which means that variables (module, class or instance) are supported too. There are four main types of documentation objects: - `Module` - `Class` - `Function` - `Variable` All documentation types types make heavy use of `@functools.cached_property` decorators. This means they have a large set of attributes that are lazily computed on first access. By convention, all attributes are read-only, although this this not enforced at runtime. """ from __future__ import annotations import enum import inspect import pkgutil import re import sys import textwrap import traceback import types import warnings from abc import ABCMeta, abstractmethod from functools import wraps from typing import Any, ClassVar, Generic, Optional, TypeVar, Union from pdoc import doc_ast, extract from pdoc.doc_types import ( NonUserDefinedCallables, empty, formatannotation, resolve_annotations, safe_eval_type, ) from ._compat import _tuplegetter, cache, cached_property, get_origin def _include_fullname_in_traceback(f): """ Doc.__repr__ should not raise, but it may raise if we screwed up. Debugging this is a bit tricky, because, well, we can't repr() in the traceback either then. This decorator adds location information to the traceback, which helps tracking down bugs. """ @wraps(f) def wrapper(self): try: return f(self) except Exception as e: raise RuntimeError(f"Error in {self.fullname}'s repr!") from e return wrapper T = TypeVar("T") class Doc(Generic[T]): """ A base class for all documentation objects. """ modulename: str """ The module that this object is in, for example `pdoc.doc`. """ qualname: str """ The qualified identifier name for this object. For example, if we have the following code: ```python class Foo: def bar(self): pass ``` The qualname of `Foo`'s `bar` method is `Foo.bar`. The qualname of the `Foo` class is just `Foo`. See <https://www.python.org/dev/peps/pep-3155/> for details. """ obj: T """ The underlying Python object. """ taken_from: tuple[str, str] """ `(modulename, qualname)` of this doc object's original location. In the context of a module, this points to the location it was imported from, in the context classes, this points to the class an attribute is inherited from. """ def __init__( self, modulename: str, qualname: str, obj: T, taken_from: tuple[str, str] ): """ Initializes a documentation object, where `modulename` is the name this module is defined in, `qualname` contains a dotted path leading to the object from the module top-level, and `obj` is the object to document. """ self.modulename = modulename self.qualname = qualname self.obj = obj self.taken_from = taken_from @cached_property def fullname(self) -> str: """The full qualified name of this doc object, for example `pdoc.doc.Doc`.""" # qualname is empty for modules return f"{self.modulename}.{self.qualname}".rstrip(".") @cached_property def name(self) -> str: """The name of this object. For top-level functions and classes, this is equal to the qualname attribute.""" return self.fullname.split(".")[-1] @cached_property def docstring(self) -> str: """ The docstring for this object. It has already been cleaned by `inspect.cleandoc`. If no docstring can be found, an empty string is returned. """ doc = inspect.getdoc(self.obj) or "" return doc.strip() @cached_property def source(self) -> str: """ The source code of the Python object as a `str`. If the source cannot be obtained (for example, because we are dealing with a native C object), an empty string is returned. """ return doc_ast.get_source(self.obj) @cached_property def is_inherited(self) -> bool: """ If True, the doc object is inherited from another location. This most commonly refers to methods inherited by a subclass, but can also apply to variables that are assigned a class defined in a different module. """ return (self.modulename, self.qualname) != self.taken_from @classmethod @property def type(cls) -> str: """ The type of the doc object, either `"module"`, `"class"`, or `"function"`. """ return cls.__name__.lower() if sys.version_info < (3, 9): # pragma: no cover # no @classmethod @property in 3.8 @property def type(self) -> str: # noqa return self.__class__.__name__.lower() def __lt__(self, other): assert isinstance(other, Doc) return self.fullname.replace("__init__", "").__lt__( other.fullname.replace("__init__", "") ) class Namespace(Doc[T], metaclass=ABCMeta): """ A documentation object that can have children. In other words, either a module or a class. """ @cached_property @abstractmethod def _member_objects(self) -> dict[str, Any]: """ A mapping from *all* public and private member names to their Python objects. """ @cached_property @abstractmethod def _var_docstrings(self) -> dict[str, str]: """A mapping from some member variable names to their docstrings.""" @abstractmethod def _taken_from(self, member_name: str, obj: Any) -> tuple[str, str]: """The location this member was taken from. If unknown, (modulename, qualname) is returned.""" @cached_property @abstractmethod def _var_annotations(self) -> dict[str, Any]: """A mapping from some member variable names to their type annotations.""" @cached_property @abstractmethod def own_members(self) -> list[Doc]: """A list of all own (i.e. non-inherited) members""" @cached_property def members(self) -> dict[str, Doc]: """A mapping from all members to their documentation objects.""" members: dict[str, Doc] = {} for name, obj in self._member_objects.items(): qualname = f"{self.qualname}.{name}".lstrip(".") taken_from = self._taken_from(name, obj) doc: Doc[Any] is_classmethod = isinstance(obj, classmethod) is_property = ( isinstance(obj, (property, cached_property)) or # Python 3.9: @classmethod @property is now allowed. is_classmethod and isinstance(obj.__func__, (property, cached_property)) ) if is_property: func = obj if is_classmethod: func = obj.__func__ if isinstance(func, property): func = func.fget else: assert isinstance(func, cached_property) func = func.func doc_f = Function(self.modulename, qualname, func, taken_from) doc = Variable( self.modulename, qualname, docstring=doc_f.docstring, annotation=doc_f.signature.return_annotation, default_value=empty, taken_from=taken_from, ) elif inspect.isroutine(obj): doc = Function(self.modulename, qualname, obj, taken_from) elif inspect.isclass(obj) and obj is not empty: doc = Class(self.modulename, qualname, obj, taken_from) elif inspect.ismodule(obj): doc = Module(obj) doc.modulename = self.modulename doc.qualname = qualname else: docstring = self._var_docstrings.get(name, "") if not docstring and inspect.isdatadescriptor(obj): docstring = getattr(obj, "__doc__", None) or "" doc = Variable( self.modulename, qualname, docstring=docstring, annotation=self._var_annotations.get(name, empty), default_value=obj, taken_from=taken_from, ) members[doc.name] = doc return members @cached_property def _members_by_origin(self) -> dict[tuple[str, str], list[Doc]]: """A mapping from (modulename, qualname) locations to the attributes taken from that path""" locations: dict[tuple[str, str], list[Doc]] = {} for member in self.members.values(): mod, qualname = member.taken_from parent_qualname = ".".join(qualname.rsplit(".", maxsplit=1)[:-1]) locations.setdefault((mod, parent_qualname), []) locations[(mod, parent_qualname)].append(member) return locations @cached_property def inherited_members(self) -> dict[tuple[str, str], list[Doc]]: """A mapping from (modulename, qualname) locations to the attributes inherited from that path""" return { k: v for k, v in self._members_by_origin.items() if k not in (self.taken_from, (self.modulename, self.qualname)) } @cached_property def flattened_own_members(self) -> list[Doc]: """ A list of all documented members and their child classes, recursively. """ flattened = [] for x in self.own_members: flattened.append(x) if isinstance(x, Class): flattened.extend( [cls for cls in x.flattened_own_members if isinstance(cls, Class)] ) return flattened @cache def get(self, identifier: str) -> Optional[Doc]: """Returns the documentation object for a particular identifier, or `None` if the identifier cannot be found.""" head, _, tail = identifier.partition(".") if tail: h = self.members.get(head, None) if isinstance(h, Class): return h.get(tail) return None else: return self.members.get(identifier, None) class Module(Namespace[types.ModuleType]): """ Representation of a module's documentation. """ def __init__( self, module: types.ModuleType, ): """ Creates a documentation object given the actual Python module object. """ super().__init__(module.__name__, "", module, (module.__name__, "")) @cache @_include_fullname_in_traceback def __repr__(self): return f"<module {self.fullname}{_docstr(self)}{_children(self)}>" @cached_property def is_package(self) -> bool: """ `True` if the module is a package, `False` otherwise. Packages are special kind of module that may have submodules. Typically, this means that this file is in a directory named like the module with the name `__init__.py`. """ return _safe_getattr(self.obj, "__path__", None) is not None @cached_property def _var_docstrings(self) -> dict[str, str]: return doc_ast.walk_tree(self.obj).docstrings def _taken_from(self, member_name: str, obj: Any) -> tuple[str, str]: if obj is empty: return self.modulename, f"{self.qualname}.{member_name}".lstrip(".") if isinstance(obj, types.ModuleType): return obj.__name__, "" mod = _safe_getattr(obj, "__module__", None) qual = _safe_getattr(obj, "__qualname__", None) if mod and qual and "<locals>" not in qual: return mod, qual elif mod and mod != self.modulename: # This might be wrong, but it's the best guess we have. return mod, f"{self.qualname}.{member_name}".lstrip(".") else: # We could conceivably also walk the AST here for imports, # which would turn up the origin of variables. return self.modulename, f"{self.qualname}.{member_name}".lstrip(".") @cached_property def _var_annotations(self) -> dict[str, Any]: annotations = doc_ast.walk_tree(self.obj).annotations.copy() for k, v in _safe_getattr(self.obj, "__annotations__", {}).items(): annotations[k] = v return resolve_annotations(annotations, self.obj, self.fullname) @cached_property def own_members(self) -> list[Doc]: return list(self.members.values()) @cached_property def submodules(self) -> list["Module"]: """A list of all (direct) submodules.""" if not self.is_package: return [] if _safe_getattr(self.obj, "__all__", False): # If __all__ is set, only show submodules specified there. return [ mod for mod in self.members.values() if isinstance(mod, Module) and mod.modulename.startswith(self.modulename) ] else: submodules = [] for mod in pkgutil.iter_modules(self.obj.__path__, f"{self.fullname}."): # type: ignore if mod.name.split(".")[-1].startswith("_"): continue try: module = extract.load_module(mod.name) except RuntimeError: warnings.warn( f"Couldn't import {mod.name}:\n{traceback.format_exc()}", RuntimeWarning, ) continue submodules.append(Module(module)) return submodules @cached_property def _documented_members(self) -> set[str]: return self._var_docstrings.keys() | self._var_annotations.keys() @cached_property def _member_objects(self) -> dict[str, Any]: members = {} all = _safe_getattr(self.obj, "__all__", False) if all: for name in all: if name in self.obj.__dict__: val = self.obj.__dict__[name] elif name in self._var_annotations: val = empty else: # this may be an unimported submodule, try importing. # (https://docs.python.org/3/tutorial/modules.html#importing-from-a-package) try: val = extract.load_module(f"{self.modulename}.{name}") except RuntimeError as e: warnings.warn( f"Found {name!r} in {self.modulename}.__all__, but it does not resolve: {e}", RuntimeWarning, ) val = empty members[name] = val else: for name, obj in self.obj.__dict__.items(): # We already exclude everything here that is imported, only a TypeVar, # or a variable without annotation and docstring. # If one needs to document one of these things, __all__ is the correct way. if isinstance(obj, TypeVar): continue obj_module = inspect.getmodule(obj) declared_in_this_module = self.obj.__name__ == _safe_getattr( obj_module, "__name__", None ) if declared_in_this_module or name in self._documented_members: members[name] = obj for name in self._var_annotations: members.setdefault(name, empty) members, notfound = doc_ast.sort_by_source(self.obj, {}, members) members.update(notfound) return members @cached_property def variables(self) -> list["Variable"]: """ A list of all documented module level variables. """ return [x for x in self.members.values() if isinstance(x, Variable)] @cached_property def classes(self) -> list["Class"]: """ A list of all documented module level classes. """ return [x for x in self.members.values() if isinstance(x, Class)] @cached_property def functions(self) -> list["Function"]: """ A list of all documented module level functions. """ return [x for x in self.members.values() if isinstance(x, Function)] class Class(Namespace[type]): """ Representation of a class's documentation. """ @cache @_include_fullname_in_traceback def __repr__(self): return f"<{_decorators(self)}class {self.modulename}.{self.qualname}{_docstr(self)}{_children(self)}>" @cached_property def _var_docstrings(self) -> dict[str, str]: docstrings: dict[str, str] = {} for cls in self.obj.__mro__: for name, docstr in doc_ast.walk_tree(cls).docstrings.items(): docstrings.setdefault(name, docstr) return docstrings @cached_property def _declarations(self) -> dict[str, tuple[str, str]]: decls: dict[str, tuple[str, str]] = {} for cls in self.obj.__mro__: treeinfo = doc_ast.walk_tree(cls) for name in treeinfo.docstrings.keys() | treeinfo.annotations.keys(): decls.setdefault(name, (cls.__module__, f"{cls.__qualname__}.{name}")) for name in cls.__dict__: decls.setdefault(name, (cls.__module__, f"{cls.__qualname__}.{name}")) if decls.get("__init__", None) == ("builtins", "object.__init__"): decls["__init__"] = ( self.obj.__module__, f"{self.obj.__qualname__}.__init__", ) return decls def _taken_from(self, member_name: str, obj: Any) -> tuple[str, str]: try: return self._declarations[member_name] except KeyError: # pragma: no cover warnings.warn( f"Cannot determine where {self.fullname}.{member_name} is taken from, assuming current file." ) return self.modulename, f"{self.qualname}.{member_name}" @cached_property def _var_annotations(self) -> dict[str, type]: annotations: dict[str, type] = {} for cls in self.obj.__mro__: cls_annotations = doc_ast.walk_tree(cls).annotations.copy() dynamic_annotations = _safe_getattr(cls, "__annotations__", None) if isinstance(dynamic_annotations, dict): for k, v in dynamic_annotations.items(): cls_annotations[k] = v cls_fullname = ( _safe_getattr(cls, "__module__", "") + "." + cls.__qualname__ ).lstrip(".") cls_annotations = resolve_annotations( cls_annotations, inspect.getmodule(cls), cls_fullname ) for k, v in cls_annotations.items(): annotations.setdefault(k, v) return annotations @cached_property def own_members(self) -> list[Doc]: members = self._members_by_origin.get((self.modulename, self.qualname), []) if self.taken_from != (self.modulename, self.qualname): # .taken_from may be != (self.modulename, self.qualname), for example when # a module re-exports a class from a private submodule. members += self._members_by_origin.get(self.taken_from, []) return members @cached_property def _member_objects(self) -> dict[str, Any]: unsorted: dict[str, Any] = {} for cls in self.obj.__mro__: for name, obj in cls.__dict__.items(): unsorted.setdefault(name, obj) for name in self._var_annotations: unsorted.setdefault(name, empty) for name in self._var_docstrings: unsorted.setdefault(name, empty) # Do a dance similar to # https://github.com/python/cpython/blob/9feae41c4f04ca27fd2c865807a5caeb50bf4fc4/Lib/inspect.py#L2359-L2376 call = _safe_getattr(type(self.obj), "__call__", object.__call__) if not isinstance(call, NonUserDefinedCallables): # Does the metaclass define a custom __call__ method? unsorted["__init__"] = call if issubclass(self.obj, enum.Enum): # Special case: do not show a constructor for enums. They are typically not constructed by users. # The alternative would be showing __new__, as __call__ is too verbose. del unsorted["__init__"] else: # Does our class define a custom __new__ method? new = _safe_getattr(self.obj, "__new__", object.__new__) if not isinstance(new, NonUserDefinedCallables): # we only want to pick up __new__ if it has a non-default docstring. prefer_init_over_new = new.__doc__ in (None, object.__new__.__doc__) if not prefer_init_over_new: unsorted["__init__"] = new sorted: dict[str, Any] = {} for cls in self.obj.__mro__: sorted, unsorted = doc_ast.sort_by_source(cls, sorted, unsorted) sorted.update(unsorted) return sorted @cached_property def bases(self) -> list[tuple[str, str, str]]: """ A list of all base classes, i.e. all immediate parent classes. Each parent class is represented as a `(modulename, qualname, display_text)` tuple. """ bases = [] # noinspection PyUnresolvedReferences for x in _safe_getattr(self.obj, "__orig_bases__", self.obj.__bases__): if x is object: continue o = get_origin(x) if o: bases.append((o.__module__, o.__qualname__, str(x))) elif x.__module__ == self.modulename: bases.append((x.__module__, x.__qualname__, x.__qualname__)) else: bases.append( (x.__module__, x.__qualname__, f"{x.__module__}.{x.__qualname__}") ) return bases @cached_property def decorators(self) -> list[str]: """A list of all decorators the class is decorated with.""" decorators = [] for t in doc_ast.parse(self.obj).decorator_list: decorators.append(f"@{doc_ast.unparse(t)}") return decorators @cached_property def class_variables(self) -> list["Variable"]: """ A list of all documented class variables in the class. Class variables are variables that are explicitly annotated with `typing.ClassVar`. All other variables are treated as instance variables. """ return [ x for x in self.members.values() if isinstance(x, Variable) and x.is_classvar ] @cached_property def instance_variables(self) -> list["Variable"]: """ A list of all instance variables in the class. """ return [ x for x in self.members.values() if isinstance(x, Variable) and not x.is_classvar ] @cached_property def classmethods(self) -> list["Function"]: """ A list of all documented `@classmethod`s. """ return [ x for x in self.members.values() if isinstance(x, Function) and x.is_classmethod ] @cached_property def staticmethods(self) -> list["Function"]: """ A list of all documented `@staticmethod`s. """ return [ x for x in self.members.values() if isinstance(x, Function) and x.is_staticmethod ] @cached_property def methods(self) -> list["Function"]: """ A list of all documented methods in the class that are neither static- nor classmethods. """ return [ x for x in self.members.values() if isinstance(x, Function) and not x.is_staticmethod and not x.is_classmethod ] WrappedFunction = Union[types.FunctionType, staticmethod, classmethod] class Function(Doc[types.FunctionType]): """ Representation of a function's documentation. This class covers all "flavors" of functions, for example it also supports `@classmethod`s or `@staticmethod`s. """ wrapped: Union[types.FunctionType, staticmethod, classmethod] """The original wrapped function (e.g., `staticmethod(func)`)""" obj: types.FunctionType """The unwrapped "real" function.""" def __init__( self, modulename: str, qualname: str, func: WrappedFunction, taken_from: tuple[str, str], ): """Initialize a function's documentation object.""" unwrapped: types.FunctionType if isinstance(func, (classmethod, staticmethod)): # noinspection PyTypeChecker unwrapped = func.__func__ # type: ignore else: unwrapped = func super().__init__(modulename, qualname, unwrapped, taken_from) self.wrapped = func @cache @_include_fullname_in_traceback def __repr__(self): if self.is_classmethod: t = "class" elif self.is_staticmethod: t = "static" elif self.qualname != _safe_getattr(self.obj, "__name__", None): t = "method" else: t = "function" return f"<{_decorators(self)}{t} {self.funcdef} {self.name}{self.signature}: ...{_docstr(self)}>" @cached_property def docstring(self) -> str: doc = Doc.docstring.__get__(self) if not doc: # inspect.getdoc fails for inherited @classmethods and unbound @property descriptors. # We now do an ugly dance to obtain the bound object instead, # that somewhat resembles what inspect._findclass is doing. cls = sys.modules.get(_safe_getattr(self.obj, "__module__", None), None) for name in _safe_getattr(self.obj, "__qualname__", "").split(".")[:-1]: cls = _safe_getattr(cls, name, None) doc = inspect.getdoc(_safe_getattr(cls, self.name, None)) or "" doc = doc.strip() if doc == object.__init__.__doc__: # inspect.getdoc(Foo.__init__) returns the docstring, for object.__init__ if left undefined... return "" else: return doc @cached_property def is_classmethod(self) -> bool: """ `True` if this function is a `@classmethod`, `False` otherwise. """ return isinstance(self.wrapped, classmethod) @cached_property def is_staticmethod(self) -> bool: """ `True` if this function is a `@staticmethod`, `False` otherwise. """ return isinstance(self.wrapped, staticmethod) @cached_property def decorators(self) -> list[str]: """A list of all decorators the function is decorated with.""" decorators = [] # noinspection PyTypeChecker obj: types.FunctionType = self.obj # type: ignore for t in doc_ast.parse(obj).decorator_list: decorators.append(f"@{doc_ast.unparse(t)}") return decorators @cached_property def funcdef(self) -> str: """ The string of keywords used to define the function, i.e. `"def"` or `"async def"`. """ if inspect.iscoroutinefunction(self.obj) or inspect.isasyncgenfunction( self.obj ): return "async def" else: return "def" @cached_property def signature(self) -> inspect.Signature: """ The function's signature. This usually returns an instance of `_PrettySignature`, a subclass of `inspect.Signature` that contains pdoc-specific optimizations. For example, long argument lists are split over multiple lines in repr(). Additionally, all types are already resolved. If the signature cannot be determined, a placeholder Signature object is returned. """ if self.obj is object.__init__: # there is a weird edge case were inspect.signature returns a confusing (self, /, *args, **kwargs) # signature for the default __init__ method. return inspect.Signature() try: sig = _PrettySignature.from_callable(self.obj) except Exception: return inspect.Signature( [inspect.Parameter("unknown", inspect.Parameter.POSITIONAL_OR_KEYWORD)] ) mod = inspect.getmodule(self.obj) globalns = _safe_getattr(mod, "__dict__", {}) if self.name == "__init__": sig = sig.replace(return_annotation=empty) else: sig = sig.replace( return_annotation=safe_eval_type( sig.return_annotation, globalns, self.fullname ) ) for p in sig.parameters.values(): # noinspection PyTypeHints p._annotation = safe_eval_type(p.annotation, globalns, self.fullname) # type: ignore return sig @cached_property def signature_without_self(self) -> inspect.Signature: """Like `signature`, but without the first argument. This is useful to display constructors. """ return self.signature.replace( parameters=list(self.signature.parameters.values())[1:] ) class Variable(Doc[None]): """ Representation of a variable's documentation. This includes module, class and instance variables. """ default_value: Union[ Any, empty ] # technically Any includes empty, but this conveys intent. """ The variable's default value. In some cases, no default value is known. This may either be because a variable is only defined in the constructor, or it is only declared with a type annotation without assignment (`foo: int`). To distinguish this case from a default value of `None`, `pdoc.doc_types.empty` is used as a placeholder. """ annotation: Union[type, empty] """ The variable's type annotation. If there is no type annotation, `pdoc.doc_types.empty` is used as a placeholder. """ # noinspection PyPropertyAccess def __init__( self, modulename: str, qualname: str, *, taken_from: tuple[str, str], docstring: str, annotation: Union[type, empty] = empty, default_value: Union[Any, empty] = empty, ): """ Construct a variable doc object. While classes and functions can introspect themselves to see their docstring, variables can't do that as we don't have a "variable object" we could query. As such, docstring, declaration location, type annotation, and the default value must be passed manually in the constructor. """ super().__init__(modulename, qualname, None, taken_from) self.docstring = inspect.cleandoc(docstring) self.annotation = annotation self.default_value = default_value @cache @_include_fullname_in_traceback def __repr__(self): return f'<var {self.qualname.rsplit(".")[-1]}{self.annotation_str}{self.default_value_str}{_docstr(self)}>' @cached_property def is_classvar(self) -> bool: """`True` if the variable is a class variable, `False` otherwise.""" if get_origin(self.annotation) is ClassVar: return True else: return False @cached_property def default_value_str(self) -> str: """The variable's default value as a pretty-printed str.""" if self.default_value is empty: return "" elif isinstance(self.default_value, _tuplegetter): return "" else: try: return re.sub( r" at 0x[0-9a-fA-F]+(?=>$)", "", f" = {repr(self.default_value)}", ) except Exception: return " = <unable to get value representation>" @cached_property def annotation_str(self) -> str: """The variable's type annotation as a pretty-printed str.""" if self.annotation is not empty: return f": {formatannotation(self.annotation)}" else: return "" class _PrettySignature(inspect.Signature): """ A subclass of `inspect.Signature` that pads __str__ over several lines for complex signatures. """ def __str__(self): # redeclared here to keep code snipped below as-is. _POSITIONAL_ONLY = inspect.Parameter.POSITIONAL_ONLY _VAR_POSITIONAL = inspect.Parameter.VAR_POSITIONAL _KEYWORD_ONLY = inspect.Parameter.KEYWORD_ONLY _empty = empty # https://github.com/python/cpython/blob/799f8489d418b7f9207d333eac38214931bd7dcc/Lib/inspect.py#L3083-L3123 # Change: added re.sub() to formatted = .... # ✂ start ✂ result = [] render_pos_only_separator = False render_kw_only_separator = True for param in self.parameters.values(): formatted = re.sub(r" at 0x[0-9a-fA-F]+(?=>$)", "", str(param)) kind = param.kind if kind == _POSITIONAL_ONLY: render_pos_only_separator = True elif render_pos_only_separator: # It's not a positional-only parameter, and the flag # is set to 'True' (there were pos-only params before.) result.append("/") render_pos_only_separator = False if kind == _VAR_POSITIONAL: # OK, we have an '*args'-like parameter, so we won't need # a '*' to separate keyword-only arguments render_kw_only_separator = False elif kind == _KEYWORD_ONLY and render_kw_only_separator: # We have a keyword-only parameter to render and we haven't # rendered an '*args'-like parameter before, so add a '*' # separator to the parameters list ("foo(arg1, *, arg2)" case) result.append("*") # This condition should be only triggered once, so # reset the flag render_kw_only_separator = False result.append(formatted) if render_pos_only_separator: # There were only positional-only parameters, hence the # flag was not reset to 'False' result.append("/") rendered = "({})".format(", ".join(result)) if self.return_annotation is not _empty: anno = formatannotation(self.return_annotation) rendered += " -> {}".format(anno) # ✂ end ✂ if len(rendered) > 70: rendered = "(\n " + ",\n ".join(result) + "\n)" if self.return_annotation is not _empty: rendered += f" -> {formatannotation(self.return_annotation)}" return rendered def _cut(x: str) -> str: """helper function for Doc.__repr__()""" if len(x) < 20: return x else: return x[:20] + "…" def _docstr(doc: "Doc") -> str: """helper function for Doc.__repr__()""" docstr = [] if doc.is_inherited: docstr.append(f"inherited from {'.'.join(doc.taken_from).rstrip('.')}") if doc.docstring: docstr.append(_cut(doc.docstring)) if docstr: return f" # {', '.join(docstr)}" else: return "" def _decorators(doc: Union["Class", "Function"]) -> str: """helper function for Doc.__repr__()""" if doc.decorators: return " ".join(doc.decorators) + " " else: return "" def _children(doc: Namespace) -> str: children = "\n".join( repr(x) for x in doc.members.values() if not x.name.startswith("_") or x.name == "__init__" ) if children: children = f"\n{textwrap.indent(children, ' ')}" return children def _safe_getattr(obj, attr, default): """Like `getattr()`, but never raises.""" try: return getattr(obj, attr, default) except Exception as e: warnings.warn( f"getattr({obj!r}, {attr!r}, {default!r}) raised an exception: {e}", RuntimeWarning, ) return default
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class Doc(Generic[T]): """ A base class for all documentation objects. """ modulename: str """ The module that this object is in, for example `pdoc.doc`. """ qualname: str """ The qualified identifier name for this object. For example, if we have the following code: ```python class Foo: def bar(self): pass ``` The qualname of `Foo`'s `bar` method is `Foo.bar`. The qualname of the `Foo` class is just `Foo`. See <https://www.python.org/dev/peps/pep-3155/> for details. """ obj: T """ The underlying Python object. """ taken_from: tuple[str, str] """ `(modulename, qualname)` of this doc object's original location. In the context of a module, this points to the location it was imported from, in the context classes, this points to the class an attribute is inherited from. """ def __init__( self, modulename: str, qualname: str, obj: T, taken_from: tuple[str, str] ): """ Initializes a documentation object, where `modulename` is the name this module is defined in, `qualname` contains a dotted path leading to the object from the module top-level, and `obj` is the object to document. """ self.modulename = modulename self.qualname = qualname self.obj = obj self.taken_from = taken_from @cached_property def fullname(self) -> str: """The full qualified name of this doc object, for example `pdoc.doc.Doc`.""" # qualname is empty for modules return f"{self.modulename}.{self.qualname}".rstrip(".") @cached_property def name(self) -> str: """The name of this object. For top-level functions and classes, this is equal to the qualname attribute.""" return self.fullname.split(".")[-1] @cached_property def docstring(self) -> str: """ The docstring for this object. It has already been cleaned by `inspect.cleandoc`. If no docstring can be found, an empty string is returned. """ doc = inspect.getdoc(self.obj) or "" return doc.strip() @cached_property def source(self) -> str: """ The source code of the Python object as a `str`. If the source cannot be obtained (for example, because we are dealing with a native C object), an empty string is returned. """ return doc_ast.get_source(self.obj) @cached_property def is_inherited(self) -> bool: """ If True, the doc object is inherited from another location. This most commonly refers to methods inherited by a subclass, but can also apply to variables that are assigned a class defined in a different module. """ return (self.modulename, self.qualname) != self.taken_from @classmethod @property def type(cls) -> str: """ The type of the doc object, either `"module"`, `"class"`, or `"function"`. """ return cls.__name__.lower() if sys.version_info < (3, 9): # pragma: no cover # no @classmethod @property in 3.8 @property def type(self) -> str: # noqa return self.__class__.__name__.lower() def __lt__(self, other): assert isinstance(other, Doc) return self.fullname.replace("__init__", "").__lt__( other.fullname.replace("__init__", "") )
A base class for all documentation objects.
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def __init__( self, modulename: str, qualname: str, obj: T, taken_from: tuple[str, str] ): """ Initializes a documentation object, where `modulename` is the name this module is defined in, `qualname` contains a dotted path leading to the object from the module top-level, and `obj` is the object to document. """ self.modulename = modulename self.qualname = qualname self.obj = obj self.taken_from = taken_from
Initializes a documentation object, where
modulename is the name this module is defined in,
qualname contains a dotted path leading to the object from the module top-level, and
obj is the object to document.
The qualified identifier name for this object. For example, if we have the following code:
class Foo:
def bar(self):
pass
The qualname of Foo's bar method is Foo.bar. The qualname of the Foo class is just Foo.
See https://www.python.org/dev/peps/pep-3155/ for details.
The underlying Python object.
(modulename, qualname) of this doc object's original location.
In the context of a module, this points to the location it was imported from,
in the context classes, this points to the class an attribute is inherited from.
The full qualified name of this doc object, for example pdoc.doc.Doc.
The name of this object. For top-level functions and classes, this is equal to the qualname attribute.
The docstring for this object. It has already been cleaned by inspect.cleandoc.
If no docstring can be found, an empty string is returned.
The source code of the Python object as a str.
If the source cannot be obtained (for example, because we are dealing with a native C object), an empty string is returned.
If True, the doc object is inherited from another location. This most commonly refers to methods inherited by a subclass, but can also apply to variables that are assigned a class defined in a different module.
The type of the doc object, either "module", "class", or "function".
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class Namespace(Doc[T], metaclass=ABCMeta): """ A documentation object that can have children. In other words, either a module or a class. """ @cached_property @abstractmethod def _member_objects(self) -> dict[str, Any]: """ A mapping from *all* public and private member names to their Python objects. """ @cached_property @abstractmethod def _var_docstrings(self) -> dict[str, str]: """A mapping from some member variable names to their docstrings.""" @abstractmethod def _taken_from(self, member_name: str, obj: Any) -> tuple[str, str]: """The location this member was taken from. If unknown, (modulename, qualname) is returned.""" @cached_property @abstractmethod def _var_annotations(self) -> dict[str, Any]: """A mapping from some member variable names to their type annotations.""" @cached_property @abstractmethod def own_members(self) -> list[Doc]: """A list of all own (i.e. non-inherited) members""" @cached_property def members(self) -> dict[str, Doc]: """A mapping from all members to their documentation objects.""" members: dict[str, Doc] = {} for name, obj in self._member_objects.items(): qualname = f"{self.qualname}.{name}".lstrip(".") taken_from = self._taken_from(name, obj) doc: Doc[Any] is_classmethod = isinstance(obj, classmethod) is_property = ( isinstance(obj, (property, cached_property)) or # Python 3.9: @classmethod @property is now allowed. is_classmethod and isinstance(obj.__func__, (property, cached_property)) ) if is_property: func = obj if is_classmethod: func = obj.__func__ if isinstance(func, property): func = func.fget else: assert isinstance(func, cached_property) func = func.func doc_f = Function(self.modulename, qualname, func, taken_from) doc = Variable( self.modulename, qualname, docstring=doc_f.docstring, annotation=doc_f.signature.return_annotation, default_value=empty, taken_from=taken_from, ) elif inspect.isroutine(obj): doc = Function(self.modulename, qualname, obj, taken_from) elif inspect.isclass(obj) and obj is not empty: doc = Class(self.modulename, qualname, obj, taken_from) elif inspect.ismodule(obj): doc = Module(obj) doc.modulename = self.modulename doc.qualname = qualname else: docstring = self._var_docstrings.get(name, "") if not docstring and inspect.isdatadescriptor(obj): docstring = getattr(obj, "__doc__", None) or "" doc = Variable( self.modulename, qualname, docstring=docstring, annotation=self._var_annotations.get(name, empty), default_value=obj, taken_from=taken_from, ) members[doc.name] = doc return members @cached_property def _members_by_origin(self) -> dict[tuple[str, str], list[Doc]]: """A mapping from (modulename, qualname) locations to the attributes taken from that path""" locations: dict[tuple[str, str], list[Doc]] = {} for member in self.members.values(): mod, qualname = member.taken_from parent_qualname = ".".join(qualname.rsplit(".", maxsplit=1)[:-1]) locations.setdefault((mod, parent_qualname), []) locations[(mod, parent_qualname)].append(member) return locations @cached_property def inherited_members(self) -> dict[tuple[str, str], list[Doc]]: """A mapping from (modulename, qualname) locations to the attributes inherited from that path""" return { k: v for k, v in self._members_by_origin.items() if k not in (self.taken_from, (self.modulename, self.qualname)) } @cached_property def flattened_own_members(self) -> list[Doc]: """ A list of all documented members and their child classes, recursively. """ flattened = [] for x in self.own_members: flattened.append(x) if isinstance(x, Class): flattened.extend( [cls for cls in x.flattened_own_members if isinstance(cls, Class)] ) return flattened @cache def get(self, identifier: str) -> Optional[Doc]: """Returns the documentation object for a particular identifier, or `None` if the identifier cannot be found.""" head, _, tail = identifier.partition(".") if tail: h = self.members.get(head, None) if isinstance(h, Class): return h.get(tail) return None else: return self.members.get(identifier, None)
A documentation object that can have children. In other words, either a module or a class.
A list of all own (i.e. non-inherited) members
A mapping from all members to their documentation objects.
A mapping from (modulename, qualname) locations to the attributes inherited from that path
A list of all documented members and their child classes, recursively.
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@cache def get(self, identifier: str) -> Optional[Doc]: """Returns the documentation object for a particular identifier, or `None` if the identifier cannot be found.""" head, _, tail = identifier.partition(".") if tail: h = self.members.get(head, None) if isinstance(h, Class): return h.get(tail) return None else: return self.members.get(identifier, None)
Returns the documentation object for a particular identifier, or None if the identifier cannot be found.
Inherited Members
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class Module(Namespace[types.ModuleType]): """ Representation of a module's documentation. """ def __init__( self, module: types.ModuleType, ): """ Creates a documentation object given the actual Python module object. """ super().__init__(module.__name__, "", module, (module.__name__, "")) @cache @_include_fullname_in_traceback def __repr__(self): return f"<module {self.fullname}{_docstr(self)}{_children(self)}>" @cached_property def is_package(self) -> bool: """ `True` if the module is a package, `False` otherwise. Packages are special kind of module that may have submodules. Typically, this means that this file is in a directory named like the module with the name `__init__.py`. """ return _safe_getattr(self.obj, "__path__", None) is not None @cached_property def _var_docstrings(self) -> dict[str, str]: return doc_ast.walk_tree(self.obj).docstrings def _taken_from(self, member_name: str, obj: Any) -> tuple[str, str]: if obj is empty: return self.modulename, f"{self.qualname}.{member_name}".lstrip(".") if isinstance(obj, types.ModuleType): return obj.__name__, "" mod = _safe_getattr(obj, "__module__", None) qual = _safe_getattr(obj, "__qualname__", None) if mod and qual and "<locals>" not in qual: return mod, qual elif mod and mod != self.modulename: # This might be wrong, but it's the best guess we have. return mod, f"{self.qualname}.{member_name}".lstrip(".") else: # We could conceivably also walk the AST here for imports, # which would turn up the origin of variables. return self.modulename, f"{self.qualname}.{member_name}".lstrip(".") @cached_property def _var_annotations(self) -> dict[str, Any]: annotations = doc_ast.walk_tree(self.obj).annotations.copy() for k, v in _safe_getattr(self.obj, "__annotations__", {}).items(): annotations[k] = v return resolve_annotations(annotations, self.obj, self.fullname) @cached_property def own_members(self) -> list[Doc]: return list(self.members.values()) @cached_property def submodules(self) -> list["Module"]: """A list of all (direct) submodules.""" if not self.is_package: return [] if _safe_getattr(self.obj, "__all__", False): # If __all__ is set, only show submodules specified there. return [ mod for mod in self.members.values() if isinstance(mod, Module) and mod.modulename.startswith(self.modulename) ] else: submodules = [] for mod in pkgutil.iter_modules(self.obj.__path__, f"{self.fullname}."): # type: ignore if mod.name.split(".")[-1].startswith("_"): continue try: module = extract.load_module(mod.name) except RuntimeError: warnings.warn( f"Couldn't import {mod.name}:\n{traceback.format_exc()}", RuntimeWarning, ) continue submodules.append(Module(module)) return submodules @cached_property def _documented_members(self) -> set[str]: return self._var_docstrings.keys() | self._var_annotations.keys() @cached_property def _member_objects(self) -> dict[str, Any]: members = {} all = _safe_getattr(self.obj, "__all__", False) if all: for name in all: if name in self.obj.__dict__: val = self.obj.__dict__[name] elif name in self._var_annotations: val = empty else: # this may be an unimported submodule, try importing. # (https://docs.python.org/3/tutorial/modules.html#importing-from-a-package) try: val = extract.load_module(f"{self.modulename}.{name}") except RuntimeError as e: warnings.warn( f"Found {name!r} in {self.modulename}.__all__, but it does not resolve: {e}", RuntimeWarning, ) val = empty members[name] = val else: for name, obj in self.obj.__dict__.items(): # We already exclude everything here that is imported, only a TypeVar, # or a variable without annotation and docstring. # If one needs to document one of these things, __all__ is the correct way. if isinstance(obj, TypeVar): continue obj_module = inspect.getmodule(obj) declared_in_this_module = self.obj.__name__ == _safe_getattr( obj_module, "__name__", None ) if declared_in_this_module or name in self._documented_members: members[name] = obj for name in self._var_annotations: members.setdefault(name, empty) members, notfound = doc_ast.sort_by_source(self.obj, {}, members) members.update(notfound) return members @cached_property def variables(self) -> list["Variable"]: """ A list of all documented module level variables. """ return [x for x in self.members.values() if isinstance(x, Variable)] @cached_property def classes(self) -> list["Class"]: """ A list of all documented module level classes. """ return [x for x in self.members.values() if isinstance(x, Class)] @cached_property def functions(self) -> list["Function"]: """ A list of all documented module level functions. """ return [x for x in self.members.values() if isinstance(x, Function)]
Representation of a module's documentation.
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def __init__( self, module: types.ModuleType, ): """ Creates a documentation object given the actual Python module object. """ super().__init__(module.__name__, "", module, (module.__name__, ""))
Creates a documentation object given the actual Python module object.
True if the module is a package, False otherwise.
Packages are special kind of module that may have submodules.
Typically, this means that this file is in a directory named like the
module with the name __init__.py.
A list of all (direct) submodules.
A list of all documented module level variables.
A list of all documented module level classes.
A list of all documented module level functions.
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class Class(Namespace[type]): """ Representation of a class's documentation. """ @cache @_include_fullname_in_traceback def __repr__(self): return f"<{_decorators(self)}class {self.modulename}.{self.qualname}{_docstr(self)}{_children(self)}>" @cached_property def _var_docstrings(self) -> dict[str, str]: docstrings: dict[str, str] = {} for cls in self.obj.__mro__: for name, docstr in doc_ast.walk_tree(cls).docstrings.items(): docstrings.setdefault(name, docstr) return docstrings @cached_property def _declarations(self) -> dict[str, tuple[str, str]]: decls: dict[str, tuple[str, str]] = {} for cls in self.obj.__mro__: treeinfo = doc_ast.walk_tree(cls) for name in treeinfo.docstrings.keys() | treeinfo.annotations.keys(): decls.setdefault(name, (cls.__module__, f"{cls.__qualname__}.{name}")) for name in cls.__dict__: decls.setdefault(name, (cls.__module__, f"{cls.__qualname__}.{name}")) if decls.get("__init__", None) == ("builtins", "object.__init__"): decls["__init__"] = ( self.obj.__module__, f"{self.obj.__qualname__}.__init__", ) return decls def _taken_from(self, member_name: str, obj: Any) -> tuple[str, str]: try: return self._declarations[member_name] except KeyError: # pragma: no cover warnings.warn( f"Cannot determine where {self.fullname}.{member_name} is taken from, assuming current file." ) return self.modulename, f"{self.qualname}.{member_name}" @cached_property def _var_annotations(self) -> dict[str, type]: annotations: dict[str, type] = {} for cls in self.obj.__mro__: cls_annotations = doc_ast.walk_tree(cls).annotations.copy() dynamic_annotations = _safe_getattr(cls, "__annotations__", None) if isinstance(dynamic_annotations, dict): for k, v in dynamic_annotations.items(): cls_annotations[k] = v cls_fullname = ( _safe_getattr(cls, "__module__", "") + "." + cls.__qualname__ ).lstrip(".") cls_annotations = resolve_annotations( cls_annotations, inspect.getmodule(cls), cls_fullname ) for k, v in cls_annotations.items(): annotations.setdefault(k, v) return annotations @cached_property def own_members(self) -> list[Doc]: members = self._members_by_origin.get((self.modulename, self.qualname), []) if self.taken_from != (self.modulename, self.qualname): # .taken_from may be != (self.modulename, self.qualname), for example when # a module re-exports a class from a private submodule. members += self._members_by_origin.get(self.taken_from, []) return members @cached_property def _member_objects(self) -> dict[str, Any]: unsorted: dict[str, Any] = {} for cls in self.obj.__mro__: for name, obj in cls.__dict__.items(): unsorted.setdefault(name, obj) for name in self._var_annotations: unsorted.setdefault(name, empty) for name in self._var_docstrings: unsorted.setdefault(name, empty) # Do a dance similar to # https://github.com/python/cpython/blob/9feae41c4f04ca27fd2c865807a5caeb50bf4fc4/Lib/inspect.py#L2359-L2376 call = _safe_getattr(type(self.obj), "__call__", object.__call__) if not isinstance(call, NonUserDefinedCallables): # Does the metaclass define a custom __call__ method? unsorted["__init__"] = call if issubclass(self.obj, enum.Enum): # Special case: do not show a constructor for enums. They are typically not constructed by users. # The alternative would be showing __new__, as __call__ is too verbose. del unsorted["__init__"] else: # Does our class define a custom __new__ method? new = _safe_getattr(self.obj, "__new__", object.__new__) if not isinstance(new, NonUserDefinedCallables): # we only want to pick up __new__ if it has a non-default docstring. prefer_init_over_new = new.__doc__ in (None, object.__new__.__doc__) if not prefer_init_over_new: unsorted["__init__"] = new sorted: dict[str, Any] = {} for cls in self.obj.__mro__: sorted, unsorted = doc_ast.sort_by_source(cls, sorted, unsorted) sorted.update(unsorted) return sorted @cached_property def bases(self) -> list[tuple[str, str, str]]: """ A list of all base classes, i.e. all immediate parent classes. Each parent class is represented as a `(modulename, qualname, display_text)` tuple. """ bases = [] # noinspection PyUnresolvedReferences for x in _safe_getattr(self.obj, "__orig_bases__", self.obj.__bases__): if x is object: continue o = get_origin(x) if o: bases.append((o.__module__, o.__qualname__, str(x))) elif x.__module__ == self.modulename: bases.append((x.__module__, x.__qualname__, x.__qualname__)) else: bases.append( (x.__module__, x.__qualname__, f"{x.__module__}.{x.__qualname__}") ) return bases @cached_property def decorators(self) -> list[str]: """A list of all decorators the class is decorated with.""" decorators = [] for t in doc_ast.parse(self.obj).decorator_list: decorators.append(f"@{doc_ast.unparse(t)}") return decorators @cached_property def class_variables(self) -> list["Variable"]: """ A list of all documented class variables in the class. Class variables are variables that are explicitly annotated with `typing.ClassVar`. All other variables are treated as instance variables. """ return [ x for x in self.members.values() if isinstance(x, Variable) and x.is_classvar ] @cached_property def instance_variables(self) -> list["Variable"]: """ A list of all instance variables in the class. """ return [ x for x in self.members.values() if isinstance(x, Variable) and not x.is_classvar ] @cached_property def classmethods(self) -> list["Function"]: """ A list of all documented `@classmethod`s. """ return [ x for x in self.members.values() if isinstance(x, Function) and x.is_classmethod ] @cached_property def staticmethods(self) -> list["Function"]: """ A list of all documented `@staticmethod`s. """ return [ x for x in self.members.values() if isinstance(x, Function) and x.is_staticmethod ] @cached_property def methods(self) -> list["Function"]: """ A list of all documented methods in the class that are neither static- nor classmethods. """ return [ x for x in self.members.values() if isinstance(x, Function) and not x.is_staticmethod and not x.is_classmethod ]
Representation of a class's documentation.
A list of all base classes, i.e. all immediate parent classes.
Each parent class is represented as a (modulename, qualname, display_text) tuple.
A list of all decorators the class is decorated with.
A list of all documented class variables in the class.
Class variables are variables that are explicitly annotated with typing.ClassVar.
All other variables are treated as instance variables.
A list of all instance variables in the class.
A list of all documented @classmethods.
A list of all documented @staticmethods.
A list of all documented methods in the class that are neither static- nor classmethods.
View Source
class Function(Doc[types.FunctionType]): """ Representation of a function's documentation. This class covers all "flavors" of functions, for example it also supports `@classmethod`s or `@staticmethod`s. """ wrapped: Union[types.FunctionType, staticmethod, classmethod] """The original wrapped function (e.g., `staticmethod(func)`)""" obj: types.FunctionType """The unwrapped "real" function.""" def __init__( self, modulename: str, qualname: str, func: WrappedFunction, taken_from: tuple[str, str], ): """Initialize a function's documentation object.""" unwrapped: types.FunctionType if isinstance(func, (classmethod, staticmethod)): # noinspection PyTypeChecker unwrapped = func.__func__ # type: ignore else: unwrapped = func super().__init__(modulename, qualname, unwrapped, taken_from) self.wrapped = func @cache @_include_fullname_in_traceback def __repr__(self): if self.is_classmethod: t = "class" elif self.is_staticmethod: t = "static" elif self.qualname != _safe_getattr(self.obj, "__name__", None): t = "method" else: t = "function" return f"<{_decorators(self)}{t} {self.funcdef} {self.name}{self.signature}: ...{_docstr(self)}>" @cached_property def docstring(self) -> str: doc = Doc.docstring.__get__(self) if not doc: # inspect.getdoc fails for inherited @classmethods and unbound @property descriptors. # We now do an ugly dance to obtain the bound object instead, # that somewhat resembles what inspect._findclass is doing. cls = sys.modules.get(_safe_getattr(self.obj, "__module__", None), None) for name in _safe_getattr(self.obj, "__qualname__", "").split(".")[:-1]: cls = _safe_getattr(cls, name, None) doc = inspect.getdoc(_safe_getattr(cls, self.name, None)) or "" doc = doc.strip() if doc == object.__init__.__doc__: # inspect.getdoc(Foo.__init__) returns the docstring, for object.__init__ if left undefined... return "" else: return doc @cached_property def is_classmethod(self) -> bool: """ `True` if this function is a `@classmethod`, `False` otherwise. """ return isinstance(self.wrapped, classmethod) @cached_property def is_staticmethod(self) -> bool: """ `True` if this function is a `@staticmethod`, `False` otherwise. """ return isinstance(self.wrapped, staticmethod) @cached_property def decorators(self) -> list[str]: """A list of all decorators the function is decorated with.""" decorators = [] # noinspection PyTypeChecker obj: types.FunctionType = self.obj # type: ignore for t in doc_ast.parse(obj).decorator_list: decorators.append(f"@{doc_ast.unparse(t)}") return decorators @cached_property def funcdef(self) -> str: """ The string of keywords used to define the function, i.e. `"def"` or `"async def"`. """ if inspect.iscoroutinefunction(self.obj) or inspect.isasyncgenfunction( self.obj ): return "async def" else: return "def" @cached_property def signature(self) -> inspect.Signature: """ The function's signature. This usually returns an instance of `_PrettySignature`, a subclass of `inspect.Signature` that contains pdoc-specific optimizations. For example, long argument lists are split over multiple lines in repr(). Additionally, all types are already resolved. If the signature cannot be determined, a placeholder Signature object is returned. """ if self.obj is object.__init__: # there is a weird edge case were inspect.signature returns a confusing (self, /, *args, **kwargs) # signature for the default __init__ method. return inspect.Signature() try: sig = _PrettySignature.from_callable(self.obj) except Exception: return inspect.Signature( [inspect.Parameter("unknown", inspect.Parameter.POSITIONAL_OR_KEYWORD)] ) mod = inspect.getmodule(self.obj) globalns = _safe_getattr(mod, "__dict__", {}) if self.name == "__init__": sig = sig.replace(return_annotation=empty) else: sig = sig.replace( return_annotation=safe_eval_type( sig.return_annotation, globalns, self.fullname ) ) for p in sig.parameters.values(): # noinspection PyTypeHints p._annotation = safe_eval_type(p.annotation, globalns, self.fullname) # type: ignore return sig @cached_property def signature_without_self(self) -> inspect.Signature: """Like `signature`, but without the first argument. This is useful to display constructors. """ return self.signature.replace( parameters=list(self.signature.parameters.values())[1:] )
Representation of a function's documentation.
This class covers all "flavors" of functions, for example it also
supports @classmethods or @staticmethods.
#
Function(
modulename: str,
qualname: str,
func: Union[function, staticmethod, classmethod],
taken_from: tuple
)
View Source
def __init__( self, modulename: str, qualname: str, func: WrappedFunction, taken_from: tuple[str, str], ): """Initialize a function's documentation object.""" unwrapped: types.FunctionType if isinstance(func, (classmethod, staticmethod)): # noinspection PyTypeChecker unwrapped = func.__func__ # type: ignore else: unwrapped = func super().__init__(modulename, qualname, unwrapped, taken_from) self.wrapped = func
Initialize a function's documentation object.
The original wrapped function (e.g., staticmethod(func))
The unwrapped "real" function.
True if this function is a @classmethod, False otherwise.
True if this function is a @staticmethod, False otherwise.
A list of all decorators the function is decorated with.
The string of keywords used to define the function, i.e. "def" or "async def".
The function's signature.
This usually returns an instance of _PrettySignature, a subclass of inspect.Signature
that contains pdoc-specific optimizations. For example, long argument lists are split over multiple lines
in repr(). Additionally, all types are already resolved.
If the signature cannot be determined, a placeholder Signature object is returned.
Like signature, but without the first argument.
This is useful to display constructors.
Inherited Members
View Source
class Variable(Doc[None]): """ Representation of a variable's documentation. This includes module, class and instance variables. """ default_value: Union[ Any, empty ] # technically Any includes empty, but this conveys intent. """ The variable's default value. In some cases, no default value is known. This may either be because a variable is only defined in the constructor, or it is only declared with a type annotation without assignment (`foo: int`). To distinguish this case from a default value of `None`, `pdoc.doc_types.empty` is used as a placeholder. """ annotation: Union[type, empty] """ The variable's type annotation. If there is no type annotation, `pdoc.doc_types.empty` is used as a placeholder. """ # noinspection PyPropertyAccess def __init__( self, modulename: str, qualname: str, *, taken_from: tuple[str, str], docstring: str, annotation: Union[type, empty] = empty, default_value: Union[Any, empty] = empty, ): """ Construct a variable doc object. While classes and functions can introspect themselves to see their docstring, variables can't do that as we don't have a "variable object" we could query. As such, docstring, declaration location, type annotation, and the default value must be passed manually in the constructor. """ super().__init__(modulename, qualname, None, taken_from) self.docstring = inspect.cleandoc(docstring) self.annotation = annotation self.default_value = default_value @cache @_include_fullname_in_traceback def __repr__(self): return f'<var {self.qualname.rsplit(".")[-1]}{self.annotation_str}{self.default_value_str}{_docstr(self)}>' @cached_property def is_classvar(self) -> bool: """`True` if the variable is a class variable, `False` otherwise.""" if get_origin(self.annotation) is ClassVar: return True else: return False @cached_property def default_value_str(self) -> str: """The variable's default value as a pretty-printed str.""" if self.default_value is empty: return "" elif isinstance(self.default_value, _tuplegetter): return "" else: try: return re.sub( r" at 0x[0-9a-fA-F]+(?=>$)", "", f" = {repr(self.default_value)}", ) except Exception: return " = <unable to get value representation>" @cached_property def annotation_str(self) -> str: """The variable's type annotation as a pretty-printed str.""" if self.annotation is not empty: return f": {formatannotation(self.annotation)}" else: return ""
Representation of a variable's documentation. This includes module, class and instance variables.
#
Variable(
modulename: str,
qualname: str,
*,
taken_from: tuple,
docstring: str,
annotation: Union[type, inspect._empty],
default_value: Union[Any, inspect._empty]
)
View Source
def __init__( self, modulename: str, qualname: str, *, taken_from: tuple[str, str], docstring: str, annotation: Union[type, empty] = empty, default_value: Union[Any, empty] = empty, ): """ Construct a variable doc object. While classes and functions can introspect themselves to see their docstring, variables can't do that as we don't have a "variable object" we could query. As such, docstring, declaration location, type annotation, and the default value must be passed manually in the constructor. """ super().__init__(modulename, qualname, None, taken_from) self.docstring = inspect.cleandoc(docstring) self.annotation = annotation self.default_value = default_value
Construct a variable doc object.
While classes and functions can introspect themselves to see their docstring, variables can't do that as we don't have a "variable object" we could query. As such, docstring, declaration location, type annotation, and the default value must be passed manually in the constructor.
The variable's default value.
In some cases, no default value is known. This may either be because a variable is only defined in the constructor,
or it is only declared with a type annotation without assignment (foo: int).
To distinguish this case from a default value of None, pdoc.doc_types.empty is used as a placeholder.
The variable's type annotation.
If there is no type annotation, pdoc.doc_types.empty is used as a placeholder.
True if the variable is a class variable, False otherwise.
The variable's default value as a pretty-printed str.
The variable's type annotation as a pretty-printed str.