""" test_util_inspect ~~~~~~~~~~~~~~~ Tests util.inspect functions. :copyright: Copyright 2007-2019 by the Sphinx team, see AUTHORS. :license: BSD, see LICENSE for details. """ import _testcapi import datetime import functools import sys import types from textwrap import dedent import pytest from sphinx.util import inspect def test_getargspec(): def func(a, b, c=1, d=2, *e, **f): pass spec = inspect.getargspec(func) assert spec.args == ['a', 'b', 'c', 'd'] assert spec.varargs == 'e' assert spec.varkw == 'f' assert spec.defaults == (1, 2) assert spec.kwonlyargs == [] assert spec.kwonlydefaults is None assert spec.annotations == {} def test_getargspec_partial(): def func1(a, b, c=1, d=2, *e, **f): pass partial = functools.partial(func1, 10, c=11) spec = inspect.getargspec(partial) assert spec.args == ['b'] assert spec.varargs is None assert spec.varkw == 'f' assert spec.defaults is None assert spec.kwonlyargs == ['c', 'd'] assert spec.kwonlydefaults == {'c': 11, 'd': 2} assert spec.annotations == {} def test_getargspec_partial2(): def fun(a, b, c=1, d=2): pass p = functools.partial(fun, 10, c=11) def f_expected(b, *, c=11, d=2): pass expected = inspect.getargspec(f_expected) assert expected == inspect.getargspec(p) def test_getargspec_builtin_type(): with pytest.raises(TypeError): inspect.getargspec(int) def test_getargspec_bound_methods(): def f_expected_unbound(self, arg1, **kwargs): pass expected_unbound = inspect.getargspec(f_expected_unbound) def f_expected_bound(arg1, **kwargs): pass expected_bound = inspect.getargspec(f_expected_bound) class Foo: def method(self, arg1, **kwargs): pass bound_method = Foo().method @functools.wraps(bound_method) def wrapped_bound_method(*args, **kwargs): pass assert expected_unbound == inspect.getargspec(Foo.method) assert expected_bound == inspect.getargspec(bound_method) assert expected_bound == inspect.getargspec(wrapped_bound_method) def test_Signature(): # literals with pytest.raises(TypeError): inspect.Signature(1) with pytest.raises(TypeError): inspect.Signature('') # builitin classes with pytest.raises(TypeError): inspect.Signature(int) with pytest.raises(TypeError): inspect.Signature(str) # normal function def func(a, b, c=1, d=2, *e, **f): pass sig = inspect.Signature(func).format_args() assert sig == '(a, b, c=1, d=2, *e, **f)' def test_Signature_partial(): def fun(a, b, c=1, d=2): pass p = functools.partial(fun, 10, c=11) sig = inspect.Signature(p).format_args() assert sig == '(b, *, c=11, d=2)' def test_Signature_methods(): class Foo: def meth1(self, arg1, **kwargs): pass @classmethod def meth2(cls, arg1, *args, **kwargs): pass @staticmethod def meth3(arg1, *args, **kwargs): pass @functools.wraps(Foo().meth1) def wrapped_bound_method(*args, **kwargs): pass # unbound method sig = inspect.Signature(Foo.meth1).format_args() assert sig == '(self, arg1, **kwargs)' sig = inspect.Signature(Foo.meth1, bound_method=True).format_args() assert sig == '(arg1, **kwargs)' # bound method sig = inspect.Signature(Foo().meth1).format_args() assert sig == '(arg1, **kwargs)' # class method sig = inspect.Signature(Foo.meth2).format_args() assert sig == '(arg1, *args, **kwargs)' sig = inspect.Signature(Foo().meth2).format_args() assert sig == '(arg1, *args, **kwargs)' # static method sig = inspect.Signature(Foo.meth3).format_args() assert sig == '(arg1, *args, **kwargs)' sig = inspect.Signature(Foo().meth3).format_args() assert sig == '(arg1, *args, **kwargs)' # wrapped bound method sig = inspect.Signature(wrapped_bound_method).format_args() assert sig == '(arg1, **kwargs)' def test_Signature_partialmethod(): from functools import partialmethod class Foo: def meth1(self, arg1, arg2, arg3=None, arg4=None): pass def meth2(self, arg1, arg2): pass foo = partialmethod(meth1, 1, 2) bar = partialmethod(meth1, 1, arg3=3) baz = partialmethod(meth2, 1, 2) subject = Foo() sig = inspect.Signature(subject.foo).format_args() assert sig == '(arg3=None, arg4=None)' sig = inspect.Signature(subject.bar).format_args() assert sig == '(arg2, *, arg3=3, arg4=None)' sig = inspect.Signature(subject.baz).format_args() assert sig == '()' def test_Signature_annotations(): from typing_test_data import (f0, f1, f2, f3, f4, f5, f6, f7, f8, f9, f10, f11, f12, f13, f14, f15, f16, f17, Node) # Class annotations sig = inspect.Signature(f0).format_args() assert sig == '(x: int, y: numbers.Integral) -> None' # Generic types with concrete parameters sig = inspect.Signature(f1).format_args() assert sig == '(x: List[int]) -> List[int]' # TypeVars and generic types with TypeVars sig = inspect.Signature(f2).format_args() assert sig == '(x: List[T], y: List[T_co], z: T) -> List[T_contra]' # Union types sig = inspect.Signature(f3).format_args() assert sig == '(x: Union[str, numbers.Integral]) -> None' # Quoted annotations sig = inspect.Signature(f4).format_args() assert sig == '(x: str, y: str) -> None' # Keyword-only arguments sig = inspect.Signature(f5).format_args() assert sig == '(x: int, *, y: str, z: str) -> None' # Keyword-only arguments with varargs sig = inspect.Signature(f6).format_args() assert sig == '(x: int, *args, y: str, z: str) -> None' # Space around '=' for defaults sig = inspect.Signature(f7).format_args() assert sig == '(x: int = None, y: dict = {}) -> None' # Callable types sig = inspect.Signature(f8).format_args() assert sig == '(x: Callable[[int, str], int]) -> None' sig = inspect.Signature(f9).format_args() assert sig == '(x: Callable) -> None' # Tuple types sig = inspect.Signature(f10).format_args() assert sig == '(x: Tuple[int, str], y: Tuple[int, ...]) -> None' # Instance annotations sig = inspect.Signature(f11).format_args() assert sig == '(x: CustomAnnotation, y: 123) -> None' # has_retval=False sig = inspect.Signature(f11, has_retval=False).format_args() assert sig == '(x: CustomAnnotation, y: 123)' # tuple with more than two items sig = inspect.Signature(f12).format_args() assert sig == '() -> Tuple[int, str, int]' # optional sig = inspect.Signature(f13).format_args() assert sig == '() -> Optional[str]' # Any sig = inspect.Signature(f14).format_args() assert sig == '() -> Any' # ForwardRef sig = inspect.Signature(f15).format_args() assert sig == '(x: Unknown, y: int) -> Any' # keyword only arguments (1) sig = inspect.Signature(f16).format_args() assert sig == '(arg1, arg2, *, arg3=None, arg4=None)' # keyword only arguments (2) sig = inspect.Signature(f17).format_args() assert sig == '(*, arg3, arg4)' # type hints by string sig = inspect.Signature(Node.children).format_args() if (3, 5, 0) <= sys.version_info < (3, 5, 3): assert sig == '(self) -> List[Node]' else: assert sig == '(self) -> List[typing_test_data.Node]' sig = inspect.Signature(Node.__init__).format_args() assert sig == '(self, parent: Optional[Node]) -> None' def test_safe_getattr_with_default(): class Foo: def __getattr__(self, item): raise Exception obj = Foo() result = inspect.safe_getattr(obj, 'bar', 'baz') assert result == 'baz' def test_safe_getattr_with_exception(): class Foo: def __getattr__(self, item): raise Exception obj = Foo() try: inspect.safe_getattr(obj, 'bar') except AttributeError as exc: assert exc.args[0] == 'bar' else: pytest.fail('AttributeError not raised') def test_safe_getattr_with_property_exception(): class Foo: @property def bar(self): raise Exception obj = Foo() try: inspect.safe_getattr(obj, 'bar') except AttributeError as exc: assert exc.args[0] == 'bar' else: pytest.fail('AttributeError not raised') def test_safe_getattr_with___dict___override(): class Foo: @property def __dict__(self): raise Exception obj = Foo() try: inspect.safe_getattr(obj, 'bar') except AttributeError as exc: assert exc.args[0] == 'bar' else: pytest.fail('AttributeError not raised') def test_dictionary_sorting(): dictionary = {"c": 3, "a": 1, "d": 2, "b": 4} description = inspect.object_description(dictionary) assert description == "{'a': 1, 'b': 4, 'c': 3, 'd': 2}" def test_set_sorting(): set_ = set("gfedcba") description = inspect.object_description(set_) assert description == "{'a', 'b', 'c', 'd', 'e', 'f', 'g'}" def test_set_sorting_fallback(): set_ = {None, 1} description = inspect.object_description(set_) assert description in ("{1, None}", "{None, 1}") def test_frozenset_sorting(): frozenset_ = frozenset("gfedcba") description = inspect.object_description(frozenset_) assert description == "frozenset({'a', 'b', 'c', 'd', 'e', 'f', 'g'})" def test_frozenset_sorting_fallback(): frozenset_ = frozenset((None, 1)) description = inspect.object_description(frozenset_) assert description in ("frozenset({1, None})", "frozenset({None, 1})") def test_dict_customtype(): class CustomType: def __init__(self, value): self._value = value def __repr__(self): return "" % self._value dictionary = {CustomType(2): 2, CustomType(1): 1} description = inspect.object_description(dictionary) # Type is unsortable, just check that it does not crash assert ": 2" in description @pytest.mark.sphinx(testroot='ext-autodoc') def test_isstaticmethod(app): from target.methods import Base, Inherited assert inspect.isstaticmethod(Base.staticmeth, Base, 'staticmeth') is True assert inspect.isstaticmethod(Base.meth, Base, 'meth') is False assert inspect.isstaticmethod(Inherited.staticmeth, Inherited, 'staticmeth') is True assert inspect.isstaticmethod(Inherited.meth, Inherited, 'meth') is False @pytest.mark.sphinx(testroot='ext-autodoc') def test_isfunction(app): from target.functions import builtin_func, partial_builtin_func from target.functions import func, partial_func from target.methods import Base assert inspect.isfunction(func) is True # function assert inspect.isfunction(partial_func) is True # partial-ed function assert inspect.isfunction(Base.meth) is True # method of class assert inspect.isfunction(Base.partialmeth) is True # partial-ed method of class assert inspect.isfunction(Base().meth) is False # method of instance assert inspect.isfunction(builtin_func) is False # builtin function assert inspect.isfunction(partial_builtin_func) is False # partial-ed builtin function @pytest.mark.sphinx(testroot='ext-autodoc') def test_isbuiltin(app): from target.functions import builtin_func, partial_builtin_func from target.functions import func, partial_func from target.methods import Base assert inspect.isbuiltin(builtin_func) is True # builtin function assert inspect.isbuiltin(partial_builtin_func) is True # partial-ed builtin function assert inspect.isbuiltin(func) is False # function assert inspect.isbuiltin(partial_func) is False # partial-ed function assert inspect.isbuiltin(Base.meth) is False # method of class assert inspect.isbuiltin(Base().meth) is False # method of instance @pytest.mark.sphinx(testroot='ext-autodoc') def test_isdescriptor(app): from target.functions import func from target.methods import Base assert inspect.isdescriptor(Base.prop) is True # property of class assert inspect.isdescriptor(Base().prop) is False # property of instance assert inspect.isdescriptor(Base.meth) is True # method of class assert inspect.isdescriptor(Base().meth) is True # method of instance assert inspect.isdescriptor(func) is True # function @pytest.mark.sphinx(testroot='ext-autodoc') def test_isattributedescriptor(app): from target.methods import Base class Descriptor: def __get__(self, obj, typ=None): pass testinstancemethod = _testcapi.instancemethod(str.__repr__) assert inspect.isattributedescriptor(Base.prop) is True # property assert inspect.isattributedescriptor(Base.meth) is False # method assert inspect.isattributedescriptor(Base.staticmeth) is False # staticmethod assert inspect.isattributedescriptor(Base.classmeth) is False # classmetho assert inspect.isattributedescriptor(Descriptor) is False # custom descriptor class # NOQA assert inspect.isattributedescriptor(str.join) is False # MethodDescriptorType # NOQA assert inspect.isattributedescriptor(object.__init__) is False # WrapperDescriptorType # NOQA assert inspect.isattributedescriptor(dict.__dict__['fromkeys']) is False # ClassMethodDescriptorType # NOQA assert inspect.isattributedescriptor(types.FrameType.f_locals) is True # GetSetDescriptorType # NOQA assert inspect.isattributedescriptor(datetime.timedelta.days) is True # MemberDescriptorType # NOQA assert inspect.isattributedescriptor(testinstancemethod) is False # instancemethod (C-API) # NOQA