pybind11/tests/test_class.py
Ralf W. Grosse-Kunstleve f12e098f1d
Fix detail::obj_class_name() to work correctly for meta classes. (#4436)
* Fix `detail::obj_class_name()` to work correctly for meta classes.

* Adjust expected name for PyPy
2023-01-02 03:46:17 -08:00

490 lines
14 KiB
Python

import pytest
import env
from pybind11_tests import ConstructorStats, UserType
from pybind11_tests import class_ as m
def test_obj_class_name():
if env.PYPY:
expected_name = "UserType"
else:
expected_name = "pybind11_tests.UserType"
assert m.obj_class_name(UserType(1)) == expected_name
assert m.obj_class_name(UserType) == expected_name
def test_repr():
assert "pybind11_type" in repr(type(UserType))
assert "UserType" in repr(UserType)
def test_instance(msg):
with pytest.raises(TypeError) as excinfo:
m.NoConstructor()
assert msg(excinfo.value) == "m.class_.NoConstructor: No constructor defined!"
instance = m.NoConstructor.new_instance()
cstats = ConstructorStats.get(m.NoConstructor)
assert cstats.alive() == 1
del instance
assert cstats.alive() == 0
def test_instance_new(msg):
instance = m.NoConstructorNew() # .__new__(m.NoConstructor.__class__)
cstats = ConstructorStats.get(m.NoConstructorNew)
assert cstats.alive() == 1
del instance
assert cstats.alive() == 0
def test_type():
assert m.check_type(1) == m.DerivedClass1
with pytest.raises(RuntimeError) as execinfo:
m.check_type(0)
assert "pybind11::detail::get_type_info: unable to find type info" in str(
execinfo.value
)
assert "Invalid" in str(execinfo.value)
# Currently not supported
# See https://github.com/pybind/pybind11/issues/2486
# assert m.check_type(2) == int
def test_type_of_py():
assert m.get_type_of(1) == int
assert m.get_type_of(m.DerivedClass1()) == m.DerivedClass1
assert m.get_type_of(int) == type
def test_type_of_classic():
assert m.get_type_classic(1) == int
assert m.get_type_classic(m.DerivedClass1()) == m.DerivedClass1
assert m.get_type_classic(int) == type
def test_type_of_py_nodelete():
# If the above test deleted the class, this will segfault
assert m.get_type_of(m.DerivedClass1()) == m.DerivedClass1
def test_as_type_py():
assert m.as_type(int) == int
with pytest.raises(TypeError):
assert m.as_type(1) == int
with pytest.raises(TypeError):
assert m.as_type(m.DerivedClass1()) == m.DerivedClass1
def test_docstrings(doc):
assert doc(UserType) == "A `py::class_` type for testing"
assert UserType.__name__ == "UserType"
assert UserType.__module__ == "pybind11_tests"
assert UserType.get_value.__name__ == "get_value"
assert UserType.get_value.__module__ == "pybind11_tests"
assert (
doc(UserType.get_value)
== """
get_value(self: m.UserType) -> int
Get value using a method
"""
)
assert doc(UserType.value) == "Get/set value using a property"
assert (
doc(m.NoConstructor.new_instance)
== """
new_instance() -> m.class_.NoConstructor
Return an instance
"""
)
def test_qualname(doc):
"""Tests that a properly qualified name is set in __qualname__ and that
generated docstrings properly use it and the module name"""
assert m.NestBase.__qualname__ == "NestBase"
assert m.NestBase.Nested.__qualname__ == "NestBase.Nested"
assert (
doc(m.NestBase.__init__)
== """
__init__(self: m.class_.NestBase) -> None
"""
)
assert (
doc(m.NestBase.g)
== """
g(self: m.class_.NestBase, arg0: m.class_.NestBase.Nested) -> None
"""
)
assert (
doc(m.NestBase.Nested.__init__)
== """
__init__(self: m.class_.NestBase.Nested) -> None
"""
)
assert (
doc(m.NestBase.Nested.fn)
== """
fn(self: m.class_.NestBase.Nested, arg0: int, arg1: m.class_.NestBase, arg2: m.class_.NestBase.Nested) -> None
"""
)
assert (
doc(m.NestBase.Nested.fa)
== """
fa(self: m.class_.NestBase.Nested, a: int, b: m.class_.NestBase, c: m.class_.NestBase.Nested) -> None
"""
)
assert m.NestBase.__module__ == "pybind11_tests.class_"
assert m.NestBase.Nested.__module__ == "pybind11_tests.class_"
def test_inheritance(msg):
roger = m.Rabbit("Rabbit")
assert roger.name() + " is a " + roger.species() == "Rabbit is a parrot"
assert m.pet_name_species(roger) == "Rabbit is a parrot"
polly = m.Pet("Polly", "parrot")
assert polly.name() + " is a " + polly.species() == "Polly is a parrot"
assert m.pet_name_species(polly) == "Polly is a parrot"
molly = m.Dog("Molly")
assert molly.name() + " is a " + molly.species() == "Molly is a dog"
assert m.pet_name_species(molly) == "Molly is a dog"
fred = m.Hamster("Fred")
assert fred.name() + " is a " + fred.species() == "Fred is a rodent"
assert m.dog_bark(molly) == "Woof!"
with pytest.raises(TypeError) as excinfo:
m.dog_bark(polly)
assert (
msg(excinfo.value)
== """
dog_bark(): incompatible function arguments. The following argument types are supported:
1. (arg0: m.class_.Dog) -> str
Invoked with: <m.class_.Pet object at 0>
"""
)
with pytest.raises(TypeError) as excinfo:
m.Chimera("lion", "goat")
assert "No constructor defined!" in str(excinfo.value)
def test_inheritance_init(msg):
# Single base
class Python(m.Pet):
def __init__(self):
pass
with pytest.raises(TypeError) as exc_info:
Python()
expected = "m.class_.Pet.__init__() must be called when overriding __init__"
assert msg(exc_info.value) == expected
# Multiple bases
class RabbitHamster(m.Rabbit, m.Hamster):
def __init__(self):
m.Rabbit.__init__(self, "RabbitHamster")
with pytest.raises(TypeError) as exc_info:
RabbitHamster()
expected = "m.class_.Hamster.__init__() must be called when overriding __init__"
assert msg(exc_info.value) == expected
def test_automatic_upcasting():
assert type(m.return_class_1()).__name__ == "DerivedClass1"
assert type(m.return_class_2()).__name__ == "DerivedClass2"
assert type(m.return_none()).__name__ == "NoneType"
# Repeat these a few times in a random order to ensure no invalid caching is applied
assert type(m.return_class_n(1)).__name__ == "DerivedClass1"
assert type(m.return_class_n(2)).__name__ == "DerivedClass2"
assert type(m.return_class_n(0)).__name__ == "BaseClass"
assert type(m.return_class_n(2)).__name__ == "DerivedClass2"
assert type(m.return_class_n(2)).__name__ == "DerivedClass2"
assert type(m.return_class_n(0)).__name__ == "BaseClass"
assert type(m.return_class_n(1)).__name__ == "DerivedClass1"
def test_isinstance():
objects = [tuple(), dict(), m.Pet("Polly", "parrot")] + [m.Dog("Molly")] * 4
expected = (True, True, True, True, True, False, False)
assert m.check_instances(objects) == expected
def test_mismatched_holder():
import re
with pytest.raises(RuntimeError) as excinfo:
m.mismatched_holder_1()
assert re.match(
'generic_type: type ".*MismatchDerived1" does not have a non-default '
'holder type while its base ".*MismatchBase1" does',
str(excinfo.value),
)
with pytest.raises(RuntimeError) as excinfo:
m.mismatched_holder_2()
assert re.match(
'generic_type: type ".*MismatchDerived2" has a non-default holder type '
'while its base ".*MismatchBase2" does not',
str(excinfo.value),
)
def test_override_static():
"""#511: problem with inheritance + overwritten def_static"""
b = m.MyBase.make()
d1 = m.MyDerived.make2()
d2 = m.MyDerived.make()
assert isinstance(b, m.MyBase)
assert isinstance(d1, m.MyDerived)
assert isinstance(d2, m.MyDerived)
def test_implicit_conversion_life_support():
"""Ensure the lifetime of temporary objects created for implicit conversions"""
assert m.implicitly_convert_argument(UserType(5)) == 5
assert m.implicitly_convert_variable(UserType(5)) == 5
assert "outside a bound function" in m.implicitly_convert_variable_fail(UserType(5))
def test_operator_new_delete(capture):
"""Tests that class-specific operator new/delete functions are invoked"""
class SubAliased(m.AliasedHasOpNewDelSize):
pass
with capture:
a = m.HasOpNewDel()
b = m.HasOpNewDelSize()
d = m.HasOpNewDelBoth()
assert (
capture
== """
A new 8
B new 4
D new 32
"""
)
sz_alias = str(m.AliasedHasOpNewDelSize.size_alias)
sz_noalias = str(m.AliasedHasOpNewDelSize.size_noalias)
with capture:
c = m.AliasedHasOpNewDelSize()
c2 = SubAliased()
assert capture == ("C new " + sz_noalias + "\n" + "C new " + sz_alias + "\n")
with capture:
del a
pytest.gc_collect()
del b
pytest.gc_collect()
del d
pytest.gc_collect()
assert (
capture
== """
A delete
B delete 4
D delete
"""
)
with capture:
del c
pytest.gc_collect()
del c2
pytest.gc_collect()
assert capture == ("C delete " + sz_noalias + "\n" + "C delete " + sz_alias + "\n")
def test_bind_protected_functions():
"""Expose protected member functions to Python using a helper class"""
a = m.ProtectedA()
assert a.foo() == 42
b = m.ProtectedB()
assert b.foo() == 42
assert m.read_foo(b.void_foo()) == 42
assert m.pointers_equal(b.get_self(), b)
class C(m.ProtectedB):
def __init__(self):
m.ProtectedB.__init__(self)
def foo(self):
return 0
c = C()
assert c.foo() == 0
def test_brace_initialization():
"""Tests that simple POD classes can be constructed using C++11 brace initialization"""
a = m.BraceInitialization(123, "test")
assert a.field1 == 123
assert a.field2 == "test"
# Tests that a non-simple class doesn't get brace initialization (if the
# class defines an initializer_list constructor, in particular, it would
# win over the expected constructor).
b = m.NoBraceInitialization([123, 456])
assert b.vec == [123, 456]
@pytest.mark.xfail("env.PYPY")
def test_class_refcount():
"""Instances must correctly increase/decrease the reference count of their types (#1029)"""
from sys import getrefcount
class PyDog(m.Dog):
pass
for cls in m.Dog, PyDog:
refcount_1 = getrefcount(cls)
molly = [cls("Molly") for _ in range(10)]
refcount_2 = getrefcount(cls)
del molly
pytest.gc_collect()
refcount_3 = getrefcount(cls)
assert refcount_1 == refcount_3
assert refcount_2 > refcount_1
def test_reentrant_implicit_conversion_failure(msg):
# ensure that there is no runaway reentrant implicit conversion (#1035)
with pytest.raises(TypeError) as excinfo:
m.BogusImplicitConversion(0)
assert (
msg(excinfo.value)
== """
__init__(): incompatible constructor arguments. The following argument types are supported:
1. m.class_.BogusImplicitConversion(arg0: m.class_.BogusImplicitConversion)
Invoked with: 0
"""
)
def test_error_after_conversions():
with pytest.raises(TypeError) as exc_info:
m.test_error_after_conversions("hello")
assert str(exc_info.value).startswith(
"Unable to convert function return value to a Python type!"
)
def test_aligned():
if hasattr(m, "Aligned"):
p = m.Aligned().ptr()
assert p % 1024 == 0
# https://foss.heptapod.net/pypy/pypy/-/issues/2742
@pytest.mark.xfail("env.PYPY")
def test_final():
with pytest.raises(TypeError) as exc_info:
class PyFinalChild(m.IsFinal):
pass
assert str(exc_info.value).endswith("is not an acceptable base type")
# https://foss.heptapod.net/pypy/pypy/-/issues/2742
@pytest.mark.xfail("env.PYPY")
def test_non_final_final():
with pytest.raises(TypeError) as exc_info:
class PyNonFinalFinalChild(m.IsNonFinalFinal):
pass
assert str(exc_info.value).endswith("is not an acceptable base type")
# https://github.com/pybind/pybind11/issues/1878
def test_exception_rvalue_abort():
with pytest.raises(RuntimeError):
m.PyPrintDestructor().throw_something()
# https://github.com/pybind/pybind11/issues/1568
def test_multiple_instances_with_same_pointer(capture):
n = 100
instances = [m.SamePointer() for _ in range(n)]
for i in range(n):
# We need to reuse the same allocated memory for with a different type,
# to ensure the bug in `deregister_instance_impl` is detected. Otherwise
# `Py_TYPE(self) == Py_TYPE(it->second)` will still succeed, even though
# the `instance` is already deleted.
instances[i] = m.Empty()
# No assert: if this does not trigger the error
# pybind11_fail("pybind11_object_dealloc(): Tried to deallocate unregistered instance!");
# and just completes without crashing, we're good.
# https://github.com/pybind/pybind11/issues/1624
def test_base_and_derived_nested_scope():
assert issubclass(m.DerivedWithNested, m.BaseWithNested)
assert m.BaseWithNested.Nested != m.DerivedWithNested.Nested
assert m.BaseWithNested.Nested.get_name() == "BaseWithNested::Nested"
assert m.DerivedWithNested.Nested.get_name() == "DerivedWithNested::Nested"
def test_register_duplicate_class():
import types
module_scope = types.ModuleType("module_scope")
with pytest.raises(RuntimeError) as exc_info:
m.register_duplicate_class_name(module_scope)
expected = (
'generic_type: cannot initialize type "Duplicate": '
"an object with that name is already defined"
)
assert str(exc_info.value) == expected
with pytest.raises(RuntimeError) as exc_info:
m.register_duplicate_class_type(module_scope)
expected = 'generic_type: type "YetAnotherDuplicate" is already registered!'
assert str(exc_info.value) == expected
class ClassScope:
pass
with pytest.raises(RuntimeError) as exc_info:
m.register_duplicate_nested_class_name(ClassScope)
expected = (
'generic_type: cannot initialize type "DuplicateNested": '
"an object with that name is already defined"
)
assert str(exc_info.value) == expected
with pytest.raises(RuntimeError) as exc_info:
m.register_duplicate_nested_class_type(ClassScope)
expected = 'generic_type: type "YetAnotherDuplicateNested" is already registered!'
assert str(exc_info.value) == expected
def test_pr4220_tripped_over_this():
assert (
m.Empty0().get_msg()
== "This is really only meant to exercise successful compilation."
)