[smart_holder] .def_readonly, .def_readwrite adaptors (continuation of PR #3581). (#3844)

* Transferred net diff from PR #3581, as-is. * Automatic `pre-commit run --all-files` fixes. NO manual changes. * Removing trailing `//` (originally added to manipulate clang-format), as suggested by @charlesbeattie back in Jan/Feb under PR #3581. * Renaming `xetter_cpp_function` to `property_cpp_function` as suggested by @rainwoodman * Fully explain the terse variable naming scheme in test_class_sh_property (as suggested by @rainwoodman) * Also use parametrize for readonly, readwrite (as suggested by @rainwoodman) * Apply change suggested by @skylion007 (with clang-format).
2024-11-11 08:03:55 +00:00 · 2022-05-17 16:35:43 -07:00 · 2022-05-17 16:35:43 -07:00 · d28c3a5da7
commit d28c3a5da7
parent aebdf00cd0
6 changed files with 419 additions and 5 deletions
--- a/.codespell-ignorelines
+++ b/.codespell-ignorelines
@ -11,3 +11,4 @@ atyp_valu        rtrn_valu() { atyp_valu obj{"Valu"}; return obj; }
        valu = other.valu;
        with pytest.raises(ValueError) as excinfo:
    with pytest.raises(ValueError) as exc_info:
 // valu(e), ref(erence), ptr or p (pointer), r = rvalue, m = mutable, c = const,
--- a/include/pybind11/detail/smart_holder_sfinae_hooks_only.h
+++ b/include/pybind11/detail/smart_holder_sfinae_hooks_only.h
@ -6,6 +6,7 @@
 #include "common.h"
 #include <memory>
 #include <type_traits>
 #ifndef PYBIND11_USE_SMART_HOLDER_AS_DEFAULT
@ -29,5 +30,17 @@ struct smart_holder_type_caster_base_tag {};
 template <typename T>
 struct type_uses_smart_holder_type_caster;
 // Simple helpers that may eventually be a better fit for another header file:
 template <typename T>
 struct is_std_unique_ptr : std::false_type {};
 template <typename T, typename D>
 struct is_std_unique_ptr<std::unique_ptr<T, D>> : std::true_type {};
 template <typename T>
 struct is_std_shared_ptr : std::false_type {};
 template <typename T>
 struct is_std_shared_ptr<std::shared_ptr<T>> : std::true_type {};
 PYBIND11_NAMESPACE_END(detail)
 PYBIND11_NAMESPACE_END(PYBIND11_NAMESPACE)
--- a/include/pybind11/pybind11.h
+++ b/include/pybind11/pybind11.h
@ -1514,6 +1514,154 @@ using default_holder_type = smart_holder;
 #endif
 // Helper for the property_cpp_function static member functions below.
 // The only purpose of these functions is to support .def_readonly & .def_readwrite.
 // In this context, the PM template parameter is certain to be a Pointer to a Member.
 // The main purpose of must_be_member_function_pointer is to make this obvious, and to guard
 // against accidents. As a side-effect, it also explains why the syntactical overhead for
 // perfect forwarding is not needed.
 template <typename PM>
 using must_be_member_function_pointer
    = detail::enable_if_t<std::is_member_pointer<PM>::value, int>;
 // Note that property_cpp_function is intentionally in the main pybind11 namespace,
 // because user-defined specializations could be useful.
 // Classic (non-smart_holder) implementations for .def_readonly and .def_readwrite
 // getter and setter functions.
 // WARNING: This classic implementation can lead to dangling pointers for raw pointer members.
 // See test_ptr() in tests/test_class_sh_property.py
 // This implementation works as-is (and safely) for smart_holder std::shared_ptr members.
 template <typename T, typename D, typename SFINAE = void>
 struct property_cpp_function {
    template <typename PM, must_be_member_function_pointer<PM> = 0>
    static cpp_function readonly(PM pm, const handle &hdl) {
        return cpp_function([pm](const T &c) -> const D & { return c.*pm; }, is_method(hdl));
    }
    template <typename PM, must_be_member_function_pointer<PM> = 0>
    static cpp_function read(PM pm, const handle &hdl) {
        return readonly(pm, hdl);
    }
    template <typename PM, must_be_member_function_pointer<PM> = 0>
    static cpp_function write(PM pm, const handle &hdl) {
        return cpp_function([pm](T &c, const D &value) { c.*pm = value; }, is_method(hdl));
    }
 };
 // smart_holder specializations for raw pointer members.
 // WARNING: Like the classic implementation, this implementation can lead to dangling pointers.
 // See test_ptr() in tests/test_class_sh_property.py
 // However, the read functions return a shared_ptr to the member, emulating the PyCLIF approach:
 // https://github.com/google/clif/blob/c371a6d4b28d25d53a16e6d2a6d97305fb1be25a/clif/python/instance.h#L233
 // This prevents disowning of the Python object owning the raw pointer member.
 template <typename T, typename D>
 struct property_cpp_function<
    T,
    D,
    detail::enable_if_t<detail::all_of<detail::type_uses_smart_holder_type_caster<T>,
                                       detail::type_uses_smart_holder_type_caster<D>,
                                       std::is_pointer<D>>::value>> {
    using drp = typename std::remove_pointer<D>::type;
    template <typename PM, must_be_member_function_pointer<PM> = 0>
    static cpp_function readonly(PM pm, const handle &hdl) {
        return cpp_function(
            [pm](const std::shared_ptr<T> &c_sp) -> std::shared_ptr<drp> {
                D ptr = (*c_sp).*pm;
                return std::shared_ptr<drp>(c_sp, ptr);
            },
            is_method(hdl));
    }
    template <typename PM, must_be_member_function_pointer<PM> = 0>
    static cpp_function read(PM pm, const handle &hdl) {
        return readonly(pm, hdl);
    }
    template <typename PM, must_be_member_function_pointer<PM> = 0>
    static cpp_function write(PM pm, const handle &hdl) {
        return cpp_function([pm](T &c, D value) { c.*pm = std::forward<D>(value); },
                            is_method(hdl));
    }
 };
 // smart_holder specializations for members held by-value.
 // The read functions return a shared_ptr to the member, emulating the PyCLIF approach:
 // https://github.com/google/clif/blob/c371a6d4b28d25d53a16e6d2a6d97305fb1be25a/clif/python/instance.h#L233
 // This prevents disowning of the Python object owning the member.
 template <typename T, typename D>
 struct property_cpp_function<
    T,
    D,
    detail::enable_if_t<detail::all_of<detail::type_uses_smart_holder_type_caster<T>,
                                       detail::type_uses_smart_holder_type_caster<D>,
                                       detail::none_of<std::is_pointer<D>,
                                                       detail::is_std_unique_ptr<D>,
                                                       detail::is_std_shared_ptr<D>>>::value>> {
    template <typename PM, must_be_member_function_pointer<PM> = 0>
    static cpp_function readonly(PM pm, const handle &hdl) {
        return cpp_function(
            [pm](const std::shared_ptr<T> &c_sp)
                -> std::shared_ptr<typename std::add_const<D>::type> {
                return std::shared_ptr<typename std::add_const<D>::type>(c_sp, &(c_sp.get()->*pm));
            },
            is_method(hdl));
    }
    template <typename PM, must_be_member_function_pointer<PM> = 0>
    static cpp_function read(PM pm, const handle &hdl) {
        return cpp_function(
            [pm](const std::shared_ptr<T> &c_sp) -> std::shared_ptr<D> {
                return std::shared_ptr<D>(c_sp, &(c_sp.get()->*pm));
            },
            is_method(hdl));
    }
    template <typename PM, must_be_member_function_pointer<PM> = 0>
    static cpp_function write(PM pm, const handle &hdl) {
        return cpp_function([pm](T &c, const D &value) { c.*pm = value; }, is_method(hdl));
    }
 };
 // smart_holder specializations for std::unique_ptr members.
 // read disowns the member unique_ptr.
 // write disowns the passed Python object.
 // readonly is disabled (static_assert) because there is no safe & intuitive way to make the member
 // accessible as a Python object without disowning the member unique_ptr. A .def_readonly disowning
 // the unique_ptr member is deemed highly prone to misunderstandings.
 template <typename T, typename D>
 struct property_cpp_function<
    T,
    D,
    detail::enable_if_t<detail::all_of<
        detail::type_uses_smart_holder_type_caster<T>,
        detail::is_std_unique_ptr<D>,
        detail::type_uses_smart_holder_type_caster<typename D::element_type>>::value>> {
    template <typename PM, must_be_member_function_pointer<PM> = 0>
    static cpp_function readonly(PM, const handle &) {
        static_assert(!detail::is_std_unique_ptr<D>::value,
                      "def_readonly cannot be used for std::unique_ptr members.");
        return cpp_function{}; // Unreachable.
    }
    template <typename PM, must_be_member_function_pointer<PM> = 0>
    static cpp_function read(PM pm, const handle &hdl) {
        return cpp_function(
            [pm](const std::shared_ptr<T> &c_sp) -> D { return D{std::move(c_sp.get()->*pm)}; },
            is_method(hdl));
    }
    template <typename PM, must_be_member_function_pointer<PM> = 0>
    static cpp_function write(PM pm, const handle &hdl) {
        return cpp_function([pm](T &c, D &&value) { c.*pm = std::move(value); }, is_method(hdl));
    }
 };
 template <typename type_, typename... options>
 class class_ : public detail::generic_type {
    template <typename T>
@ -1727,9 +1875,11 @@ public:
    class_ &def_readwrite(const char *name, D C::*pm, const Extra &...extra) {
        static_assert(std::is_same<C, type>::value || std::is_base_of<C, type>::value,
                      "def_readwrite() requires a class member (or base class member)");
-        cpp_function fget([pm](const type &c) -> const D & { return c.*pm; }, is_method(*this)),
+        def_property(name,
-            fset([pm](type &c, const D &value) { c.*pm = value; }, is_method(*this));
+                     property_cpp_function<type, D>::read(pm, *this),
-        def_property(name, fget, fset, return_value_policy::reference_internal, extra...);
+                     property_cpp_function<type, D>::write(pm, *this),
                     return_value_policy::reference_internal,
                     extra...);
        return *this;
    }
@ -1737,8 +1887,10 @@ public:
    class_ &def_readonly(const char *name, const D C::*pm, const Extra &...extra) {
        static_assert(std::is_same<C, type>::value || std::is_base_of<C, type>::value,
                      "def_readonly() requires a class member (or base class member)");
-        cpp_function fget([pm](const type &c) -> const D & { return c.*pm; }, is_method(*this));
+        def_property_readonly(name,
-        def_property_readonly(name, fget, return_value_policy::reference_internal, extra...);
+                              property_cpp_function<type, D>::readonly(pm, *this),
                              return_value_policy::reference_internal,
                              extra...);
        return *this;
    }
--- a/tests/CMakeLists.txt
+++ b/tests/CMakeLists.txt
@ -128,6 +128,7 @@ set(PYBIND11_TEST_FILES
    test_class_sh_factory_constructors
    test_class_sh_inheritance
    test_class_sh_module_local.py
    test_class_sh_property
    test_class_sh_shared_ptr_copy_move
    test_class_sh_trampoline_basic
    test_class_sh_trampoline_self_life_support
--- a/tests/test_class_sh_property.cpp
+++ b/tests/test_class_sh_property.cpp
@ -0,0 +1,86 @@
 // The compact 4-character naming matches that in test_class_sh_basic.cpp
 // Variable names are intentionally terse, to not distract from the more important C++ type names:
 // valu(e), ref(erence), ptr or p (pointer), r = rvalue, m = mutable, c = const,
 // sh = shared_ptr, uq = unique_ptr.
 #include "pybind11/smart_holder.h"
 #include "pybind11_tests.h"
 #include <memory>
 namespace test_class_sh_property {
 struct ClassicField {
    int num = -88;
 };
 struct ClassicOuter {
    ClassicField *m_mptr = nullptr;
    const ClassicField *m_cptr = nullptr;
 };
 struct Field {
    int num = -99;
 };
 struct Outer {
    Field m_valu;
    Field *m_mptr = nullptr;
    const Field *m_cptr = nullptr;
    std::unique_ptr<Field> m_uqmp;
    std::unique_ptr<const Field> m_uqcp;
    std::shared_ptr<Field> m_shmp;
    std::shared_ptr<const Field> m_shcp;
 };
 inline void DisownOuter(std::unique_ptr<Outer>) {}
 } // namespace test_class_sh_property
 PYBIND11_TYPE_CASTER_BASE_HOLDER(test_class_sh_property::ClassicField,
                                 std::unique_ptr<test_class_sh_property::ClassicField>)
 PYBIND11_TYPE_CASTER_BASE_HOLDER(test_class_sh_property::ClassicOuter,
                                 std::unique_ptr<test_class_sh_property::ClassicOuter>)
 PYBIND11_SMART_HOLDER_TYPE_CASTERS(test_class_sh_property::Field)
 PYBIND11_SMART_HOLDER_TYPE_CASTERS(test_class_sh_property::Outer)
 TEST_SUBMODULE(class_sh_property, m) {
    using namespace test_class_sh_property;
    py::class_<ClassicField, std::unique_ptr<ClassicField>>(m, "ClassicField")
        .def(py::init<>())
        .def_readwrite("num", &ClassicField::num);
    py::class_<ClassicOuter, std::unique_ptr<ClassicOuter>>(m, "ClassicOuter")
        .def(py::init<>())
        .def_readonly("m_mptr_readonly", &ClassicOuter::m_mptr)
        .def_readwrite("m_mptr_readwrite", &ClassicOuter::m_mptr)
        .def_readwrite("m_cptr_readonly", &ClassicOuter::m_cptr)
        .def_readwrite("m_cptr_readwrite", &ClassicOuter::m_cptr);
    py::classh<Field>(m, "Field").def(py::init<>()).def_readwrite("num", &Field::num);
    py::classh<Outer>(m, "Outer")
        .def(py::init<>())
        .def_readonly("m_valu_readonly", &Outer::m_valu)
        .def_readwrite("m_valu_readwrite", &Outer::m_valu)
        .def_readonly("m_mptr_readonly", &Outer::m_mptr)
        .def_readwrite("m_mptr_readwrite", &Outer::m_mptr)
        .def_readonly("m_cptr_readonly", &Outer::m_cptr)
        .def_readwrite("m_cptr_readwrite", &Outer::m_cptr)
        // .def_readonly("m_uqmp_readonly", &Outer::m_uqmp) // Custom compilation Error.
        .def_readwrite("m_uqmp_readwrite", &Outer::m_uqmp)
        // .def_readonly("m_uqcp_readonly", &Outer::m_uqcp) // Custom compilation Error.
        .def_readwrite("m_uqcp_readwrite", &Outer::m_uqcp)
        .def_readwrite("m_shmp_readonly", &Outer::m_shmp)
        .def_readwrite("m_shmp_readwrite", &Outer::m_shmp)
        .def_readwrite("m_shcp_readonly", &Outer::m_shcp)
        .def_readwrite("m_shcp_readwrite", &Outer::m_shcp);
    m.def("DisownOuter", DisownOuter);
 }
--- a/tests/test_class_sh_property.py
+++ b/tests/test_class_sh_property.py
@ -0,0 +1,161 @@
 # The compact 4-character naming scheme (e.g. mptr, cptr, shcp) is explained at the top of
 # test_class_sh_property.cpp.
 import pytest
 import env  # noqa: F401
 from pybind11_tests import class_sh_property as m
@pytest.mark.xfail("env.PYPY", reason="gc after `del field` is apparently deferred")
@pytest.mark.parametrize("m_attr", ("m_valu_readonly", "m_valu_readwrite"))
 def test_valu_getter(msg, m_attr):
    # Reduced from PyCLIF test:
    # https://github.com/google/clif/blob/c371a6d4b28d25d53a16e6d2a6d97305fb1be25a/clif/testing/python/nested_fields_test.py#L56
    outer = m.Outer()
    field = getattr(outer, m_attr)
    assert field.num == -99
    with pytest.raises(ValueError) as excinfo:
        m.DisownOuter(outer)
    assert msg(excinfo.value) == "Cannot disown use_count != 1 (loaded_as_unique_ptr)."
    del field
    m.DisownOuter(outer)
    with pytest.raises(ValueError) as excinfo:
        getattr(outer, m_attr)
    assert (
        msg(excinfo.value)
        == "Missing value for wrapped C++ type: Python instance was disowned."
    )
 def test_valu_setter():
    outer = m.Outer()
    assert outer.m_valu_readonly.num == -99
    assert outer.m_valu_readwrite.num == -99
    field = m.Field()
    field.num = 35
    outer.m_valu_readwrite = field
    assert outer.m_valu_readonly.num == 35
    assert outer.m_valu_readwrite.num == 35
@pytest.mark.parametrize("m_attr", ("m_shmp", "m_shcp"))
 def test_shp(m_attr):
    m_attr_readonly = m_attr + "_readonly"
    m_attr_readwrite = m_attr + "_readwrite"
    outer = m.Outer()
    assert getattr(outer, m_attr_readonly) is None
    assert getattr(outer, m_attr_readwrite) is None
    field = m.Field()
    field.num = 43
    setattr(outer, m_attr_readwrite, field)
    assert getattr(outer, m_attr_readonly).num == 43
    assert getattr(outer, m_attr_readwrite).num == 43
    getattr(outer, m_attr_readonly).num = 57
    getattr(outer, m_attr_readwrite).num = 57
    assert field.num == 57
    del field
    assert getattr(outer, m_attr_readonly).num == 57
    assert getattr(outer, m_attr_readwrite).num == 57
@pytest.mark.parametrize(
    "field_type, num_default, outer_type",
    [
        (m.ClassicField, -88, m.ClassicOuter),
        (m.Field, -99, m.Outer),
    ],
 )
@pytest.mark.parametrize("m_attr", ("m_mptr", "m_cptr"))
@pytest.mark.parametrize("r_kind", ("_readonly", "_readwrite"))
 def test_ptr(field_type, num_default, outer_type, m_attr, r_kind):
    m_attr_r_kind = m_attr + r_kind
    outer = outer_type()
    assert getattr(outer, m_attr_r_kind) is None
    field = field_type()
    assert field.num == num_default
    setattr(outer, m_attr + "_readwrite", field)
    assert getattr(outer, m_attr_r_kind).num == num_default
    field.num = 76
    assert getattr(outer, m_attr_r_kind).num == 76
    # Change to -88 or -99 to demonstrate Undefined Behavior (dangling pointer).
    if num_default == 88 and m_attr == "m_mptr":
        del field
    assert getattr(outer, m_attr_r_kind).num == 76
@pytest.mark.parametrize("m_attr_readwrite", ("m_uqmp_readwrite", "m_uqcp_readwrite"))
 def test_uqp(m_attr_readwrite, msg):
    outer = m.Outer()
    assert getattr(outer, m_attr_readwrite) is None
    field_orig = m.Field()
    field_orig.num = 39
    setattr(outer, m_attr_readwrite, field_orig)
    with pytest.raises(ValueError) as excinfo:
        field_orig.num
    assert (
        msg(excinfo.value)
        == "Missing value for wrapped C++ type: Python instance was disowned."
    )
    field_retr1 = getattr(outer, m_attr_readwrite)
    assert getattr(outer, m_attr_readwrite) is None
    assert field_retr1.num == 39
    field_retr1.num = 93
    setattr(outer, m_attr_readwrite, field_retr1)
    with pytest.raises(ValueError):
        field_retr1.num
    field_retr2 = getattr(outer, m_attr_readwrite)
    assert field_retr2.num == 93
 # Proof-of-concept (POC) for safe & intuitive Python access to unique_ptr members.
 # The C++ member unique_ptr is disowned to a temporary Python object for accessing
 # an attribute of the member. After the attribute was accessed, the Python object
 # is disowned back to the C++ member unique_ptr.
 # Productizing this POC is left for a future separate PR, as needed.
 class unique_ptr_field_proxy_poc:  # noqa: N801
    def __init__(self, obj, field_name):
        object.__setattr__(self, "__obj", obj)
        object.__setattr__(self, "__field_name", field_name)
    def __getattr__(self, *args, **kwargs):
        return _proxy_dereference(self, getattr, *args, **kwargs)
    def __setattr__(self, *args, **kwargs):
        return _proxy_dereference(self, setattr, *args, **kwargs)
    def __delattr__(self, *args, **kwargs):
        return _proxy_dereference(self, delattr, *args, **kwargs)
 def _proxy_dereference(proxy, xxxattr, *args, **kwargs):
    obj = object.__getattribute__(proxy, "__obj")
    field_name = object.__getattribute__(proxy, "__field_name")
    field = getattr(obj, field_name)  # Disowns the C++ unique_ptr member.
    assert field is not None
    try:
        return xxxattr(field, *args, **kwargs)
    finally:
        setattr(obj, field_name, field)  # Disowns the temporary Python object (field).
@pytest.mark.parametrize("m_attr", ("m_uqmp", "m_uqcp"))
 def test_unique_ptr_field_proxy_poc(m_attr, msg):
    m_attr_readwrite = m_attr + "_readwrite"
    outer = m.Outer()
    field_orig = m.Field()
    field_orig.num = 45
    setattr(outer, m_attr_readwrite, field_orig)
    field_proxy = unique_ptr_field_proxy_poc(outer, m_attr_readwrite)
    assert field_proxy.num == 45
    assert field_proxy.num == 45
    with pytest.raises(AttributeError):
        field_proxy.xyz
    assert field_proxy.num == 45
    field_proxy.num = 82
    assert field_proxy.num == 82
    field_proxy = unique_ptr_field_proxy_poc(outer, m_attr_readwrite)
    assert field_proxy.num == 82
    with pytest.raises(AttributeError):
        del field_proxy.num
    assert field_proxy.num == 82