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391c75447d
This udpates all the remaining tests to the new test suite code and comment styles started in #898. For the most part, the test coverage here is unchanged, with a few minor exceptions as noted below. - test_constants_and_functions: this adds more overload tests with overloads with different number of arguments for more comprehensive overload_cast testing. The test style conversion broke the overload tests under MSVC 2015, prompting the additional tests while looking for a workaround. - test_eigen: this dropped the unused functions `get_cm_corners` and `get_cm_corners_const`--these same tests were duplicates of the same things provided (and used) via ReturnTester methods. - test_opaque_types: this test had a hidden dependence on ExampleMandA which is now fixed by using the global UserType which suffices for the relevant test. - test_methods_and_attributes: this required some additions to UserType to make it usable as a replacement for the test's previous SimpleType: UserType gained a value mutator, and the `value` property is not mutable (it was previously readonly). Some overload tests were also added to better test overload_cast (as described above). - test_numpy_array: removed the untemplated mutate_data/mutate_data_t: the templated versions with an empty parameter pack expand to the same thing. - test_stl: this was already mostly in the new style; this just tweaks things a bit, localizing a class, and adding some missing `// test_whatever` comments. - test_virtual_functions: like `test_stl`, this was mostly in the new test style already, but needed some `// test_whatever` comments. This commit also moves the inherited virtual example code to the end of the file, after the main set of tests (since it is less important than the other tests, and rather length); it also got renamed to `test_inherited_virtuals` (from `test_inheriting_repeat`) because it tests both inherited virtual approaches, not just the repeat approach.
267 lines
11 KiB
C++
267 lines
11 KiB
C++
/*
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tests/test_smart_ptr.cpp -- binding classes with custom reference counting,
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implicit conversions between types
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Copyright (c) 2016 Wenzel Jakob <wenzel.jakob@epfl.ch>
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All rights reserved. Use of this source code is governed by a
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BSD-style license that can be found in the LICENSE file.
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*/
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#include "pybind11_tests.h"
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#include "object.h"
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// Make pybind aware of the ref-counted wrapper type (s):
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// ref<T> is a wrapper for 'Object' which uses intrusive reference counting
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// It is always possible to construct a ref<T> from an Object* pointer without
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// possible incosistencies, hence the 'true' argument at the end.
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PYBIND11_DECLARE_HOLDER_TYPE(T, ref<T>, true);
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// Make pybind11 aware of the non-standard getter member function
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namespace pybind11 { namespace detail {
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template <typename T>
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struct holder_helper<ref<T>> {
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static const T *get(const ref<T> &p) { return p.get_ptr(); }
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};
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}}
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// The following is not required anymore for std::shared_ptr, but it should compile without error:
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PYBIND11_DECLARE_HOLDER_TYPE(T, std::shared_ptr<T>);
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// This is just a wrapper around unique_ptr, but with extra fields to deliberately bloat up the
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// holder size to trigger the non-simple-layout internal instance layout for single inheritance with
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// large holder type:
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template <typename T> class huge_unique_ptr {
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std::unique_ptr<T> ptr;
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uint64_t padding[10];
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public:
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huge_unique_ptr(T *p) : ptr(p) {};
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T *get() { return ptr.get(); }
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};
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PYBIND11_DECLARE_HOLDER_TYPE(T, huge_unique_ptr<T>);
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// Simple custom holder that works like unique_ptr
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template <typename T>
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class custom_unique_ptr {
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std::unique_ptr<T> impl;
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public:
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custom_unique_ptr(T* p) : impl(p) { }
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T* get() const { return impl.get(); }
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T* release_ptr() { return impl.release(); }
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};
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PYBIND11_DECLARE_HOLDER_TYPE(T, custom_unique_ptr<T>);
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TEST_SUBMODULE(smart_ptr, m) {
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// test_smart_ptr
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// Object implementation in `object.h`
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py::class_<Object, ref<Object>> obj(m, "Object");
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obj.def("getRefCount", &Object::getRefCount);
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// Custom object with builtin reference counting (see 'object.h' for the implementation)
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class MyObject1 : public Object {
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public:
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MyObject1(int value) : value(value) { print_created(this, toString()); }
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std::string toString() const { return "MyObject1[" + std::to_string(value) + "]"; }
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protected:
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virtual ~MyObject1() { print_destroyed(this); }
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private:
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int value;
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};
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py::class_<MyObject1, ref<MyObject1>>(m, "MyObject1", obj)
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.def(py::init<int>());
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py::implicitly_convertible<py::int_, MyObject1>();
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m.def("make_object_1", []() -> Object * { return new MyObject1(1); });
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m.def("make_object_2", []() -> ref<Object> { return new MyObject1(2); });
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m.def("make_myobject1_1", []() -> MyObject1 * { return new MyObject1(4); });
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m.def("make_myobject1_2", []() -> ref<MyObject1> { return new MyObject1(5); });
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m.def("print_object_1", [](const Object *obj) { py::print(obj->toString()); });
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m.def("print_object_2", [](ref<Object> obj) { py::print(obj->toString()); });
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m.def("print_object_3", [](const ref<Object> &obj) { py::print(obj->toString()); });
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m.def("print_object_4", [](const ref<Object> *obj) { py::print((*obj)->toString()); });
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m.def("print_myobject1_1", [](const MyObject1 *obj) { py::print(obj->toString()); });
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m.def("print_myobject1_2", [](ref<MyObject1> obj) { py::print(obj->toString()); });
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m.def("print_myobject1_3", [](const ref<MyObject1> &obj) { py::print(obj->toString()); });
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m.def("print_myobject1_4", [](const ref<MyObject1> *obj) { py::print((*obj)->toString()); });
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// Expose constructor stats for the ref type
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m.def("cstats_ref", &ConstructorStats::get<ref_tag>);
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// Object managed by a std::shared_ptr<>
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class MyObject2 {
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public:
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MyObject2(int value) : value(value) { print_created(this, toString()); }
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std::string toString() const { return "MyObject2[" + std::to_string(value) + "]"; }
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virtual ~MyObject2() { print_destroyed(this); }
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private:
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int value;
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};
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py::class_<MyObject2, std::shared_ptr<MyObject2>>(m, "MyObject2")
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.def(py::init<int>());
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m.def("make_myobject2_1", []() { return new MyObject2(6); });
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m.def("make_myobject2_2", []() { return std::make_shared<MyObject2>(7); });
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m.def("print_myobject2_1", [](const MyObject2 *obj) { py::print(obj->toString()); });
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m.def("print_myobject2_2", [](std::shared_ptr<MyObject2> obj) { py::print(obj->toString()); });
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m.def("print_myobject2_3", [](const std::shared_ptr<MyObject2> &obj) { py::print(obj->toString()); });
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m.def("print_myobject2_4", [](const std::shared_ptr<MyObject2> *obj) { py::print((*obj)->toString()); });
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// Object managed by a std::shared_ptr<>, additionally derives from std::enable_shared_from_this<>
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class MyObject3 : public std::enable_shared_from_this<MyObject3> {
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public:
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MyObject3(int value) : value(value) { print_created(this, toString()); }
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std::string toString() const { return "MyObject3[" + std::to_string(value) + "]"; }
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virtual ~MyObject3() { print_destroyed(this); }
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private:
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int value;
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};
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py::class_<MyObject3, std::shared_ptr<MyObject3>>(m, "MyObject3")
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.def(py::init<int>());
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m.def("make_myobject3_1", []() { return new MyObject3(8); });
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m.def("make_myobject3_2", []() { return std::make_shared<MyObject3>(9); });
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m.def("print_myobject3_1", [](const MyObject3 *obj) { py::print(obj->toString()); });
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m.def("print_myobject3_2", [](std::shared_ptr<MyObject3> obj) { py::print(obj->toString()); });
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m.def("print_myobject3_3", [](const std::shared_ptr<MyObject3> &obj) { py::print(obj->toString()); });
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m.def("print_myobject3_4", [](const std::shared_ptr<MyObject3> *obj) { py::print((*obj)->toString()); });
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// test_smart_ptr_refcounting
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m.def("test_object1_refcounting", []() {
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ref<MyObject1> o = new MyObject1(0);
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bool good = o->getRefCount() == 1;
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py::object o2 = py::cast(o, py::return_value_policy::reference);
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// always request (partial) ownership for objects with intrusive
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// reference counting even when using the 'reference' RVP
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good &= o->getRefCount() == 2;
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return good;
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});
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// test_unique_nodelete
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// Object with a private destructor
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class MyObject4 {
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public:
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MyObject4(int value) : value{value} { print_created(this); }
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int value;
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private:
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~MyObject4() { print_destroyed(this); }
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};
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py::class_<MyObject4, std::unique_ptr<MyObject4, py::nodelete>>(m, "MyObject4")
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.def(py::init<int>())
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.def_readwrite("value", &MyObject4::value);
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// test_large_holder
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class MyObject5 { // managed by huge_unique_ptr
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public:
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MyObject5(int value) : value{value} { print_created(this); }
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~MyObject5() { print_destroyed(this); }
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int value;
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};
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py::class_<MyObject5, huge_unique_ptr<MyObject5>>(m, "MyObject5")
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.def(py::init<int>())
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.def_readwrite("value", &MyObject5::value);
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// test_shared_ptr_and_references
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struct SharedPtrRef {
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struct A {
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A() { print_created(this); }
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A(const A &) { print_copy_created(this); }
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A(A &&) { print_move_created(this); }
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~A() { print_destroyed(this); }
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};
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A value = {};
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std::shared_ptr<A> shared = std::make_shared<A>();
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};
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using A = SharedPtrRef::A;
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py::class_<A, std::shared_ptr<A>>(m, "A");
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py::class_<SharedPtrRef>(m, "SharedPtrRef")
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.def(py::init<>())
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.def_readonly("ref", &SharedPtrRef::value)
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.def_property_readonly("copy", [](const SharedPtrRef &s) { return s.value; },
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py::return_value_policy::copy)
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.def_readonly("holder_ref", &SharedPtrRef::shared)
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.def_property_readonly("holder_copy", [](const SharedPtrRef &s) { return s.shared; },
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py::return_value_policy::copy)
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.def("set_ref", [](SharedPtrRef &, const A &) { return true; })
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.def("set_holder", [](SharedPtrRef &, std::shared_ptr<A>) { return true; });
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// test_shared_ptr_from_this_and_references
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struct SharedFromThisRef {
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struct B : std::enable_shared_from_this<B> {
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B() { print_created(this); }
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B(const B &) : std::enable_shared_from_this<B>() { print_copy_created(this); }
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B(B &&) : std::enable_shared_from_this<B>() { print_move_created(this); }
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~B() { print_destroyed(this); }
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};
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B value = {};
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std::shared_ptr<B> shared = std::make_shared<B>();
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};
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using B = SharedFromThisRef::B;
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py::class_<B, std::shared_ptr<B>>(m, "B");
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py::class_<SharedFromThisRef>(m, "SharedFromThisRef")
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.def(py::init<>())
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.def_readonly("bad_wp", &SharedFromThisRef::value)
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.def_property_readonly("ref", [](const SharedFromThisRef &s) -> const B & { return *s.shared; })
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.def_property_readonly("copy", [](const SharedFromThisRef &s) { return s.value; },
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py::return_value_policy::copy)
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.def_readonly("holder_ref", &SharedFromThisRef::shared)
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.def_property_readonly("holder_copy", [](const SharedFromThisRef &s) { return s.shared; },
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py::return_value_policy::copy)
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.def("set_ref", [](SharedFromThisRef &, const B &) { return true; })
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.def("set_holder", [](SharedFromThisRef &, std::shared_ptr<B>) { return true; });
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// Issue #865: shared_from_this doesn't work with virtual inheritance
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struct SharedFromThisVBase : std::enable_shared_from_this<SharedFromThisVBase> {
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virtual ~SharedFromThisVBase() = default;
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};
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struct SharedFromThisVirt : virtual SharedFromThisVBase {};
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static std::shared_ptr<SharedFromThisVirt> sft(new SharedFromThisVirt());
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py::class_<SharedFromThisVirt, std::shared_ptr<SharedFromThisVirt>>(m, "SharedFromThisVirt")
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.def_static("get", []() { return sft.get(); });
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// test_move_only_holder
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struct C {
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C() { print_created(this); }
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~C() { print_destroyed(this); }
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};
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py::class_<C, custom_unique_ptr<C>>(m, "TypeWithMoveOnlyHolder")
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.def_static("make", []() { return custom_unique_ptr<C>(new C); });
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// test_smart_ptr_from_default
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struct HeldByDefaultHolder { };
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py::class_<HeldByDefaultHolder>(m, "HeldByDefaultHolder")
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.def(py::init<>())
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.def_static("load_shared_ptr", [](std::shared_ptr<HeldByDefaultHolder>) {});
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// test_shared_ptr_gc
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// #187: issue involving std::shared_ptr<> return value policy & garbage collection
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struct ElementBase { virtual void foo() { } /* Force creation of virtual table */ };
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py::class_<ElementBase, std::shared_ptr<ElementBase>>(m, "ElementBase");
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struct ElementA : ElementBase {
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ElementA(int v) : v(v) { }
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int value() { return v; }
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int v;
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};
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py::class_<ElementA, ElementBase, std::shared_ptr<ElementA>>(m, "ElementA")
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.def(py::init<int>())
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.def("value", &ElementA::value);
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struct ElementList {
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void add(std::shared_ptr<ElementBase> e) { l.push_back(e); }
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std::vector<std::shared_ptr<ElementBase>> l;
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};
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py::class_<ElementList, std::shared_ptr<ElementList>>(m, "ElementList")
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.def(py::init<>())
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.def("add", &ElementList::add)
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.def("get", [](ElementList &el) {
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py::list list;
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for (auto &e : el.l)
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list.append(py::cast(e));
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return list;
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});
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}
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