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206 lines
8.3 KiB
C++
206 lines
8.3 KiB
C++
/*
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tests/test_class.cpp -- test py::class_ definitions and basic functionality
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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 "constructor_stats.h"
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TEST_SUBMODULE(class_, m) {
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// test_instance
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struct NoConstructor {
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static NoConstructor *new_instance() {
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auto *ptr = new NoConstructor();
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print_created(ptr, "via new_instance");
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return ptr;
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}
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~NoConstructor() { print_destroyed(this); }
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};
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py::class_<NoConstructor>(m, "NoConstructor")
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.def_static("new_instance", &NoConstructor::new_instance, "Return an instance");
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// test_inheritance
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class Pet {
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public:
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Pet(const std::string &name, const std::string &species)
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: m_name(name), m_species(species) {}
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std::string name() const { return m_name; }
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std::string species() const { return m_species; }
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private:
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std::string m_name;
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std::string m_species;
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};
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class Dog : public Pet {
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public:
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Dog(const std::string &name) : Pet(name, "dog") {}
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std::string bark() const { return "Woof!"; }
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};
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class Rabbit : public Pet {
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public:
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Rabbit(const std::string &name) : Pet(name, "parrot") {}
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};
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class Hamster : public Pet {
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public:
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Hamster(const std::string &name) : Pet(name, "rodent") {}
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};
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class Chimera : public Pet {
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Chimera() : Pet("Kimmy", "chimera") {}
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};
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py::class_<Pet> pet_class(m, "Pet");
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pet_class
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.def(py::init<std::string, std::string>())
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.def("name", &Pet::name)
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.def("species", &Pet::species);
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/* One way of declaring a subclass relationship: reference parent's class_ object */
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py::class_<Dog>(m, "Dog", pet_class)
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.def(py::init<std::string>());
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/* Another way of declaring a subclass relationship: reference parent's C++ type */
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py::class_<Rabbit, Pet>(m, "Rabbit")
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.def(py::init<std::string>());
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/* And another: list parent in class template arguments */
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py::class_<Hamster, Pet>(m, "Hamster")
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.def(py::init<std::string>());
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/* Constructors are not inherited by default */
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py::class_<Chimera, Pet>(m, "Chimera");
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m.def("pet_name_species", [](const Pet &pet) { return pet.name() + " is a " + pet.species(); });
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m.def("dog_bark", [](const Dog &dog) { return dog.bark(); });
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// test_automatic_upcasting
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struct BaseClass { virtual ~BaseClass() {} };
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struct DerivedClass1 : BaseClass { };
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struct DerivedClass2 : BaseClass { };
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py::class_<BaseClass>(m, "BaseClass").def(py::init<>());
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py::class_<DerivedClass1>(m, "DerivedClass1").def(py::init<>());
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py::class_<DerivedClass2>(m, "DerivedClass2").def(py::init<>());
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m.def("return_class_1", []() -> BaseClass* { return new DerivedClass1(); });
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m.def("return_class_2", []() -> BaseClass* { return new DerivedClass2(); });
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m.def("return_class_n", [](int n) -> BaseClass* {
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if (n == 1) return new DerivedClass1();
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if (n == 2) return new DerivedClass2();
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return new BaseClass();
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});
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m.def("return_none", []() -> BaseClass* { return nullptr; });
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// test_isinstance
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m.def("check_instances", [](py::list l) {
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return py::make_tuple(
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py::isinstance<py::tuple>(l[0]),
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py::isinstance<py::dict>(l[1]),
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py::isinstance<Pet>(l[2]),
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py::isinstance<Pet>(l[3]),
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py::isinstance<Dog>(l[4]),
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py::isinstance<Rabbit>(l[5]),
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py::isinstance<UnregisteredType>(l[6])
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);
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});
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// test_mismatched_holder
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struct MismatchBase1 { };
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struct MismatchDerived1 : MismatchBase1 { };
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struct MismatchBase2 { };
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struct MismatchDerived2 : MismatchBase2 { };
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m.def("mismatched_holder_1", []() {
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auto mod = py::module::import("__main__");
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py::class_<MismatchBase1, std::shared_ptr<MismatchBase1>>(mod, "MismatchBase1");
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py::class_<MismatchDerived1, MismatchBase1>(mod, "MismatchDerived1");
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});
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m.def("mismatched_holder_2", []() {
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auto mod = py::module::import("__main__");
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py::class_<MismatchBase2>(mod, "MismatchBase2");
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py::class_<MismatchDerived2, std::shared_ptr<MismatchDerived2>,
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MismatchBase2>(mod, "MismatchDerived2");
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});
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// test_override_static
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// #511: problem with inheritance + overwritten def_static
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struct MyBase {
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static std::unique_ptr<MyBase> make() {
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return std::unique_ptr<MyBase>(new MyBase());
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}
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};
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struct MyDerived : MyBase {
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static std::unique_ptr<MyDerived> make() {
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return std::unique_ptr<MyDerived>(new MyDerived());
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}
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};
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py::class_<MyBase>(m, "MyBase")
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.def_static("make", &MyBase::make);
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py::class_<MyDerived, MyBase>(m, "MyDerived")
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.def_static("make", &MyDerived::make)
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.def_static("make2", &MyDerived::make);
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}
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template <int N> class BreaksBase {};
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template <int N> class BreaksTramp : public BreaksBase<N> {};
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// These should all compile just fine:
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typedef py::class_<BreaksBase<1>, std::unique_ptr<BreaksBase<1>>, BreaksTramp<1>> DoesntBreak1;
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typedef py::class_<BreaksBase<2>, BreaksTramp<2>, std::unique_ptr<BreaksBase<2>>> DoesntBreak2;
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typedef py::class_<BreaksBase<3>, std::unique_ptr<BreaksBase<3>>> DoesntBreak3;
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typedef py::class_<BreaksBase<4>, BreaksTramp<4>> DoesntBreak4;
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typedef py::class_<BreaksBase<5>> DoesntBreak5;
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typedef py::class_<BreaksBase<6>, std::shared_ptr<BreaksBase<6>>, BreaksTramp<6>> DoesntBreak6;
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typedef py::class_<BreaksBase<7>, BreaksTramp<7>, std::shared_ptr<BreaksBase<7>>> DoesntBreak7;
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typedef py::class_<BreaksBase<8>, std::shared_ptr<BreaksBase<8>>> DoesntBreak8;
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#define CHECK_BASE(N) static_assert(std::is_same<typename DoesntBreak##N::type, BreaksBase<N>>::value, \
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"DoesntBreak" #N " has wrong type!")
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CHECK_BASE(1); CHECK_BASE(2); CHECK_BASE(3); CHECK_BASE(4); CHECK_BASE(5); CHECK_BASE(6); CHECK_BASE(7); CHECK_BASE(8);
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#define CHECK_ALIAS(N) static_assert(DoesntBreak##N::has_alias && std::is_same<typename DoesntBreak##N::type_alias, BreaksTramp<N>>::value, \
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"DoesntBreak" #N " has wrong type_alias!")
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#define CHECK_NOALIAS(N) static_assert(!DoesntBreak##N::has_alias && std::is_void<typename DoesntBreak##N::type_alias>::value, \
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"DoesntBreak" #N " has type alias, but shouldn't!")
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CHECK_ALIAS(1); CHECK_ALIAS(2); CHECK_NOALIAS(3); CHECK_ALIAS(4); CHECK_NOALIAS(5); CHECK_ALIAS(6); CHECK_ALIAS(7); CHECK_NOALIAS(8);
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#define CHECK_HOLDER(N, TYPE) static_assert(std::is_same<typename DoesntBreak##N::holder_type, std::TYPE##_ptr<BreaksBase<N>>>::value, \
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"DoesntBreak" #N " has wrong holder_type!")
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CHECK_HOLDER(1, unique); CHECK_HOLDER(2, unique); CHECK_HOLDER(3, unique); CHECK_HOLDER(4, unique); CHECK_HOLDER(5, unique);
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CHECK_HOLDER(6, shared); CHECK_HOLDER(7, shared); CHECK_HOLDER(8, shared);
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// There's no nice way to test that these fail because they fail to compile; leave them here,
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// though, so that they can be manually tested by uncommenting them (and seeing that compilation
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// failures occurs).
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// We have to actually look into the type: the typedef alone isn't enough to instantiate the type:
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#define CHECK_BROKEN(N) static_assert(std::is_same<typename Breaks##N::type, BreaksBase<-N>>::value, \
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"Breaks1 has wrong type!");
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//// Two holder classes:
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//typedef py::class_<BreaksBase<-1>, std::unique_ptr<BreaksBase<-1>>, std::unique_ptr<BreaksBase<-1>>> Breaks1;
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//CHECK_BROKEN(1);
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//// Two aliases:
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//typedef py::class_<BreaksBase<-2>, BreaksTramp<-2>, BreaksTramp<-2>> Breaks2;
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//CHECK_BROKEN(2);
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//// Holder + 2 aliases
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//typedef py::class_<BreaksBase<-3>, std::unique_ptr<BreaksBase<-3>>, BreaksTramp<-3>, BreaksTramp<-3>> Breaks3;
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//CHECK_BROKEN(3);
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//// Alias + 2 holders
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//typedef py::class_<BreaksBase<-4>, std::unique_ptr<BreaksBase<-4>>, BreaksTramp<-4>, std::shared_ptr<BreaksBase<-4>>> Breaks4;
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//CHECK_BROKEN(4);
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//// Invalid option (not a subclass or holder)
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//typedef py::class_<BreaksBase<-5>, BreaksTramp<-4>> Breaks5;
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//CHECK_BROKEN(5);
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//// Invalid option: multiple inheritance not supported:
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//template <> struct BreaksBase<-8> : BreaksBase<-6>, BreaksBase<-7> {};
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//typedef py::class_<BreaksBase<-8>, BreaksBase<-6>, BreaksBase<-7>> Breaks8;
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//CHECK_BROKEN(8);
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