mirror of
https://github.com/pybind/pybind11.git
synced 2024-11-14 17:43:53 +00:00
ba33b2fc79
This commit turns on `-Wdeprecated` in the test suite and fixes several associated deprecation warnings that show up as a result: - in C++17 `static constexpr` members are implicitly inline; our redeclaration (needed for C++11/14) is deprecated in C++17. - various test suite classes have destructors and rely on implicit copy constructors, but implicit copy constructor definitions when a user-declared destructor is present was deprecated in C++11. - Eigen also has various implicit copy constructors, so just disable `-Wdeprecated` in `eigen.h`.
339 lines
16 KiB
C++
339 lines
16 KiB
C++
/*
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tests/test_factory_constructors.cpp -- tests construction from a factory function
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via py::init_factory()
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Copyright (c) 2017 Jason Rhinelander <jason@imaginary.ca>
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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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#include <cmath>
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// Classes for testing python construction via C++ factory function:
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// Not publicly constructible, copyable, or movable:
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class TestFactory1 {
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friend class TestFactoryHelper;
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TestFactory1() : value("(empty)") { print_default_created(this); }
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TestFactory1(int v) : value(std::to_string(v)) { print_created(this, value); }
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TestFactory1(std::string v) : value(std::move(v)) { print_created(this, value); }
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TestFactory1(TestFactory1 &&) = delete;
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TestFactory1(const TestFactory1 &) = delete;
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TestFactory1 &operator=(TestFactory1 &&) = delete;
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TestFactory1 &operator=(const TestFactory1 &) = delete;
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public:
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std::string value;
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~TestFactory1() { print_destroyed(this); }
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};
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// Non-public construction, but moveable:
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class TestFactory2 {
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friend class TestFactoryHelper;
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TestFactory2() : value("(empty2)") { print_default_created(this); }
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TestFactory2(int v) : value(std::to_string(v)) { print_created(this, value); }
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TestFactory2(std::string v) : value(std::move(v)) { print_created(this, value); }
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public:
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TestFactory2(TestFactory2 &&m) { value = std::move(m.value); print_move_created(this); }
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TestFactory2 &operator=(TestFactory2 &&m) { value = std::move(m.value); print_move_assigned(this); return *this; }
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std::string value;
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~TestFactory2() { print_destroyed(this); }
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};
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// Mixed direct/factory construction:
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class TestFactory3 {
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protected:
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friend class TestFactoryHelper;
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TestFactory3() : value("(empty3)") { print_default_created(this); }
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TestFactory3(int v) : value(std::to_string(v)) { print_created(this, value); }
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public:
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TestFactory3(std::string v) : value(std::move(v)) { print_created(this, value); }
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TestFactory3(TestFactory3 &&m) { value = std::move(m.value); print_move_created(this); }
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TestFactory3 &operator=(TestFactory3 &&m) { value = std::move(m.value); print_move_assigned(this); return *this; }
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std::string value;
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virtual ~TestFactory3() { print_destroyed(this); }
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};
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// Inheritance test
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class TestFactory4 : public TestFactory3 {
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public:
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TestFactory4() : TestFactory3() { print_default_created(this); }
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TestFactory4(int v) : TestFactory3(v) { print_created(this, v); }
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virtual ~TestFactory4() { print_destroyed(this); }
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};
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// Another class for an invalid downcast test
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class TestFactory5 : public TestFactory3 {
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public:
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TestFactory5(int i) : TestFactory3(i) { print_created(this, i); }
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virtual ~TestFactory5() { print_destroyed(this); }
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};
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class TestFactory6 {
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protected:
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int value;
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bool alias = false;
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public:
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TestFactory6(int i) : value{i} { print_created(this, i); }
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TestFactory6(TestFactory6 &&f) { print_move_created(this); value = f.value; alias = f.alias; }
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TestFactory6(const TestFactory6 &f) { print_copy_created(this); value = f.value; alias = f.alias; }
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virtual ~TestFactory6() { print_destroyed(this); }
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virtual int get() { return value; }
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bool has_alias() { return alias; }
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};
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class PyTF6 : public TestFactory6 {
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public:
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// Special constructor that allows the factory to construct a PyTF6 from a TestFactory6 only
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// when an alias is needed:
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PyTF6(TestFactory6 &&base) : TestFactory6(std::move(base)) { alias = true; print_created(this, "move", value); }
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PyTF6(int i) : TestFactory6(i) { alias = true; print_created(this, i); }
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PyTF6(PyTF6 &&f) : TestFactory6(std::move(f)) { print_move_created(this); }
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PyTF6(const PyTF6 &f) : TestFactory6(f) { print_copy_created(this); }
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PyTF6(std::string s) : TestFactory6((int) s.size()) { alias = true; print_created(this, s); }
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virtual ~PyTF6() { print_destroyed(this); }
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int get() override { PYBIND11_OVERLOAD(int, TestFactory6, get, /*no args*/); }
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};
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class TestFactory7 {
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protected:
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int value;
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bool alias = false;
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public:
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TestFactory7(int i) : value{i} { print_created(this, i); }
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TestFactory7(TestFactory7 &&f) { print_move_created(this); value = f.value; alias = f.alias; }
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TestFactory7(const TestFactory7 &f) { print_copy_created(this); value = f.value; alias = f.alias; }
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virtual ~TestFactory7() { print_destroyed(this); }
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virtual int get() { return value; }
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bool has_alias() { return alias; }
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};
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class PyTF7 : public TestFactory7 {
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public:
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PyTF7(int i) : TestFactory7(i) { alias = true; print_created(this, i); }
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PyTF7(PyTF7 &&f) : TestFactory7(std::move(f)) { print_move_created(this); }
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PyTF7(const PyTF7 &f) : TestFactory7(f) { print_copy_created(this); }
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virtual ~PyTF7() { print_destroyed(this); }
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int get() override { PYBIND11_OVERLOAD(int, TestFactory7, get, /*no args*/); }
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};
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class TestFactoryHelper {
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public:
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// Non-movable, non-copyable type:
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// Return via pointer:
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static TestFactory1 *construct1() { return new TestFactory1(); }
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// Holder:
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static std::unique_ptr<TestFactory1> construct1(int a) { return std::unique_ptr<TestFactory1>(new TestFactory1(a)); }
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// pointer again
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static TestFactory1 *construct1_string(std::string a) { return new TestFactory1(a); }
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// Moveable type:
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// pointer:
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static TestFactory2 *construct2() { return new TestFactory2(); }
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// holder:
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static std::unique_ptr<TestFactory2> construct2(int a) { return std::unique_ptr<TestFactory2>(new TestFactory2(a)); }
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// by value moving:
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static TestFactory2 construct2(std::string a) { return TestFactory2(a); }
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// shared_ptr holder type:
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// pointer:
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static TestFactory3 *construct3() { return new TestFactory3(); }
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// holder:
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static std::shared_ptr<TestFactory3> construct3(int a) { return std::shared_ptr<TestFactory3>(new TestFactory3(a)); }
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};
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TEST_SUBMODULE(factory_constructors, m) {
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// Define various trivial types to allow simpler overload resolution:
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py::module m_tag = m.def_submodule("tag");
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#define MAKE_TAG_TYPE(Name) \
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struct Name##_tag {}; \
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py::class_<Name##_tag>(m_tag, #Name "_tag").def(py::init<>()); \
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m_tag.attr(#Name) = py::cast(Name##_tag{})
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MAKE_TAG_TYPE(pointer);
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MAKE_TAG_TYPE(unique_ptr);
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MAKE_TAG_TYPE(move);
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MAKE_TAG_TYPE(shared_ptr);
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MAKE_TAG_TYPE(derived);
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MAKE_TAG_TYPE(TF4);
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MAKE_TAG_TYPE(TF5);
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MAKE_TAG_TYPE(null_ptr);
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MAKE_TAG_TYPE(base);
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MAKE_TAG_TYPE(invalid_base);
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MAKE_TAG_TYPE(alias);
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MAKE_TAG_TYPE(unaliasable);
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MAKE_TAG_TYPE(mixed);
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// test_init_factory_basic, test_bad_type
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py::class_<TestFactory1>(m, "TestFactory1")
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.def(py::init([](unique_ptr_tag, int v) { return TestFactoryHelper::construct1(v); }))
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.def(py::init(&TestFactoryHelper::construct1_string)) // raw function pointer
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.def(py::init([](pointer_tag) { return TestFactoryHelper::construct1(); }))
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.def(py::init([](py::handle, int v, py::handle) { return TestFactoryHelper::construct1(v); }))
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.def_readwrite("value", &TestFactory1::value)
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;
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py::class_<TestFactory2>(m, "TestFactory2")
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.def(py::init([](pointer_tag, int v) { return TestFactoryHelper::construct2(v); }))
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.def(py::init([](unique_ptr_tag, std::string v) { return TestFactoryHelper::construct2(v); }))
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.def(py::init([](move_tag) { return TestFactoryHelper::construct2(); }))
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.def_readwrite("value", &TestFactory2::value)
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;
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// Stateful & reused:
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int c = 1;
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auto c4a = [c](pointer_tag, TF4_tag, int a) { (void) c; return new TestFactory4(a);};
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// test_init_factory_basic, test_init_factory_casting
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py::class_<TestFactory3, std::shared_ptr<TestFactory3>>(m, "TestFactory3")
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.def(py::init([](pointer_tag, int v) { return TestFactoryHelper::construct3(v); }))
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.def(py::init([](shared_ptr_tag) { return TestFactoryHelper::construct3(); }))
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.def("__init__", [](TestFactory3 &self, std::string v) { new (&self) TestFactory3(v); }) // placement-new ctor
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// factories returning a derived type:
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.def(py::init(c4a)) // derived ptr
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.def(py::init([](pointer_tag, TF5_tag, int a) { return new TestFactory5(a); }))
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// derived shared ptr:
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.def(py::init([](shared_ptr_tag, TF4_tag, int a) { return std::make_shared<TestFactory4>(a); }))
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.def(py::init([](shared_ptr_tag, TF5_tag, int a) { return std::make_shared<TestFactory5>(a); }))
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// Returns nullptr:
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.def(py::init([](null_ptr_tag) { return (TestFactory3 *) nullptr; }))
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.def_readwrite("value", &TestFactory3::value)
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;
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// test_init_factory_casting
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py::class_<TestFactory4, TestFactory3, std::shared_ptr<TestFactory4>>(m, "TestFactory4")
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.def(py::init(c4a)) // pointer
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;
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// Doesn't need to be registered, but registering makes getting ConstructorStats easier:
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py::class_<TestFactory5, TestFactory3, std::shared_ptr<TestFactory5>>(m, "TestFactory5");
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// test_init_factory_alias
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// Alias testing
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py::class_<TestFactory6, PyTF6>(m, "TestFactory6")
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.def(py::init([](base_tag, int i) { return TestFactory6(i); }))
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.def(py::init([](alias_tag, int i) { return PyTF6(i); }))
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.def(py::init([](alias_tag, std::string s) { return PyTF6(s); }))
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.def(py::init([](alias_tag, pointer_tag, int i) { return new PyTF6(i); }))
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.def(py::init([](base_tag, pointer_tag, int i) { return new TestFactory6(i); }))
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.def(py::init([](base_tag, alias_tag, pointer_tag, int i) { return (TestFactory6 *) new PyTF6(i); }))
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.def("get", &TestFactory6::get)
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.def("has_alias", &TestFactory6::has_alias)
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.def_static("get_cstats", &ConstructorStats::get<TestFactory6>, py::return_value_policy::reference)
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.def_static("get_alias_cstats", &ConstructorStats::get<PyTF6>, py::return_value_policy::reference)
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;
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// test_init_factory_dual
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// Separate alias constructor testing
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py::class_<TestFactory7, PyTF7, std::shared_ptr<TestFactory7>>(m, "TestFactory7")
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.def(py::init(
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[](int i) { return TestFactory7(i); },
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[](int i) { return PyTF7(i); }))
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.def(py::init(
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[](pointer_tag, int i) { return new TestFactory7(i); },
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[](pointer_tag, int i) { return new PyTF7(i); }))
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.def(py::init(
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[](mixed_tag, int i) { return new TestFactory7(i); },
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[](mixed_tag, int i) { return PyTF7(i); }))
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.def(py::init(
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[](mixed_tag, std::string s) { return TestFactory7((int) s.size()); },
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[](mixed_tag, std::string s) { return new PyTF7((int) s.size()); }))
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.def(py::init(
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[](base_tag, pointer_tag, int i) { return new TestFactory7(i); },
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[](base_tag, pointer_tag, int i) { return (TestFactory7 *) new PyTF7(i); }))
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.def(py::init(
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[](alias_tag, pointer_tag, int i) { return new PyTF7(i); },
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[](alias_tag, pointer_tag, int i) { return new PyTF7(10*i); }))
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.def(py::init(
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[](shared_ptr_tag, base_tag, int i) { return std::make_shared<TestFactory7>(i); },
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[](shared_ptr_tag, base_tag, int i) { auto *p = new PyTF7(i); return std::shared_ptr<TestFactory7>(p); }))
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.def(py::init(
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[](shared_ptr_tag, invalid_base_tag, int i) { return std::make_shared<TestFactory7>(i); },
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[](shared_ptr_tag, invalid_base_tag, int i) { return std::make_shared<TestFactory7>(i); })) // <-- invalid alias factory
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.def("get", &TestFactory7::get)
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.def("has_alias", &TestFactory7::has_alias)
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.def_static("get_cstats", &ConstructorStats::get<TestFactory7>, py::return_value_policy::reference)
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.def_static("get_alias_cstats", &ConstructorStats::get<PyTF7>, py::return_value_policy::reference)
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;
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// test_placement_new_alternative
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// Class with a custom new operator but *without* a placement new operator (issue #948)
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class NoPlacementNew {
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public:
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NoPlacementNew(int i) : i(i) { }
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static void *operator new(std::size_t s) {
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auto *p = ::operator new(s);
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py::print("operator new called, returning", reinterpret_cast<uintptr_t>(p));
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return p;
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}
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static void operator delete(void *p) {
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py::print("operator delete called on", reinterpret_cast<uintptr_t>(p));
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::operator delete(p);
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}
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int i;
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};
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// As of 2.2, `py::init<args>` no longer requires placement new
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py::class_<NoPlacementNew>(m, "NoPlacementNew")
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.def(py::init<int>())
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.def(py::init([]() { return new NoPlacementNew(100); }))
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.def_readwrite("i", &NoPlacementNew::i)
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;
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// test_reallocations
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// Class that has verbose operator_new/operator_delete calls
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struct NoisyAlloc {
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NoisyAlloc(const NoisyAlloc &) = default;
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NoisyAlloc(int i) { py::print(py::str("NoisyAlloc(int {})").format(i)); }
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NoisyAlloc(double d) { py::print(py::str("NoisyAlloc(double {})").format(d)); }
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~NoisyAlloc() { py::print("~NoisyAlloc()"); }
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static void *operator new(size_t s) { py::print("noisy new"); return ::operator new(s); }
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static void *operator new(size_t, void *p) { py::print("noisy placement new"); return p; }
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static void operator delete(void *p, size_t) { py::print("noisy delete"); ::operator delete(p); }
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static void operator delete(void *, void *) { py::print("noisy placement delete"); }
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#if defined(_MSC_VER) && _MSC_VER < 1910
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// MSVC 2015 bug: the above "noisy delete" isn't invoked (fixed in MSVC 2017)
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static void operator delete(void *p) { py::print("noisy delete"); ::operator delete(p); }
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#endif
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};
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py::class_<NoisyAlloc>(m, "NoisyAlloc")
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// Since these overloads have the same number of arguments, the dispatcher will try each of
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// them until the arguments convert. Thus we can get a pre-allocation here when passing a
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// single non-integer:
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.def("__init__", [](NoisyAlloc *a, int i) { new (a) NoisyAlloc(i); }) // Regular constructor, runs first, requires preallocation
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.def(py::init([](double d) { return new NoisyAlloc(d); }))
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// The two-argument version: first the factory pointer overload.
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.def(py::init([](int i, int) { return new NoisyAlloc(i); }))
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// Return-by-value:
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.def(py::init([](double d, int) { return NoisyAlloc(d); }))
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// Old-style placement new init; requires preallocation
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.def("__init__", [](NoisyAlloc &a, double d, double) { new (&a) NoisyAlloc(d); })
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// Requires deallocation of previous overload preallocated value:
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.def(py::init([](int i, double) { return new NoisyAlloc(i); }))
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// Regular again: requires yet another preallocation
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.def("__init__", [](NoisyAlloc &a, int i, std::string) { new (&a) NoisyAlloc(i); })
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;
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// static_assert testing (the following def's should all fail with appropriate compilation errors):
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#if 0
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struct BadF1Base {};
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struct BadF1 : BadF1Base {};
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struct PyBadF1 : BadF1 {};
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py::class_<BadF1, PyBadF1, std::shared_ptr<BadF1>> bf1(m, "BadF1");
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// wrapped factory function must return a compatible pointer, holder, or value
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bf1.def(py::init([]() { return 3; }));
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// incompatible factory function pointer return type
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bf1.def(py::init([]() { static int three = 3; return &three; }));
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// incompatible factory function std::shared_ptr<T> return type: cannot convert shared_ptr<T> to holder
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// (non-polymorphic base)
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bf1.def(py::init([]() { return std::shared_ptr<BadF1Base>(new BadF1()); }));
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#endif
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}
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