ext/pybind11/tests/test_pickling.cpp - public/gem5 - Git at Google

 // clang-format off
 /*
     tests/test_pickling.cpp -- pickle support

     Copyright (c) 2016 Wenzel Jakob <wenzel.jakob@epfl.ch>
     Copyright (c) 2021 The Pybind Development Team.

     All rights reserved. Use of this source code is governed by a
     BSD-style license that can be found in the LICENSE file.
 */

 #include "pybind11_tests.h"

 // clang-format on

 #include <memory>
 #include <stdexcept>
 #include <utility>

 namespace exercise_trampoline {

 struct SimpleBase {
     int num               = 0;
     virtual ~SimpleBase() = default;

     // For compatibility with old clang versions:
     SimpleBase()                   = default;
     SimpleBase(const SimpleBase &) = default;
 };

 struct SimpleBaseTrampoline : SimpleBase {};

 struct SimpleCppDerived : SimpleBase {};

 void wrap(py::module m) {
     py::class_<SimpleBase, SimpleBaseTrampoline>(m, "SimpleBase")
         .def(py::init<>())
         .def_readwrite("num", &SimpleBase::num)
         .def(py::pickle(
             [](const py::object &self) {
                 py::dict d;
                 if (py::hasattr(self, "__dict__"))
                     d = self.attr("__dict__");
                 return py::make_tuple(self.attr("num"), d);
             },
             [](const py::tuple &t) {
                 if (t.size() != 2)
                     throw std::runtime_error("Invalid state!");
                 auto cpp_state = std::unique_ptr<SimpleBase>(new SimpleBaseTrampoline);
                 cpp_state->num = t[0].cast<int>();
                 auto py_state  = t[1].cast<py::dict>();
                 return std::make_pair(std::move(cpp_state), py_state);
             }));

     m.def("make_SimpleCppDerivedAsBase",
           []() { return std::unique_ptr<SimpleBase>(new SimpleCppDerived); });
     m.def("check_dynamic_cast_SimpleCppDerived", [](const SimpleBase *base_ptr) {
         return dynamic_cast<const SimpleCppDerived *>(base_ptr) != nullptr;
     });
 }

 } // namespace exercise_trampoline

 // clang-format off

 TEST_SUBMODULE(pickling, m) {
     // test_roundtrip
     class Pickleable {
     public:
         explicit Pickleable(const std::string &value) : m_value(value) { }
         const std::string &value() const { return m_value; }

         void setExtra1(int extra1) { m_extra1 = extra1; }
         void setExtra2(int extra2) { m_extra2 = extra2; }
         int extra1() const { return m_extra1; }
         int extra2() const { return m_extra2; }
     private:
         std::string m_value;
         int m_extra1 = 0;
         int m_extra2 = 0;
     };

     class PickleableNew : public Pickleable {
     public:
         using Pickleable::Pickleable;
     };

     py::class_<Pickleable> pyPickleable(m, "Pickleable");
     pyPickleable
         .def(py::init<std::string>())
         .def("value", &Pickleable::value)
         .def("extra1", &Pickleable::extra1)
         .def("extra2", &Pickleable::extra2)
         .def("setExtra1", &Pickleable::setExtra1)
         .def("setExtra2", &Pickleable::setExtra2)
         // For details on the methods below, refer to
         // http://docs.python.org/3/library/pickle.html#pickling-class-instances
         .def("__getstate__", [](const Pickleable &p) {
             /* Return a tuple that fully encodes the state of the object */
             return py::make_tuple(p.value(), p.extra1(), p.extra2());
         });
     ignoreOldStyleInitWarnings([&pyPickleable]() {
         pyPickleable.def("__setstate__", [](Pickleable &p, const py::tuple &t) {
             if (t.size() != 3)
                 throw std::runtime_error("Invalid state!");
             /* Invoke the constructor (need to use in-place version) */
             new (&p) Pickleable(t[0].cast<std::string>());

             /* Assign any additional state */
             p.setExtra1(t[1].cast<int>());
             p.setExtra2(t[2].cast<int>());
         });
     });

     py::class_<PickleableNew, Pickleable>(m, "PickleableNew")
         .def(py::init<std::string>())
         .def(py::pickle(
             [](const PickleableNew &p) {
                 return py::make_tuple(p.value(), p.extra1(), p.extra2());
             },
             [](const py::tuple &t) {
                 if (t.size() != 3)
                     throw std::runtime_error("Invalid state!");
                 auto p = PickleableNew(t[0].cast<std::string>());

                 p.setExtra1(t[1].cast<int>());
                 p.setExtra2(t[2].cast<int>());
                 return p;
             }));

 #if !defined(PYPY_VERSION)
     // test_roundtrip_with_dict
     class PickleableWithDict {
     public:
         explicit PickleableWithDict(const std::string &value) : value(value) { }

         std::string value;
         int extra;
     };

     class PickleableWithDictNew : public PickleableWithDict {
     public:
         using PickleableWithDict::PickleableWithDict;
     };

     py::class_<PickleableWithDict> pyPickleableWithDict(m, "PickleableWithDict", py::dynamic_attr());
     pyPickleableWithDict.def(py::init<std::string>())
         .def_readwrite("value", &PickleableWithDict::value)
         .def_readwrite("extra", &PickleableWithDict::extra)
         .def("__getstate__", [](const py::object &self) {
             /* Also include __dict__ in state */
             return py::make_tuple(self.attr("value"), self.attr("extra"), self.attr("__dict__"));
         });
     ignoreOldStyleInitWarnings([&pyPickleableWithDict]() {
         pyPickleableWithDict.def("__setstate__", [](const py::object &self, const py::tuple &t) {
             if (t.size() != 3)
                 throw std::runtime_error("Invalid state!");
             /* Cast and construct */
             auto &p = self.cast<PickleableWithDict &>();
             new (&p) PickleableWithDict(t[0].cast<std::string>());

             /* Assign C++ state */
             p.extra = t[1].cast<int>();

             /* Assign Python state */
             self.attr("__dict__") = t[2];
         });
     });

     py::class_<PickleableWithDictNew, PickleableWithDict>(m, "PickleableWithDictNew")
         .def(py::init<std::string>())
         .def(py::pickle(
             [](const py::object &self) {
                 return py::make_tuple(self.attr("value"), self.attr("extra"), self.attr("__dict__"));
             },
             [](const py::tuple &t) {
                 if (t.size() != 3)
                     throw std::runtime_error("Invalid state!");

                 auto cpp_state = PickleableWithDictNew(t[0].cast<std::string>());
                 cpp_state.extra = t[1].cast<int>();

                 auto py_state = t[2].cast<py::dict>();
                 return std::make_pair(cpp_state, py_state);
             }));
 #endif

     exercise_trampoline::wrap(m);
 }
	// clang-format off
	/*
	tests/test_pickling.cpp -- pickle support

	Copyright (c) 2016 Wenzel Jakob <wenzel.jakob@epfl.ch>
	Copyright (c) 2021 The Pybind Development Team.

	All rights reserved. Use of this source code is governed by a
	BSD-style license that can be found in the LICENSE file.
	*/

	#include "pybind11_tests.h"

	// clang-format on

	#include <memory>
	#include <stdexcept>
	#include <utility>

	namespace exercise_trampoline {

	struct SimpleBase {
	int num = 0;
	virtual ~SimpleBase() = default;

	// For compatibility with old clang versions:
	SimpleBase() = default;
	SimpleBase(const SimpleBase &) = default;
	};

	struct SimpleBaseTrampoline : SimpleBase {};

	struct SimpleCppDerived : SimpleBase {};

	void wrap(py::module m) {
	py::class_<SimpleBase, SimpleBaseTrampoline>(m, "SimpleBase")
	.def(py::init<>())
	.def_readwrite("num", &SimpleBase::num)
	.def(py::pickle(
	[](const py::object &self) {
	py::dict d;
	if (py::hasattr(self, "__dict__"))
	d = self.attr("__dict__");
	return py::make_tuple(self.attr("num"), d);
	},
	[](const py::tuple &t) {
	if (t.size() != 2)
	throw std::runtime_error("Invalid state!");
	auto cpp_state = std::unique_ptr<SimpleBase>(new SimpleBaseTrampoline);
	cpp_state->num = t[0].cast<int>();
	auto py_state = t[1].cast<py::dict>();
	return std::make_pair(std::move(cpp_state), py_state);
	}));

	m.def("make_SimpleCppDerivedAsBase",
	[]() { return std::unique_ptr<SimpleBase>(new SimpleCppDerived); });
	m.def("check_dynamic_cast_SimpleCppDerived", [](const SimpleBase *base_ptr) {
	return dynamic_cast<const SimpleCppDerived *>(base_ptr) != nullptr;
	});
	}

	} // namespace exercise_trampoline

	// clang-format off

	TEST_SUBMODULE(pickling, m) {
	// test_roundtrip
	class Pickleable {
	public:
	explicit Pickleable(const std::string &value) : m_value(value) { }
	const std::string &value() const { return m_value; }

	void setExtra1(int extra1) { m_extra1 = extra1; }
	void setExtra2(int extra2) { m_extra2 = extra2; }
	int extra1() const { return m_extra1; }
	int extra2() const { return m_extra2; }
	private:
	std::string m_value;
	int m_extra1 = 0;
	int m_extra2 = 0;
	};

	class PickleableNew : public Pickleable {
	public:
	using Pickleable::Pickleable;
	};

	py::class_<Pickleable> pyPickleable(m, "Pickleable");
	pyPickleable
	.def(py::init<std::string>())
	.def("value", &Pickleable::value)
	.def("extra1", &Pickleable::extra1)
	.def("extra2", &Pickleable::extra2)
	.def("setExtra1", &Pickleable::setExtra1)
	.def("setExtra2", &Pickleable::setExtra2)
	// For details on the methods below, refer to
	// http://docs.python.org/3/library/pickle.html#pickling-class-instances
	.def("__getstate__", [](const Pickleable &p) {
	/* Return a tuple that fully encodes the state of the object */
	return py::make_tuple(p.value(), p.extra1(), p.extra2());
	});
	ignoreOldStyleInitWarnings([&pyPickleable]() {
	pyPickleable.def("__setstate__", [](Pickleable &p, const py::tuple &t) {
	if (t.size() != 3)
	throw std::runtime_error("Invalid state!");
	/* Invoke the constructor (need to use in-place version) */
	new (&p) Pickleable(t[0].cast<std::string>());

	/* Assign any additional state */
	p.setExtra1(t[1].cast<int>());
	p.setExtra2(t[2].cast<int>());
	});
	});

	py::class_<PickleableNew, Pickleable>(m, "PickleableNew")
	.def(py::init<std::string>())
	.def(py::pickle(
	[](const PickleableNew &p) {
	return py::make_tuple(p.value(), p.extra1(), p.extra2());
	},
	[](const py::tuple &t) {
	if (t.size() != 3)
	throw std::runtime_error("Invalid state!");
	auto p = PickleableNew(t[0].cast<std::string>());

	p.setExtra1(t[1].cast<int>());
	p.setExtra2(t[2].cast<int>());
	return p;
	}));

	#if !defined(PYPY_VERSION)
	// test_roundtrip_with_dict
	class PickleableWithDict {
	public:
	explicit PickleableWithDict(const std::string &value) : value(value) { }

	std::string value;
	int extra;
	};

	class PickleableWithDictNew : public PickleableWithDict {
	public:
	using PickleableWithDict::PickleableWithDict;
	};

	py::class_<PickleableWithDict> pyPickleableWithDict(m, "PickleableWithDict", py::dynamic_attr());
	pyPickleableWithDict.def(py::init<std::string>())
	.def_readwrite("value", &PickleableWithDict::value)
	.def_readwrite("extra", &PickleableWithDict::extra)
	.def("__getstate__", [](const py::object &self) {
	/* Also include __dict__ in state */
	return py::make_tuple(self.attr("value"), self.attr("extra"), self.attr("__dict__"));
	});
	ignoreOldStyleInitWarnings([&pyPickleableWithDict]() {
	pyPickleableWithDict.def("__setstate__", [](const py::object &self, const py::tuple &t) {
	if (t.size() != 3)
	throw std::runtime_error("Invalid state!");
	/* Cast and construct */
	auto &p = self.cast<PickleableWithDict &>();
	new (&p) PickleableWithDict(t[0].cast<std::string>());

	/* Assign C++ state */
	p.extra = t[1].cast<int>();

	/* Assign Python state */
	self.attr("__dict__") = t[2];
	});
	});

	py::class_<PickleableWithDictNew, PickleableWithDict>(m, "PickleableWithDictNew")
	.def(py::init<std::string>())
	.def(py::pickle(
	[](const py::object &self) {
	return py::make_tuple(self.attr("value"), self.attr("extra"), self.attr("__dict__"));
	},
	[](const py::tuple &t) {
	if (t.size() != 3)
	throw std::runtime_error("Invalid state!");

	auto cpp_state = PickleableWithDictNew(t[0].cast<std::string>());
	cpp_state.extra = t[1].cast<int>();

	auto py_state = t[2].cast<py::dict>();
	return std::make_pair(cpp_state, py_state);
	}));
	#endif

	exercise_trampoline::wrap(m);
	}