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pybind11/tests/test_factory_constructors.cpp
andriish 38370a87f4
fix: support NVIDIA-PGI HPC SDK (#2475) 
* Added guards to the includes

Added new CI config

Added new trigger

Changed CI workflow name

Debug CI

Debug CI

Debug CI

Debug CI

Added flags fro PGI

Disable Eigen

Removed tests that fail

Uncomment lines

* fix: missing include

fix: minor style cleanup

tests: support skipping

ci: remove and tighten a bit

fix: try msvc workaround for pgic

* tests: split up prealoc tests

* fix: PGI compiler fix

* fix: PGI void_t only

* fix: try to appease nvcc

* ci: better ordering for slow tests

* ci: minor improvements to testing

* ci: Add NumPy to testing

* ci: Eigen generates CUDA warnings / PGI errors

* Added CentOS7 back for a moment

* Fix YAML

* ci: runs-on missing

* centos7 is missing pytest

* ci: use C++11 on CentOS 7

* ci: test something else

* Try just adding flags on CentOS 7

* fix: CentOS 7

* refactor: move include to shared location

* Added verbose flag

* Try to use system cmake3 on CI

* Try to use system cmake3 on CI, attempt2

* Try to use system cmake3 on CI, attempt3

* tests: not finding pytest should be a warning, not a fatal error

* tests: cleanup

* Weird issue?

* fix: final polish

Co-authored-by: Andrii Verbytskyi <andrii.verbytskyi@mpp.mpg.de>
Co-authored-by: Henry Schreiner <henryschreineriii@gmail.com>
Co-authored-by: Andrii Verbytskyi <averbyts@cern.ch>
2020-09-11 22:06:52 -04:00

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