#include "pybind11/detail/smart_holder_poc.h" // Catch uses _ internally, which breaks gettext style defines #ifdef _ # undef _ #endif #define CATCH_CONFIG_MAIN #include "catch.hpp" using pybindit::memory::smart_holder; namespace helpers { struct movable_int { int valu; explicit movable_int(int v) : valu{v} {} movable_int(movable_int &&other) noexcept : valu(other.valu) { other.valu = 91; } }; template struct functor_builtin_delete { void operator()(T *ptr) { delete ptr; } #if (defined(__GNUC__) && __GNUC__ == 4 && __GNUC_MINOR__ == 8) \ || (defined(__clang_major__) && __clang_major__ == 3 && __clang_minor__ == 6) // Workaround for these errors: // gcc 4.8.5: too many initializers for 'helpers::functor_builtin_delete' // clang 3.6: excess elements in struct initializer functor_builtin_delete() = default; functor_builtin_delete(const functor_builtin_delete &) {} functor_builtin_delete(functor_builtin_delete &&) {} #endif }; template struct functor_other_delete : functor_builtin_delete {}; struct indestructible_int { int valu; explicit indestructible_int(int v) : valu{v} {} private: ~indestructible_int() = default; }; struct base { virtual int get() { return 10; } virtual ~base() = default; }; struct derived : public base { int get() override { return 100; } }; } // namespace helpers TEST_CASE("from_raw_ptr_unowned+as_raw_ptr_unowned", "[S]") { static int value = 19; auto hld = smart_holder::from_raw_ptr_unowned(&value); REQUIRE(*hld.as_raw_ptr_unowned() == 19); } TEST_CASE("from_raw_ptr_unowned+as_lvalue_ref", "[S]") { static int value = 19; auto hld = smart_holder::from_raw_ptr_unowned(&value); REQUIRE(hld.as_lvalue_ref() == 19); } TEST_CASE("from_raw_ptr_unowned+as_rvalue_ref", "[S]") { helpers::movable_int orig(19); { auto hld = smart_holder::from_raw_ptr_unowned(&orig); helpers::movable_int othr(hld.as_rvalue_ref()); REQUIRE(othr.valu == 19); REQUIRE(orig.valu == 91); } } TEST_CASE("from_raw_ptr_unowned+as_raw_ptr_release_ownership", "[E]") { static int value = 19; auto hld = smart_holder::from_raw_ptr_unowned(&value); REQUIRE_THROWS_WITH(hld.as_raw_ptr_release_ownership(), "Cannot disown non-owning holder (as_raw_ptr_release_ownership)."); } TEST_CASE("from_raw_ptr_unowned+as_unique_ptr", "[E]") { static int value = 19; auto hld = smart_holder::from_raw_ptr_unowned(&value); REQUIRE_THROWS_WITH(hld.as_unique_ptr(), "Cannot disown non-owning holder (as_unique_ptr)."); } TEST_CASE("from_raw_ptr_unowned+as_unique_ptr_with_deleter", "[E]") { static int value = 19; auto hld = smart_holder::from_raw_ptr_unowned(&value); REQUIRE_THROWS_WITH((hld.as_unique_ptr>()), "Missing unique_ptr deleter (as_unique_ptr)."); } TEST_CASE("from_raw_ptr_unowned+as_shared_ptr", "[S]") { static int value = 19; auto hld = smart_holder::from_raw_ptr_unowned(&value); REQUIRE(*hld.as_shared_ptr() == 19); } TEST_CASE("from_raw_ptr_take_ownership+as_lvalue_ref", "[S]") { auto hld = smart_holder::from_raw_ptr_take_ownership(new int(19)); REQUIRE(hld.has_pointee()); REQUIRE(hld.as_lvalue_ref() == 19); } TEST_CASE("from_raw_ptr_take_ownership+as_raw_ptr_release_ownership1", "[S]") { auto hld = smart_holder::from_raw_ptr_take_ownership(new int(19)); auto new_owner = std::unique_ptr(hld.as_raw_ptr_release_ownership()); REQUIRE(!hld.has_pointee()); REQUIRE(*new_owner == 19); } TEST_CASE("from_raw_ptr_take_ownership+as_raw_ptr_release_ownership2", "[E]") { auto hld = smart_holder::from_raw_ptr_take_ownership(new int(19)); auto shd_ptr = hld.as_shared_ptr(); REQUIRE_THROWS_WITH(hld.as_raw_ptr_release_ownership(), "Cannot disown use_count != 1 (as_raw_ptr_release_ownership)."); } TEST_CASE("from_raw_ptr_take_ownership+as_unique_ptr1", "[S]") { auto hld = smart_holder::from_raw_ptr_take_ownership(new int(19)); std::unique_ptr new_owner = hld.as_unique_ptr(); REQUIRE(!hld.has_pointee()); REQUIRE(*new_owner == 19); } TEST_CASE("from_raw_ptr_take_ownership+as_unique_ptr2", "[E]") { auto hld = smart_holder::from_raw_ptr_take_ownership(new int(19)); auto shd_ptr = hld.as_shared_ptr(); REQUIRE_THROWS_WITH(hld.as_unique_ptr(), "Cannot disown use_count != 1 (as_unique_ptr)."); } TEST_CASE("from_raw_ptr_take_ownership+as_unique_ptr_with_deleter", "[E]") { auto hld = smart_holder::from_raw_ptr_take_ownership(new int(19)); REQUIRE_THROWS_WITH((hld.as_unique_ptr>()), "Missing unique_ptr deleter (as_unique_ptr)."); } TEST_CASE("from_raw_ptr_take_ownership+as_shared_ptr", "[S]") { auto hld = smart_holder::from_raw_ptr_take_ownership(new int(19)); std::shared_ptr new_owner = hld.as_shared_ptr(); REQUIRE(hld.has_pointee()); REQUIRE(*new_owner == 19); } TEST_CASE("from_raw_ptr_take_ownership+disown+reclaim_disowned", "[S]") { auto hld = smart_holder::from_raw_ptr_take_ownership(new int(19)); std::unique_ptr new_owner(hld.as_raw_ptr_unowned()); hld.disown(); REQUIRE(hld.as_lvalue_ref() == 19); REQUIRE(*new_owner == 19); hld.reclaim_disowned(); // Manually veriified: without this, clang++ -fsanitize=address reports // "detected memory leaks". (void) new_owner.release(); // Manually verified: without this, clang++ -fsanitize=address // reports "attempting double-free". REQUIRE(hld.as_lvalue_ref() == 19); REQUIRE(new_owner.get() == nullptr); } TEST_CASE("from_raw_ptr_take_ownership+disown+release_disowned", "[S]") { auto hld = smart_holder::from_raw_ptr_take_ownership(new int(19)); std::unique_ptr new_owner(hld.as_raw_ptr_unowned()); hld.disown(); REQUIRE(hld.as_lvalue_ref() == 19); REQUIRE(*new_owner == 19); hld.release_disowned(); REQUIRE(!hld.has_pointee()); } TEST_CASE("from_raw_ptr_take_ownership+disown+ensure_is_not_disowned", "[E]") { const char *context = "test_case"; auto hld = smart_holder::from_raw_ptr_take_ownership(new int(19)); hld.ensure_is_not_disowned(context); // Does not throw. std::unique_ptr new_owner(hld.as_raw_ptr_unowned()); hld.disown(); REQUIRE_THROWS_WITH(hld.ensure_is_not_disowned(context), "Holder was disowned already (test_case)."); } TEST_CASE("from_unique_ptr+as_lvalue_ref", "[S]") { std::unique_ptr orig_owner(new int(19)); auto hld = smart_holder::from_unique_ptr(std::move(orig_owner)); REQUIRE(orig_owner.get() == nullptr); REQUIRE(hld.as_lvalue_ref() == 19); } TEST_CASE("from_unique_ptr+as_raw_ptr_release_ownership1", "[S]") { std::unique_ptr orig_owner(new int(19)); auto hld = smart_holder::from_unique_ptr(std::move(orig_owner)); REQUIRE(orig_owner.get() == nullptr); auto new_owner = std::unique_ptr(hld.as_raw_ptr_release_ownership()); REQUIRE(!hld.has_pointee()); REQUIRE(*new_owner == 19); } TEST_CASE("from_unique_ptr+as_raw_ptr_release_ownership2", "[E]") { std::unique_ptr orig_owner(new int(19)); auto hld = smart_holder::from_unique_ptr(std::move(orig_owner)); REQUIRE(orig_owner.get() == nullptr); auto shd_ptr = hld.as_shared_ptr(); REQUIRE_THROWS_WITH(hld.as_raw_ptr_release_ownership(), "Cannot disown use_count != 1 (as_raw_ptr_release_ownership)."); } TEST_CASE("from_unique_ptr+as_unique_ptr1", "[S]") { std::unique_ptr orig_owner(new int(19)); auto hld = smart_holder::from_unique_ptr(std::move(orig_owner)); REQUIRE(orig_owner.get() == nullptr); std::unique_ptr new_owner = hld.as_unique_ptr(); REQUIRE(!hld.has_pointee()); REQUIRE(*new_owner == 19); } TEST_CASE("from_unique_ptr+as_unique_ptr2", "[E]") { std::unique_ptr orig_owner(new int(19)); auto hld = smart_holder::from_unique_ptr(std::move(orig_owner)); REQUIRE(orig_owner.get() == nullptr); auto shd_ptr = hld.as_shared_ptr(); REQUIRE_THROWS_WITH(hld.as_unique_ptr(), "Cannot disown use_count != 1 (as_unique_ptr)."); } TEST_CASE("from_unique_ptr+as_unique_ptr_with_deleter", "[E]") { std::unique_ptr orig_owner(new int(19)); auto hld = smart_holder::from_unique_ptr(std::move(orig_owner)); REQUIRE(orig_owner.get() == nullptr); REQUIRE_THROWS_WITH((hld.as_unique_ptr>()), "Incompatible unique_ptr deleter (as_unique_ptr)."); } TEST_CASE("from_unique_ptr+as_shared_ptr", "[S]") { std::unique_ptr orig_owner(new int(19)); auto hld = smart_holder::from_unique_ptr(std::move(orig_owner)); REQUIRE(orig_owner.get() == nullptr); std::shared_ptr new_owner = hld.as_shared_ptr(); REQUIRE(hld.has_pointee()); REQUIRE(*new_owner == 19); } TEST_CASE("from_unique_ptr_derived+as_unique_ptr_base", "[S]") { std::unique_ptr orig_owner(new helpers::derived()); auto hld = smart_holder::from_unique_ptr(std::move(orig_owner)); REQUIRE(orig_owner.get() == nullptr); std::unique_ptr new_owner = hld.as_unique_ptr(); REQUIRE(!hld.has_pointee()); REQUIRE(new_owner->get() == 100); } TEST_CASE("from_unique_ptr_derived+as_unique_ptr_base2", "[E]") { std::unique_ptr> orig_owner( new helpers::derived()); auto hld = smart_holder::from_unique_ptr(std::move(orig_owner)); REQUIRE(orig_owner.get() == nullptr); REQUIRE_THROWS_WITH( (hld.as_unique_ptr>()), "Incompatible unique_ptr deleter (as_unique_ptr)."); } TEST_CASE("from_unique_ptr_with_deleter+as_lvalue_ref", "[S]") { std::unique_ptr> orig_owner(new int(19)); auto hld = smart_holder::from_unique_ptr(std::move(orig_owner)); REQUIRE(orig_owner.get() == nullptr); REQUIRE(hld.as_lvalue_ref() == 19); } TEST_CASE("from_unique_ptr_with_std_function_deleter+as_lvalue_ref", "[S]") { std::unique_ptr> orig_owner( new int(19), [](const int *raw_ptr) { delete raw_ptr; }); auto hld = smart_holder::from_unique_ptr(std::move(orig_owner)); REQUIRE(orig_owner.get() == nullptr); REQUIRE(hld.as_lvalue_ref() == 19); } TEST_CASE("from_unique_ptr_with_deleter+as_raw_ptr_release_ownership", "[E]") { std::unique_ptr> orig_owner(new int(19)); auto hld = smart_holder::from_unique_ptr(std::move(orig_owner)); REQUIRE(orig_owner.get() == nullptr); REQUIRE_THROWS_WITH(hld.as_raw_ptr_release_ownership(), "Cannot disown custom deleter (as_raw_ptr_release_ownership)."); } TEST_CASE("from_unique_ptr_with_deleter+as_unique_ptr", "[E]") { std::unique_ptr> orig_owner(new int(19)); auto hld = smart_holder::from_unique_ptr(std::move(orig_owner)); REQUIRE(orig_owner.get() == nullptr); REQUIRE_THROWS_WITH(hld.as_unique_ptr(), "Incompatible unique_ptr deleter (as_unique_ptr)."); } TEST_CASE("from_unique_ptr_with_deleter+as_unique_ptr_with_deleter1", "[S]") { std::unique_ptr> orig_owner(new int(19)); auto hld = smart_holder::from_unique_ptr(std::move(orig_owner)); REQUIRE(orig_owner.get() == nullptr); std::unique_ptr> new_owner = hld.as_unique_ptr>(); REQUIRE(!hld.has_pointee()); REQUIRE(*new_owner == 19); } TEST_CASE("from_unique_ptr_with_deleter+as_unique_ptr_with_deleter2", "[E]") { std::unique_ptr> orig_owner(new int(19)); auto hld = smart_holder::from_unique_ptr(std::move(orig_owner)); REQUIRE(orig_owner.get() == nullptr); REQUIRE_THROWS_WITH((hld.as_unique_ptr>()), "Incompatible unique_ptr deleter (as_unique_ptr)."); } TEST_CASE("from_unique_ptr_with_deleter+as_shared_ptr", "[S]") { std::unique_ptr> orig_owner(new int(19)); auto hld = smart_holder::from_unique_ptr(std::move(orig_owner)); REQUIRE(orig_owner.get() == nullptr); std::shared_ptr new_owner = hld.as_shared_ptr(); REQUIRE(hld.has_pointee()); REQUIRE(*new_owner == 19); } TEST_CASE("from_shared_ptr+as_lvalue_ref", "[S]") { std::shared_ptr orig_owner(new int(19)); auto hld = smart_holder::from_shared_ptr(orig_owner); REQUIRE(hld.as_lvalue_ref() == 19); } TEST_CASE("from_shared_ptr+as_raw_ptr_release_ownership", "[E]") { std::shared_ptr orig_owner(new int(19)); auto hld = smart_holder::from_shared_ptr(orig_owner); REQUIRE_THROWS_WITH(hld.as_raw_ptr_release_ownership(), "Cannot disown external shared_ptr (as_raw_ptr_release_ownership)."); } TEST_CASE("from_shared_ptr+as_unique_ptr", "[E]") { std::shared_ptr orig_owner(new int(19)); auto hld = smart_holder::from_shared_ptr(orig_owner); REQUIRE_THROWS_WITH(hld.as_unique_ptr(), "Cannot disown external shared_ptr (as_unique_ptr)."); } TEST_CASE("from_shared_ptr+as_unique_ptr_with_deleter", "[E]") { std::shared_ptr orig_owner(new int(19)); auto hld = smart_holder::from_shared_ptr(orig_owner); REQUIRE_THROWS_WITH((hld.as_unique_ptr>()), "Missing unique_ptr deleter (as_unique_ptr)."); } TEST_CASE("from_shared_ptr+as_shared_ptr", "[S]") { std::shared_ptr orig_owner(new int(19)); auto hld = smart_holder::from_shared_ptr(orig_owner); REQUIRE(*hld.as_shared_ptr() == 19); } TEST_CASE("error_unpopulated_holder", "[E]") { smart_holder hld; REQUIRE_THROWS_WITH(hld.as_lvalue_ref(), "Unpopulated holder (as_lvalue_ref)."); } TEST_CASE("error_disowned_holder", "[E]") { auto hld = smart_holder::from_raw_ptr_take_ownership(new int(19)); hld.as_unique_ptr(); REQUIRE_THROWS_WITH(hld.as_lvalue_ref(), "Disowned holder (as_lvalue_ref)."); } TEST_CASE("error_cannot_disown_nullptr", "[E]") { auto hld = smart_holder::from_raw_ptr_take_ownership(new int(19)); hld.as_unique_ptr(); REQUIRE_THROWS_WITH(hld.as_unique_ptr(), "Cannot disown nullptr (as_unique_ptr)."); } TEST_CASE("indestructible_int-from_raw_ptr_unowned+as_raw_ptr_unowned", "[S]") { using zombie = helpers::indestructible_int; // Using placement new instead of plain new, to not trigger leak sanitizer errors. static std::aligned_storage::type memory_block[1]; auto *value = new (memory_block) zombie(19); auto hld = smart_holder::from_raw_ptr_unowned(value); REQUIRE(hld.as_raw_ptr_unowned()->valu == 19); } TEST_CASE("indestructible_int-from_raw_ptr_take_ownership", "[E]") { helpers::indestructible_int *value = nullptr; REQUIRE_THROWS_WITH(smart_holder::from_raw_ptr_take_ownership(value), "Pointee is not destructible (from_raw_ptr_take_ownership)."); } TEST_CASE("from_raw_ptr_take_ownership+as_shared_ptr-outliving_smart_holder", "[S]") { // Exercises guarded_builtin_delete flag_ptr validity past destruction of smart_holder. std::shared_ptr longer_living; { auto hld = smart_holder::from_raw_ptr_take_ownership(new int(19)); longer_living = hld.as_shared_ptr(); } REQUIRE(*longer_living == 19); } TEST_CASE("from_unique_ptr_with_deleter+as_shared_ptr-outliving_smart_holder", "[S]") { // Exercises guarded_custom_deleter flag_ptr validity past destruction of smart_holder. std::shared_ptr longer_living; { std::unique_ptr> orig_owner(new int(19)); auto hld = smart_holder::from_unique_ptr(std::move(orig_owner)); longer_living = hld.as_shared_ptr(); } REQUIRE(*longer_living == 19); }