/* * Copyright (c) 2018-2020, Andreas Kling * * SPDX-License-Identifier: BSD-2-Clause */ #include #include #include struct Object : public RefCounted { int x; }; struct Object2 : Object { }; struct SelfAwareObject : public RefCounted { void one_ref_left() { m_has_one_ref_left = true; } void will_be_destroyed() { ++num_destroyed; } bool m_has_one_ref_left = false; static size_t num_destroyed; }; size_t SelfAwareObject::num_destroyed = 0; TEST_CASE(basics) { RefPtr object = adopt_ref(*new Object); EXPECT(object.ptr() != nullptr); EXPECT_EQ(object->ref_count(), 1u); object->ref(); EXPECT_EQ(object->ref_count(), 2u); object->unref(); EXPECT_EQ(object->ref_count(), 1u); { NonnullRefPtr another = *object; EXPECT_EQ(object->ref_count(), 2u); } EXPECT_EQ(object->ref_count(), 1u); } TEST_CASE(assign_reference) { RefPtr object = adopt_ref(*new Object); EXPECT_EQ(object->ref_count(), 1u); object = *object; EXPECT_EQ(object->ref_count(), 1u); } TEST_CASE(assign_ptr) { RefPtr object = adopt_ref(*new Object); EXPECT_EQ(object->ref_count(), 1u); object = object.ptr(); EXPECT_EQ(object->ref_count(), 1u); } TEST_CASE(copy_move_ref) { RefPtr object = adopt_ref(*new Object2); EXPECT_EQ(object->ref_count(), 1u); { auto object2 = object; EXPECT_EQ(object->ref_count(), 2u); RefPtr object1 = object; EXPECT_EQ(object->ref_count(), 3u); object1 = move(object2); EXPECT_EQ(object->ref_count(), 2u); RefPtr object3(move(object1)); EXPECT_EQ(object3->ref_count(), 2u); object1 = object3; EXPECT_EQ(object3->ref_count(), 3u); } EXPECT_EQ(object->ref_count(), 1u); } TEST_CASE(swap) { RefPtr object_a = adopt_ref(*new Object); RefPtr object_b = adopt_ref(*new Object); auto* ptr_a = object_a.ptr(); auto* ptr_b = object_b.ptr(); swap(object_a, object_b); EXPECT_EQ(object_a, ptr_b); EXPECT_EQ(object_b, ptr_a); EXPECT_EQ(object_a->ref_count(), 1u); EXPECT_EQ(object_b->ref_count(), 1u); } TEST_CASE(assign_moved_self) { RefPtr object = adopt_ref(*new Object); EXPECT_EQ(object->ref_count(), 1u); #ifdef __clang__ # pragma clang diagnostic push # pragma clang diagnostic ignored "-Wself-move" #endif object = move(object); #ifdef __clang__ # pragma clang diagnostic pop #endif EXPECT_EQ(object->ref_count(), 1u); } TEST_CASE(assign_copy_self) { RefPtr object = adopt_ref(*new Object); EXPECT_EQ(object->ref_count(), 1u); #ifdef __clang__ # pragma clang diagnostic push # pragma clang diagnostic ignored "-Wself-assign-overloaded" #endif object = object; #ifdef __clang__ # pragma clang diagnostic pop #endif EXPECT_EQ(object->ref_count(), 1u); } TEST_CASE(self_observers) { { RefPtr object = adopt_ref(*new SelfAwareObject); EXPECT_EQ(object->ref_count(), 1u); EXPECT_EQ(object->m_has_one_ref_left, false); EXPECT_EQ(SelfAwareObject::num_destroyed, 0u); object->ref(); EXPECT_EQ(object->ref_count(), 2u); EXPECT_EQ(object->m_has_one_ref_left, false); EXPECT_EQ(SelfAwareObject::num_destroyed, 0u); object->unref(); EXPECT_EQ(object->ref_count(), 1u); EXPECT_EQ(object->m_has_one_ref_left, true); EXPECT_EQ(SelfAwareObject::num_destroyed, 0u); } EXPECT_EQ(SelfAwareObject::num_destroyed, 1u); } TEST_CASE(adopt_ref_if_nonnull) { RefPtr object = adopt_ref_if_nonnull(new SelfAwareObject); EXPECT_EQ(object.is_null(), false); EXPECT_EQ(object->ref_count(), 1u); SelfAwareObject* null_object = nullptr; RefPtr failed_allocation = adopt_ref_if_nonnull(null_object); EXPECT_EQ(failed_allocation.is_null(), true); }