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The following command was used to clang-format these files: clang-format-18 -i $(find . \ -not \( -path "./\.*" -prune \) \ -not \( -path "./Base/*" -prune \) \ -not \( -path "./Build/*" -prune \) \ -not \( -path "./Toolchain/*" -prune \) \ -not \( -path "./Ports/*" -prune \) \ -type f -name "*.cpp" -o -name "*.mm" -o -name "*.h") There are a couple of weird cases where clang-format now thinks that a pointer access in an initializer list, e.g. `m_member(ptr->foo)`, is a lambda return statement, and it puts spaces around the `->`.
304 lines
8.6 KiB
C++
304 lines
8.6 KiB
C++
/*
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* Copyright (c) 2021, Ali Mohammad Pur <mpfard@serenity.org>
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*
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* SPDX-License-Identifier: BSD-2-Clause
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*/
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#include <LibTest/TestSuite.h>
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#include <AK/RefPtr.h>
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#include <AK/Variant.h>
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namespace {
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struct Object : public RefCounted<Object> {
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};
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}
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TEST_CASE(basic)
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{
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Variant<int, ByteString> the_value { 42 };
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EXPECT(the_value.has<int>());
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EXPECT_EQ(the_value.get<int>(), 42);
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the_value = ByteString("42");
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EXPECT(the_value.has<ByteString>());
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EXPECT_EQ(the_value.get<ByteString>(), "42");
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}
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TEST_CASE(visit)
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{
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bool correct = false;
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Variant<int, ByteString, float> the_value { 42.0f };
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the_value.visit(
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[&](int const&) { correct = false; },
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[&](ByteString const&) { correct = false; },
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[&](float const&) { correct = true; });
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EXPECT(correct);
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}
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TEST_CASE(visit_const)
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{
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bool correct = false;
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Variant<int, ByteString> const the_value { "42"sv };
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the_value.visit(
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[&](ByteString const&) { correct = true; },
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[&](auto&) {},
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[&](auto const&) {});
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EXPECT(correct);
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correct = false;
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auto the_value_but_not_const = the_value;
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the_value_but_not_const.visit(
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[&](ByteString const&) { correct = true; },
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[&](auto&) {});
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EXPECT(correct);
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correct = false;
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the_value_but_not_const.visit(
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[&]<typename T>(T&) { correct = !IsConst<T>; });
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EXPECT(correct);
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}
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TEST_CASE(destructor)
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{
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struct DestructionChecker {
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explicit DestructionChecker(bool& was_destroyed)
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: m_was_destroyed(was_destroyed)
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{
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}
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~DestructionChecker()
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{
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m_was_destroyed = true;
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}
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bool& m_was_destroyed;
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};
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bool was_destroyed = false;
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{
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Variant<DestructionChecker> test_variant { DestructionChecker { was_destroyed } };
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}
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EXPECT(was_destroyed);
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bool was_destroyed_when_assigned_to = false;
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Variant<DestructionChecker, int> original { DestructionChecker { was_destroyed_when_assigned_to } };
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Variant<DestructionChecker, int> other { 42 };
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original = other;
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EXPECT(was_destroyed_when_assigned_to);
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}
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TEST_CASE(move_moves)
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{
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struct NoCopy {
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AK_MAKE_NONCOPYABLE(NoCopy);
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AK_MAKE_DEFAULT_MOVABLE(NoCopy);
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public:
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NoCopy() = default;
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};
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Variant<NoCopy, int> first_variant { 42 };
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// Should not fail to compile
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first_variant = NoCopy {};
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Variant<NoCopy, int> second_variant = move(first_variant);
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EXPECT(second_variant.has<NoCopy>());
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}
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TEST_CASE(verify_cast)
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{
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Variant<i8, i16, i32, i64> one_integer_to_rule_them_all { static_cast<i32>(42) };
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auto fake_integer = one_integer_to_rule_them_all.downcast<i8, i32>();
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EXPECT(fake_integer.has<i32>());
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EXPECT(one_integer_to_rule_them_all.has<i32>());
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EXPECT_EQ(fake_integer.get<i32>(), 42);
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EXPECT_EQ(one_integer_to_rule_them_all.get<i32>(), 42);
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fake_integer = static_cast<i8>(60);
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one_integer_to_rule_them_all = fake_integer.downcast<i8, i16>().downcast<i8, i32, float>().downcast<i8, i16, i32, i64>();
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EXPECT(fake_integer.has<i8>());
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EXPECT(one_integer_to_rule_them_all.has<i8>());
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EXPECT_EQ(fake_integer.get<i8>(), 60);
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EXPECT_EQ(one_integer_to_rule_them_all.get<i8>(), 60);
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using SomeFancyType = Variant<i8, i16>;
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one_integer_to_rule_them_all = fake_integer.downcast<SomeFancyType>();
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EXPECT(fake_integer.has<i8>());
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EXPECT(one_integer_to_rule_them_all.has<i8>());
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EXPECT_EQ(fake_integer.get<i8>(), 60);
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EXPECT_EQ(one_integer_to_rule_them_all.get<i8>(), 60);
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}
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TEST_CASE(moved_from_state)
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{
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// Note: This test requires that Vector's moved-from state be consistent
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// it need not be in a specific state (though as it is currently implemented,
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// a moved-from vector is the same as a newly-created vector)
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// This test does not make assumptions about the state itself, but rather that
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// it remains consistent when done on different instances.
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// Should this assumption be broken, we should probably switch to defining a local
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// class that has fixed semantics, but I doubt the moved-from state of Vector will
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// change any time soon :P
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Vector<i32> bunch_of_values { 1, 2, 3, 4, 5, 6, 7, 8 };
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Variant<Vector<i32>, Empty> optionally_a_bunch_of_values { Vector<i32> { 1, 2, 3, 4, 5, 6, 7, 8 } };
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{
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[[maybe_unused]] auto devnull_0 = move(bunch_of_values);
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[[maybe_unused]] auto devnull_1 = move(optionally_a_bunch_of_values);
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}
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// The moved-from state should be the same in both cases, and the variant should still contain a moved-from vector.
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// Note: Use after move is intentional.
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EXPECT(optionally_a_bunch_of_values.has<Vector<i32>>());
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auto same_contents = __builtin_memcmp(&bunch_of_values, &optionally_a_bunch_of_values.get<Vector<i32>>(), sizeof(bunch_of_values)) == 0;
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EXPECT(same_contents);
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}
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TEST_CASE(duplicated_types)
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{
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Variant<int, int, int, int> its_just_an_int { 42 };
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EXPECT(its_just_an_int.has<int>());
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EXPECT_EQ(its_just_an_int.get<int>(), 42);
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}
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TEST_CASE(return_values)
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{
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using MyVariant = Variant<int, ByteString, float>;
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{
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MyVariant the_value { 42.0f };
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float value = the_value.visit(
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[&](int const&) { return 1.0f; },
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[&](ByteString const&) { return 2.0f; },
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[&](float const& f) { return f; });
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EXPECT_EQ(value, 42.0f);
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}
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{
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MyVariant the_value { 42 };
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int value = the_value.visit(
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[&](int& i) { return i; },
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[&](ByteString&) { return 2; },
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[&](float&) { return 3; });
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EXPECT_EQ(value, 42);
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}
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{
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MyVariant const the_value { "str" };
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ByteString value = the_value.visit(
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[&](int const&) { return ByteString { "wrong" }; },
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[&](ByteString const& s) { return s; },
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[&](float const&) { return ByteString { "wrong" }; });
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EXPECT_EQ(value, "str");
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}
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}
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TEST_CASE(return_values_by_reference)
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{
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auto ref = adopt_ref_if_nonnull(new (nothrow) Object());
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Variant<int, ByteString, float> the_value { 42.0f };
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auto& value = the_value.visit(
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[&](int const&) -> RefPtr<Object>& { return ref; },
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[&](ByteString const&) -> RefPtr<Object>& { return ref; },
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[&](float const&) -> RefPtr<Object>& { return ref; });
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EXPECT_EQ(ref, value);
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EXPECT_EQ(ref->ref_count(), 1u);
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EXPECT_EQ(value->ref_count(), 1u);
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}
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struct HoldsInt {
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int i;
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};
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struct HoldsFloat {
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float f;
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};
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TEST_CASE(copy_assign)
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{
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{
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Variant<int, ByteString, float> the_value { 42.0f };
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VERIFY(the_value.has<float>());
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EXPECT_EQ(the_value.get<float>(), 42.0f);
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int twelve = 12;
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the_value = twelve;
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VERIFY(the_value.has<int>());
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EXPECT_EQ(the_value.get<int>(), 12);
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the_value = ByteString("Hello, world!");
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VERIFY(the_value.has<ByteString>());
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EXPECT_EQ(the_value.get<ByteString>(), "Hello, world!");
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}
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{
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Variant<HoldsInt, ByteString, HoldsFloat> the_value { HoldsFloat { 42.0f } };
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VERIFY(the_value.has<HoldsFloat>());
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EXPECT_EQ(the_value.get<HoldsFloat>().f, 42.0f);
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HoldsInt twelve { 12 };
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the_value = twelve;
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VERIFY(the_value.has<HoldsInt>());
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EXPECT_EQ(the_value.get<HoldsInt>().i, 12);
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the_value = ByteString("Hello, world!");
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VERIFY(the_value.has<ByteString>());
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EXPECT_EQ(the_value.get<ByteString>(), "Hello, world!");
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}
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}
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TEST_CASE(default_empty)
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{
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Variant<Empty, int> my_variant;
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EXPECT(my_variant.has<Empty>());
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EXPECT(!my_variant.has<int>());
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}
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TEST_CASE(type_list_specialization)
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{
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EXPECT_EQ((TypeList<Variant<Empty>>::size), 1u);
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EXPECT_EQ((TypeList<Variant<Empty, int>>::size), 2u);
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EXPECT_EQ((TypeList<Variant<Empty, int, String>>::size), 3u);
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using MyVariant = Variant<Empty, int, String>;
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using MyList = TypeList<MyVariant>;
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EXPECT((IsSame<typename MyList::template Type<0>, Empty>));
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EXPECT((IsSame<typename MyList::template Type<1>, int>));
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EXPECT((IsSame<typename MyList::template Type<2>, String>));
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}
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TEST_CASE(variant_equality)
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{
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using MyVariant = Variant<Empty, int, float>;
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{
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MyVariant variant1 = 1;
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MyVariant variant2 = 1;
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EXPECT_EQ(variant1, variant2);
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}
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{
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MyVariant variant1 = 1;
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MyVariant variant2 = 1.5f;
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EXPECT_NE(variant1, variant2);
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}
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{
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MyVariant variant1 = 1;
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MyVariant variant2;
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EXPECT_NE(variant1, variant2);
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}
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{
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MyVariant variant1;
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MyVariant variant2;
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EXPECT_EQ(variant1, variant2);
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}
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}
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