/* -*- Mode: C++; tab-width: 8; indent-tabs-mode: nil; c-basic-offset: 2 -*- */ /* vim: set ts=8 sts=2 et sw=2 tw=80: */ /* This Source Code Form is subject to the terms of the Mozilla Public * License, v. 2.0. If a copy of the MPL was not distributed with this file, * You can obtain one at http://mozilla.org/MPL/2.0/. */ #include "mozilla/UniquePtr.h" #include "mozilla/Variant.h" using mozilla::IsSame; using mozilla::MakeUnique; using mozilla::UniquePtr; using mozilla::Variant; struct Destroyer { static int destroyedCount; ~Destroyer() { destroyedCount++; } }; int Destroyer::destroyedCount = 0; static void testDetails() { printf("testDetails\n"); using mozilla::detail::Nth; // Test Nth with a list of 1 item. static_assert(IsSame::Type, int>::value, "Nth<0, int>::Type should be int"); // Test Nth with a list of more than 1 item. static_assert(IsSame::Type, int>::value, "Nth<0, int, char>::Type should be int"); static_assert(IsSame::Type, char>::value, "Nth<1, int, char>::Type should be char"); using mozilla::detail::SelectVariantType; // SelectVariantType for zero items (shouldn't happen, but `count` should // still work ok.) static_assert(SelectVariantType::count == 0, "SelectVariantType::count should be 0"); // SelectVariantType for 1 type, for all combinations from/to T, const T, // const T&, T&& // - type to type static_assert(IsSame::Type, int>::value, "SelectVariantType::Type should be int"); static_assert(SelectVariantType::count == 1, "SelectVariantType::count should be 1"); // - type to const type static_assert(IsSame::Type, const int>::value, "SelectVariantType::Type should be const int"); static_assert(SelectVariantType::count == 1, "SelectVariantType::count should be 1"); // - type to const type& static_assert( IsSame::Type, const int&>::value, "SelectVariantType::Type should be const int&"); static_assert(SelectVariantType::count == 1, "SelectVariantType::count should be 1"); // - type to type&& static_assert( IsSame::Type, int&&>::value, "SelectVariantType::Type should be int&&"); static_assert(SelectVariantType::count == 1, "SelectVariantType::count should be 1"); // - const type to type static_assert( IsSame::Type, int>::value, "SelectVariantType::Type should be int"); static_assert(SelectVariantType::count == 1, "SelectVariantType::count should be 1"); // - const type to const type static_assert( IsSame::Type, const int>::value, "SelectVariantType::Type should be const int"); static_assert(SelectVariantType::count == 1, "SelectVariantType::count should be 1"); // - const type to const type& static_assert( IsSame::Type, const int&>::value, "SelectVariantType::Type should be const int&"); static_assert(SelectVariantType::count == 1, "SelectVariantType::count should be 1"); // - const type to type&& static_assert( IsSame::Type, int&&>::value, "SelectVariantType::Type should be int&&"); static_assert(SelectVariantType::count == 1, "SelectVariantType::count should be 1"); // - const type& to type static_assert( IsSame::Type, int>::value, "SelectVariantType::Type should be int"); static_assert(SelectVariantType::count == 1, "SelectVariantType::count should be 1"); // - const type& to const type static_assert( IsSame::Type, const int>::value, "SelectVariantType::Type should be const int"); static_assert(SelectVariantType::count == 1, "SelectVariantType::count should be 1"); // - const type& to const type& static_assert( IsSame::Type, const int&>::value, "SelectVariantType::Type should be const int&"); static_assert(SelectVariantType::count == 1, "SelectVariantType::count should be 1"); // - const type& to type&& static_assert( IsSame::Type, int&&>::value, "SelectVariantType::Type should be int&&"); static_assert(SelectVariantType::count == 1, "SelectVariantType::count should be 1"); // - type&& to type static_assert( IsSame::Type, int>::value, "SelectVariantType::Type should be int"); static_assert(SelectVariantType::count == 1, "SelectVariantType::count should be 1"); // - type&& to const type static_assert( IsSame::Type, const int>::value, "SelectVariantType::Type should be const int"); static_assert(SelectVariantType::count == 1, "SelectVariantType::count should be 1"); // - type&& to const type& static_assert( IsSame::Type, const int&>::value, "SelectVariantType::Type should be const int&"); static_assert(SelectVariantType::count == 1, "SelectVariantType::count should be 1"); // - type&& to type&& static_assert( IsSame::Type, int&&>::value, "SelectVariantType::Type should be int&&"); static_assert(SelectVariantType::count == 1, "SelectVariantType::count should be 1"); // SelectVariantType for two different types. // (Don't test all combinations, trust that the above tests are sufficient.) static_assert( IsSame::Type, int>::value, "SelectVariantType::Type should be int"); static_assert(SelectVariantType::count == 1, "SelectVariantType::count should be 1"); static_assert( IsSame::Type, char>::value, "SelectVariantType::Type should be char"); static_assert(SelectVariantType::count == 1, "SelectVariantType::count should be 1"); // SelectVariantType for two identical types. static_assert( IsSame::Type, int>::value, "SelectVariantType::Type should be int"); static_assert(SelectVariantType::count == 2, "SelectVariantType::count should be 2"); // SelectVariantType for two identical types, with others around. static_assert( IsSame::Type, int>::value, "SelectVariantType::Type should be int"); static_assert(SelectVariantType::count == 2, "SelectVariantType::count should be 2"); static_assert( IsSame::Type, int>::value, "SelectVariantType::Type should be int"); static_assert(SelectVariantType::count == 2, "SelectVariantType::count should be 2"); static_assert( IsSame::Type, int>::value, "SelectVariantType::Type should be int"); static_assert(SelectVariantType::count == 2, "SelectVariantType::count should be 2"); static_assert( IsSame::Type, int>::value, "SelectVariantType::Type should be int"); static_assert( SelectVariantType::count == 2, "SelectVariantType::count should be 2"); // SelectVariantType for two identically-selectable types (first one wins!). static_assert( IsSame::Type, int>::value, "SelectVariantType::Type should be int"); static_assert(SelectVariantType::count == 2, "SelectVariantType::count should be 2"); static_assert( IsSame::Type, const int>::value, "SelectVariantType::Type should be const int"); static_assert(SelectVariantType::count == 2, "SelectVariantType::count should be 2"); static_assert( IsSame::Type, const int>::value, "SelectVariantType::Type should be const int"); static_assert(SelectVariantType::count == 2, "SelectVariantType::count should be 2"); } static void testSimple() { printf("testSimple\n"); Variant v(uint64_t(1)); MOZ_RELEASE_ASSERT(v.is()); MOZ_RELEASE_ASSERT(!v.is()); MOZ_RELEASE_ASSERT(v.as() == 1); MOZ_RELEASE_ASSERT(v.is<1>()); MOZ_RELEASE_ASSERT(!v.is<0>()); static_assert(IsSame()), uint64_t&>::value, "as<1>() should return a uint64_t"); MOZ_RELEASE_ASSERT(v.as<1>() == 1); } static void testDuplicate() { printf("testDuplicate\n"); Variant v(uint64_t(1)); MOZ_RELEASE_ASSERT(v.is()); MOZ_RELEASE_ASSERT(v.as() == 1); // Note: uint32_t is not unique, so `v.is()` is not allowed. MOZ_RELEASE_ASSERT(v.is<1>()); MOZ_RELEASE_ASSERT(!v.is<0>()); MOZ_RELEASE_ASSERT(!v.is<2>()); static_assert(IsSame()), uint32_t&>::value, "as<0>() should return a uint64_t"); static_assert(IsSame()), uint64_t&>::value, "as<1>() should return a uint64_t"); static_assert(IsSame()), uint32_t&>::value, "as<2>() should return a uint64_t"); MOZ_RELEASE_ASSERT(v.as<1>() == 1); MOZ_RELEASE_ASSERT(v.extract<1>() == 1); } static void testConstructionWithVariantType() { Variant v(mozilla::VariantType{}, 3); MOZ_RELEASE_ASSERT(v.is()); // MOZ_RELEASE_ASSERT(!v.is()); // uint32_t is not unique! MOZ_RELEASE_ASSERT(v.as() == 3); } static void testConstructionWithVariantIndex() { Variant v(mozilla::VariantIndex<2>{}, 2); MOZ_RELEASE_ASSERT(!v.is()); // Note: uint32_t is not unique, so `v.is()` is not allowed. MOZ_RELEASE_ASSERT(!v.is<1>()); MOZ_RELEASE_ASSERT(!v.is<0>()); MOZ_RELEASE_ASSERT(v.is<2>()); MOZ_RELEASE_ASSERT(v.as<2>() == 2); MOZ_RELEASE_ASSERT(v.extract<2>() == 2); } static void testCopy() { printf("testCopy\n"); Variant v1(uint64_t(1)); Variant v2(v1); MOZ_RELEASE_ASSERT(v2.is()); MOZ_RELEASE_ASSERT(!v2.is()); MOZ_RELEASE_ASSERT(v2.as() == 1); Variant v3(uint32_t(10)); v3 = v2; MOZ_RELEASE_ASSERT(v3.is()); MOZ_RELEASE_ASSERT(v3.as() == 1); } static void testMove() { printf("testMove\n"); Variant, char> v1(MakeUnique(5)); Variant, char> v2(std::move(v1)); MOZ_RELEASE_ASSERT(v2.is>()); MOZ_RELEASE_ASSERT(*v2.as>() == 5); MOZ_RELEASE_ASSERT(v1.is>()); MOZ_RELEASE_ASSERT(v1.as>() == nullptr); Destroyer::destroyedCount = 0; { Variant> v3(MakeUnique()); Variant> v4(std::move(v3)); Variant> v5('a'); v5 = std::move(v4); auto ptr = v5.extract>(); MOZ_RELEASE_ASSERT(Destroyer::destroyedCount == 0); } MOZ_RELEASE_ASSERT(Destroyer::destroyedCount == 1); } static void testDestructor() { printf("testDestructor\n"); Destroyer::destroyedCount = 0; { Destroyer d; { Variant, Destroyer> v(d); MOZ_RELEASE_ASSERT(Destroyer::destroyedCount == 0); // None detroyed yet. } MOZ_RELEASE_ASSERT(Destroyer::destroyedCount == 1); // v's copy of d is destroyed. } MOZ_RELEASE_ASSERT(Destroyer::destroyedCount == 2); // d is destroyed. } static void testEquality() { printf("testEquality\n"); using V = Variant; V v0('a'); V v1('b'); V v2('b'); V v3(42); V v4(27); V v5(27); V v6(int('b')); MOZ_RELEASE_ASSERT(v0 != v1); MOZ_RELEASE_ASSERT(v1 == v2); MOZ_RELEASE_ASSERT(v2 != v3); MOZ_RELEASE_ASSERT(v3 != v4); MOZ_RELEASE_ASSERT(v4 == v5); MOZ_RELEASE_ASSERT(v1 != v6); MOZ_RELEASE_ASSERT(v0 == v0); MOZ_RELEASE_ASSERT(v1 == v1); MOZ_RELEASE_ASSERT(v2 == v2); MOZ_RELEASE_ASSERT(v3 == v3); MOZ_RELEASE_ASSERT(v4 == v4); MOZ_RELEASE_ASSERT(v5 == v5); MOZ_RELEASE_ASSERT(v6 == v6); } struct Describer { static const char* little; static const char* medium; static const char* big; const char* operator()(const uint8_t&) { return little; } const char* operator()(const uint32_t&) { return medium; } const char* operator()(const uint64_t&) { return big; } }; const char* Describer::little = "little"; const char* Describer::medium = "medium"; const char* Describer::big = "big"; static void testMatching() { printf("testMatching\n"); using V = Variant; Describer desc; V v1(uint8_t(1)); V v2(uint32_t(2)); V v3(uint64_t(3)); MOZ_RELEASE_ASSERT(v1.match(desc) == Describer::little); MOZ_RELEASE_ASSERT(v2.match(desc) == Describer::medium); MOZ_RELEASE_ASSERT(v3.match(desc) == Describer::big); const V& constRef1 = v1; const V& constRef2 = v2; const V& constRef3 = v3; MOZ_RELEASE_ASSERT(constRef1.match(desc) == Describer::little); MOZ_RELEASE_ASSERT(constRef2.match(desc) == Describer::medium); MOZ_RELEASE_ASSERT(constRef3.match(desc) == Describer::big); } static void testMatchingLambda() { printf("testMatchingLambda\n"); using V = Variant; auto desc = [](auto& a) { switch (sizeof(a)) { case 1: return Describer::little; case 4: return Describer::medium; case 8: return Describer::big; default: MOZ_RELEASE_ASSERT(false); return ""; } }; V v1(uint8_t(1)); V v2(uint32_t(2)); V v3(uint64_t(3)); MOZ_RELEASE_ASSERT(v1.match(desc) == Describer::little); MOZ_RELEASE_ASSERT(v2.match(desc) == Describer::medium); MOZ_RELEASE_ASSERT(v3.match(desc) == Describer::big); const V& constRef1 = v1; const V& constRef2 = v2; const V& constRef3 = v3; MOZ_RELEASE_ASSERT(constRef1.match(desc) == Describer::little); MOZ_RELEASE_ASSERT(constRef2.match(desc) == Describer::medium); MOZ_RELEASE_ASSERT(constRef3.match(desc) == Describer::big); } static void testRvalueMatcher() { printf("testRvalueMatcher\n"); using V = Variant; V v(uint8_t(1)); MOZ_RELEASE_ASSERT(v.match(Describer()) == Describer::little); } int main() { testDetails(); testSimple(); testDuplicate(); testConstructionWithVariantType(); testConstructionWithVariantIndex(); testCopy(); testMove(); testDestructor(); testEquality(); testMatching(); testMatchingLambda(); testRvalueMatcher(); printf("TestVariant OK!\n"); return 0; }