/* -*- 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/Pair.h" #include "mozilla/TypeTraits.h" using mozilla::IsSame; using mozilla::MakePair; using mozilla::Pair; // Sizes aren't part of the guaranteed Pair interface, but we want to verify our // attempts at compactness through EBO are moderately functional, *somewhere*. #define INSTANTIATE(T1, T2, name, size) \ Pair name##_1(T1(0), T2(0)); \ static_assert(sizeof(name##_1.first()) > 0, \ "first method should work on Pair<" #T1 ", " #T2 ">"); \ static_assert(sizeof(name##_1.second()) > 0, \ "second method should work on Pair<" #T1 ", " #T2 ">"); \ static_assert(sizeof(name##_1) == (size), \ "Pair<" #T1 ", " #T2 "> has an unexpected size"); \ Pair name##_2(T2(0), T1(0)); \ static_assert(sizeof(name##_2.first()) > 0, \ "first method should work on Pair<" #T2 ", " #T1 ">"); \ static_assert(sizeof(name##_2.second()) > 0, \ "second method should work on Pair<" #T2 ", " #T1 ">"); \ static_assert(sizeof(name##_2) == (size), \ "Pair<" #T2 ", " #T1 "> has an unexpected size"); INSTANTIATE(int, int, prim1, 2 * sizeof(int)); INSTANTIATE(int, long, prim2, 2 * sizeof(long)); struct EmptyClass { explicit EmptyClass(int) {} }; struct NonEmpty { char mC; explicit NonEmpty(int) : mC('\0') { } }; INSTANTIATE(int, EmptyClass, both1, sizeof(int)); INSTANTIATE(int, NonEmpty, both2, 2 * sizeof(int)); INSTANTIATE(EmptyClass, NonEmpty, both3, 1); struct A { char dummy; explicit A(int) : dummy('\0') { } }; struct B : A { explicit B(int aI) : A(aI) {} }; INSTANTIATE(A, A, class1, 2); INSTANTIATE(A, B, class2, 2); INSTANTIATE(A, EmptyClass, class3, 1); struct OtherEmpty : EmptyClass { explicit OtherEmpty(int aI) : EmptyClass(aI) {} }; // C++11 requires distinct objects of the same type, within the same "most // derived object", to have different addresses. Pair allocates its elements as // two bases, a base and a member, or two members. If the two elements have // non-zero size or are unrelated, no big deal. But if they're both empty and // related, something -- possibly both -- must be inflated. Exactly which are // inflated depends which PairHelper specialization is used. We could // potentially assert something about size for this case, but whatever we could // assert would be very finicky. Plus it's two empty classes -- hardly likely. // So don't bother trying to assert anything about this case. //INSTANTIATE(EmptyClass, OtherEmpty, class4, ...something finicky...); int main() { A a(0); B b(0); const A constA(0); const B constB(0); // Check that MakePair generates Pair objects of the correct types. static_assert(IsSame>::value, "MakePair should strip rvalue references"); static_assert(IsSame>::value, "MakePair should strip lvalue references"); static_assert(IsSame>::value, "MakePair should strip CV-qualifiers"); // Check that copy assignment and move assignment work. a = constA; a = A(0); return 0; }