/* -*- 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 #include "mozilla/UniquePtr.h" #include "mozilla/Vector.h" using mozilla::MakeUnique; using mozilla::UniquePtr; using mozilla::Vector; using mozilla::detail::VectorTesting; struct mozilla::detail::VectorTesting { static void testReserved(); static void testConstRange(); static void testEmplaceBack(); static void testReverse(); static void testExtractRawBuffer(); static void testExtractOrCopyRawBuffer(); static void testReplaceRawBuffer(); static void testInsert(); static void testErase(); static void testShrinkStorageToFit(); }; void mozilla::detail::VectorTesting::testReserved() { #ifdef DEBUG Vector bv; MOZ_RELEASE_ASSERT(bv.reserved() == 0); MOZ_RELEASE_ASSERT(bv.append(true)); MOZ_RELEASE_ASSERT(bv.reserved() == 1); Vector otherbv; MOZ_RELEASE_ASSERT(otherbv.append(false)); MOZ_RELEASE_ASSERT(otherbv.append(true)); MOZ_RELEASE_ASSERT(bv.appendAll(otherbv)); MOZ_RELEASE_ASSERT(bv.reserved() == 3); MOZ_RELEASE_ASSERT(bv.reserve(5)); MOZ_RELEASE_ASSERT(bv.reserved() == 5); MOZ_RELEASE_ASSERT(bv.reserve(1)); MOZ_RELEASE_ASSERT(bv.reserved() == 5); Vector bv2(std::move(bv)); MOZ_RELEASE_ASSERT(bv.reserved() == 0); MOZ_RELEASE_ASSERT(bv2.reserved() == 5); bv2.clearAndFree(); MOZ_RELEASE_ASSERT(bv2.reserved() == 0); Vector iv; MOZ_RELEASE_ASSERT(iv.reserved() == 0); MOZ_RELEASE_ASSERT(iv.append(17)); MOZ_RELEASE_ASSERT(iv.reserved() == 1); Vector otheriv; MOZ_RELEASE_ASSERT(otheriv.append(42)); MOZ_RELEASE_ASSERT(otheriv.append(37)); MOZ_RELEASE_ASSERT(iv.appendAll(otheriv)); MOZ_RELEASE_ASSERT(iv.reserved() == 3); MOZ_RELEASE_ASSERT(iv.reserve(5)); MOZ_RELEASE_ASSERT(iv.reserved() == 5); MOZ_RELEASE_ASSERT(iv.reserve(1)); MOZ_RELEASE_ASSERT(iv.reserved() == 5); MOZ_RELEASE_ASSERT(iv.reserve(55)); MOZ_RELEASE_ASSERT(iv.reserved() == 55); Vector iv2(std::move(iv)); MOZ_RELEASE_ASSERT(iv.reserved() == 0); MOZ_RELEASE_ASSERT(iv2.reserved() == 55); iv2.clearAndFree(); MOZ_RELEASE_ASSERT(iv2.reserved() == 0); #endif } void mozilla::detail::VectorTesting::testConstRange() { #ifdef DEBUG Vector vec; for (int i = 0; i < 10; i++) { MOZ_RELEASE_ASSERT(vec.append(i)); } const auto& vecRef = vec; Vector::ConstRange range = vecRef.all(); for (int i = 0; i < 10; i++) { MOZ_RELEASE_ASSERT(!range.empty()); MOZ_RELEASE_ASSERT(range.front() == i); range.popFront(); } #endif } namespace { struct S { size_t j; UniquePtr k; static size_t constructCount; static size_t moveCount; static size_t destructCount; static void resetCounts() { constructCount = 0; moveCount = 0; destructCount = 0; } S(size_t j, size_t k) : j(j), k(MakeUnique(k)) { constructCount++; } S(S&& rhs) : j(rhs.j), k(std::move(rhs.k)) { rhs.j = 0; rhs.k.reset(0); moveCount++; } ~S() { destructCount++; } S& operator=(S&& rhs) { j = rhs.j; rhs.j = 0; k = std::move(rhs.k); rhs.k.reset(); moveCount++; return *this; } bool operator==(const S& rhs) const { return j == rhs.j && *k == *rhs.k; } S(const S&) = delete; S& operator=(const S&) = delete; }; size_t S::constructCount = 0; size_t S::moveCount = 0; size_t S::destructCount = 0; } // namespace void mozilla::detail::VectorTesting::testEmplaceBack() { S::resetCounts(); Vector vec; MOZ_RELEASE_ASSERT(vec.reserve(20)); for (size_t i = 0; i < 10; i++) { S s(i, i * i); MOZ_RELEASE_ASSERT(vec.append(std::move(s))); } MOZ_RELEASE_ASSERT(vec.length() == 10); MOZ_RELEASE_ASSERT(S::constructCount == 10); MOZ_RELEASE_ASSERT(S::moveCount == 10); for (size_t i = 10; i < 20; i++) { MOZ_RELEASE_ASSERT(vec.emplaceBack(i, i * i)); } MOZ_RELEASE_ASSERT(vec.length() == 20); MOZ_RELEASE_ASSERT(S::constructCount == 20); MOZ_RELEASE_ASSERT(S::moveCount == 10); for (size_t i = 0; i < 20; i++) { MOZ_RELEASE_ASSERT(vec[i].j == i); MOZ_RELEASE_ASSERT(*vec[i].k == i * i); } } void mozilla::detail::VectorTesting::testReverse() { // Use UniquePtr to make sure that reverse() can handler move-only types. Vector, 0> vec; // Reverse an odd number of elements. for (uint8_t i = 0; i < 5; i++) { auto p = MakeUnique(i); MOZ_RELEASE_ASSERT(p); MOZ_RELEASE_ASSERT(vec.append(std::move(p))); } vec.reverse(); MOZ_RELEASE_ASSERT(*vec[0] == 4); MOZ_RELEASE_ASSERT(*vec[1] == 3); MOZ_RELEASE_ASSERT(*vec[2] == 2); MOZ_RELEASE_ASSERT(*vec[3] == 1); MOZ_RELEASE_ASSERT(*vec[4] == 0); // Reverse an even number of elements. vec.popBack(); vec.reverse(); MOZ_RELEASE_ASSERT(*vec[0] == 1); MOZ_RELEASE_ASSERT(*vec[1] == 2); MOZ_RELEASE_ASSERT(*vec[2] == 3); MOZ_RELEASE_ASSERT(*vec[3] == 4); // Reverse an empty vector. vec.clear(); MOZ_RELEASE_ASSERT(vec.length() == 0); vec.reverse(); MOZ_RELEASE_ASSERT(vec.length() == 0); // Reverse a vector using only inline storage. Vector, 5> vec2; for (uint8_t i = 0; i < 5; i++) { auto p = MakeUnique(i); MOZ_RELEASE_ASSERT(p); MOZ_RELEASE_ASSERT(vec2.append(std::move(p))); } vec2.reverse(); MOZ_RELEASE_ASSERT(*vec2[0] == 4); MOZ_RELEASE_ASSERT(*vec2[1] == 3); MOZ_RELEASE_ASSERT(*vec2[2] == 2); MOZ_RELEASE_ASSERT(*vec2[3] == 1); MOZ_RELEASE_ASSERT(*vec2[4] == 0); } void mozilla::detail::VectorTesting::testExtractRawBuffer() { S::resetCounts(); Vector vec; MOZ_RELEASE_ASSERT(vec.reserve(5)); for (size_t i = 0; i < 5; i++) { vec.infallibleEmplaceBack(i, i * i); } MOZ_RELEASE_ASSERT(vec.length() == 5); MOZ_ASSERT(vec.reserved() == 5); MOZ_RELEASE_ASSERT(S::constructCount == 5); MOZ_RELEASE_ASSERT(S::moveCount == 0); MOZ_RELEASE_ASSERT(S::destructCount == 0); S* buf = vec.extractRawBuffer(); MOZ_RELEASE_ASSERT(!buf); MOZ_RELEASE_ASSERT(vec.length() == 5); MOZ_ASSERT(vec.reserved() == 5); MOZ_RELEASE_ASSERT(S::constructCount == 5); MOZ_RELEASE_ASSERT(S::moveCount == 0); MOZ_RELEASE_ASSERT(S::destructCount == 0); MOZ_RELEASE_ASSERT(vec.reserve(10)); for (size_t i = 5; i < 10; i++) { vec.infallibleEmplaceBack(i, i * i); } MOZ_RELEASE_ASSERT(vec.length() == 10); MOZ_ASSERT(vec.reserved() == 10); MOZ_RELEASE_ASSERT(S::constructCount == 10); MOZ_RELEASE_ASSERT(S::moveCount == 5); MOZ_RELEASE_ASSERT(S::destructCount == 5); buf = vec.extractRawBuffer(); MOZ_RELEASE_ASSERT(buf); MOZ_RELEASE_ASSERT(vec.length() == 0); MOZ_ASSERT(vec.reserved() == 0); MOZ_RELEASE_ASSERT(S::constructCount == 10); MOZ_RELEASE_ASSERT(S::moveCount == 5); MOZ_RELEASE_ASSERT(S::destructCount == 5); for (size_t i = 0; i < 10; i++) { MOZ_RELEASE_ASSERT(buf[i].j == i); MOZ_RELEASE_ASSERT(*buf[i].k == i * i); } free(buf); } void mozilla::detail::VectorTesting::testExtractOrCopyRawBuffer() { S::resetCounts(); Vector vec; MOZ_RELEASE_ASSERT(vec.reserve(5)); for (size_t i = 0; i < 5; i++) { vec.infallibleEmplaceBack(i, i * i); } MOZ_RELEASE_ASSERT(vec.length() == 5); MOZ_ASSERT(vec.reserved() == 5); MOZ_RELEASE_ASSERT(S::constructCount == 5); MOZ_RELEASE_ASSERT(S::moveCount == 0); MOZ_RELEASE_ASSERT(S::destructCount == 0); S* buf = vec.extractOrCopyRawBuffer(); MOZ_RELEASE_ASSERT(buf); MOZ_RELEASE_ASSERT(vec.length() == 0); MOZ_ASSERT(vec.reserved() == 0); MOZ_RELEASE_ASSERT(S::constructCount == 5); MOZ_RELEASE_ASSERT(S::moveCount == 5); MOZ_RELEASE_ASSERT(S::destructCount == 5); for (size_t i = 0; i < 5; i++) { MOZ_RELEASE_ASSERT(buf[i].j == i); MOZ_RELEASE_ASSERT(*buf[i].k == i * i); } S::resetCounts(); MOZ_RELEASE_ASSERT(vec.reserve(10)); for (size_t i = 0; i < 10; i++) { vec.infallibleEmplaceBack(i, i * i); } MOZ_RELEASE_ASSERT(vec.length() == 10); MOZ_ASSERT(vec.reserved() == 10); MOZ_RELEASE_ASSERT(S::constructCount == 10); MOZ_RELEASE_ASSERT(S::moveCount == 0); MOZ_RELEASE_ASSERT(S::destructCount == 0); buf = vec.extractOrCopyRawBuffer(); MOZ_RELEASE_ASSERT(buf); MOZ_RELEASE_ASSERT(vec.length() == 0); MOZ_ASSERT(vec.reserved() == 0); MOZ_RELEASE_ASSERT(S::constructCount == 10); MOZ_RELEASE_ASSERT(S::moveCount == 0); MOZ_RELEASE_ASSERT(S::destructCount == 0); for (size_t i = 0; i < 10; i++) { MOZ_RELEASE_ASSERT(buf[i].j == i); MOZ_RELEASE_ASSERT(*buf[i].k == i * i); } free(buf); } void mozilla::detail::VectorTesting::testReplaceRawBuffer() { S::resetCounts(); S* s = nullptr; { Vector v; MOZ_RELEASE_ASSERT(v.reserve(4)); v.infallibleEmplaceBack(1, 2); v.infallibleEmplaceBack(3, 4); MOZ_ASSERT(S::constructCount == 2); s = v.extractRawBuffer(); } MOZ_ASSERT(S::constructCount == 2); MOZ_ASSERT(S::moveCount == 0); MOZ_ASSERT(S::destructCount == 0); { Vector v; v.replaceRawBuffer(s, 2); MOZ_ASSERT(v.length() == 2); MOZ_ASSERT(v.reserved() == 2); MOZ_ASSERT(v.capacity() == 10); MOZ_ASSERT(v[0].j == 1); MOZ_ASSERT(v[1].j == 3); MOZ_ASSERT(S::destructCount == 2); } MOZ_ASSERT(S::constructCount == 2); MOZ_ASSERT(S::moveCount == 2); MOZ_ASSERT(S::destructCount == 4); S::resetCounts(); { Vector v; MOZ_RELEASE_ASSERT(v.reserve(4)); v.infallibleEmplaceBack(9, 10); MOZ_ASSERT(S::constructCount == 1); s = v.extractRawBuffer(); MOZ_ASSERT(S::constructCount == 1); MOZ_ASSERT(S::moveCount == 0); } MOZ_ASSERT(S::destructCount == 0); { Vector v; v.replaceRawBuffer(s, 1, 4); MOZ_ASSERT(v.length() == 1); MOZ_ASSERT(v.reserved() == 4); MOZ_ASSERT(v.capacity() == 4); MOZ_ASSERT(v[0].j == 9); for (size_t i = 0; i < 5; i++) MOZ_RELEASE_ASSERT(v.emplaceBack(i, i)); MOZ_ASSERT(v.length() == 6); MOZ_ASSERT(v.reserved() == 6); MOZ_ASSERT(S::constructCount == 6); MOZ_ASSERT(S::moveCount == 4); MOZ_ASSERT(S::destructCount == 4); } MOZ_ASSERT(S::destructCount == 10); } void mozilla::detail::VectorTesting::testInsert() { S::resetCounts(); Vector vec; MOZ_RELEASE_ASSERT(vec.reserve(8)); for (size_t i = 0; i < 7; i++) { vec.infallibleEmplaceBack(i, i * i); } MOZ_RELEASE_ASSERT(vec.length() == 7); MOZ_ASSERT(vec.reserved() == 8); MOZ_RELEASE_ASSERT(S::constructCount == 7); MOZ_RELEASE_ASSERT(S::moveCount == 0); MOZ_RELEASE_ASSERT(S::destructCount == 0); S s(42, 43); MOZ_RELEASE_ASSERT(vec.insert(vec.begin() + 4, std::move(s))); for (size_t i = 0; i < vec.length(); i++) { const S& s = vec[i]; MOZ_RELEASE_ASSERT(s.k); if (i < 4) { MOZ_RELEASE_ASSERT(s.j == i && *s.k == i * i); } else if (i == 4) { MOZ_RELEASE_ASSERT(s.j == 42 && *s.k == 43); } else { MOZ_RELEASE_ASSERT(s.j == i - 1 && *s.k == (i - 1) * (i - 1)); } } MOZ_RELEASE_ASSERT(vec.length() == 8); MOZ_ASSERT(vec.reserved() == 8); MOZ_RELEASE_ASSERT(S::constructCount == 8); MOZ_RELEASE_ASSERT(S::moveCount == 1 /* move in insert() call */ + 1 /* move the back() element */ + 3 /* elements to shift */); MOZ_RELEASE_ASSERT(S::destructCount == 1); } void mozilla::detail::VectorTesting::testErase() { S::resetCounts(); Vector vec; MOZ_RELEASE_ASSERT(vec.reserve(8)); for (size_t i = 0; i < 7; i++) { vec.infallibleEmplaceBack(i, i * i); } // vec: [0, 1, 2, 3, 4, 5, 6] MOZ_RELEASE_ASSERT(vec.length() == 7); MOZ_ASSERT(vec.reserved() == 8); MOZ_RELEASE_ASSERT(S::constructCount == 7); MOZ_RELEASE_ASSERT(S::moveCount == 0); MOZ_RELEASE_ASSERT(S::destructCount == 0); S::resetCounts(); vec.erase(&vec[4]); // vec: [0, 1, 2, 3, 5, 6] MOZ_RELEASE_ASSERT(vec.length() == 6); MOZ_ASSERT(vec.reserved() == 8); MOZ_RELEASE_ASSERT(S::constructCount == 0); // 5 and 6 should have been moved into 4 and 5. MOZ_RELEASE_ASSERT(S::moveCount == 2); MOZ_RELEASE_ASSERT(S::destructCount == 1); MOZ_RELEASE_ASSERT(vec[4] == S(5, 5 * 5)); MOZ_RELEASE_ASSERT(vec[5] == S(6, 6 * 6)); S::resetCounts(); vec.erase(&vec[3], &vec[5]); // vec: [0, 1, 2, 6] MOZ_RELEASE_ASSERT(vec.length() == 4); MOZ_ASSERT(vec.reserved() == 8); MOZ_RELEASE_ASSERT(S::constructCount == 0); // 6 should have been moved into 3. MOZ_RELEASE_ASSERT(S::moveCount == 1); MOZ_RELEASE_ASSERT(S::destructCount == 2); MOZ_RELEASE_ASSERT(vec[3] == S(6, 6 * 6)); S s2(2, 2 * 2); S::resetCounts(); vec.eraseIfEqual(s2); // vec: [0, 1, 6] MOZ_RELEASE_ASSERT(vec.length() == 3); MOZ_ASSERT(vec.reserved() == 8); MOZ_RELEASE_ASSERT(S::constructCount == 0); // 6 should have been moved into 2. MOZ_RELEASE_ASSERT(S::moveCount == 1); MOZ_RELEASE_ASSERT(S::destructCount == 1); MOZ_RELEASE_ASSERT(vec[2] == S(6, 6 * 6)); S::resetCounts(); // Predicate to find one element. vec.eraseIf([](const S& s) { return s.j == 1; }); // vec: [0, 6] MOZ_RELEASE_ASSERT(vec.length() == 2); MOZ_ASSERT(vec.reserved() == 8); MOZ_RELEASE_ASSERT(S::constructCount == 0); // 6 should have been moved into 1. MOZ_RELEASE_ASSERT(S::moveCount == 1); MOZ_RELEASE_ASSERT(S::destructCount == 1); MOZ_RELEASE_ASSERT(vec[1] == S(6, 6 * 6)); S::resetCounts(); // Generic predicate that flags everything. vec.eraseIf([](auto&&) { return true; }); // vec: [] MOZ_RELEASE_ASSERT(vec.length() == 0); MOZ_ASSERT(vec.reserved() == 8); MOZ_RELEASE_ASSERT(S::constructCount == 0); MOZ_RELEASE_ASSERT(S::moveCount == 0); MOZ_RELEASE_ASSERT(S::destructCount == 2); for (size_t i = 0; i < 7; i++) { vec.infallibleEmplaceBack(i, i * i); } // vec: [0, 1, 2, 3, 4, 5, 6] MOZ_RELEASE_ASSERT(vec.length() == 7); S::resetCounts(); // Predicate that flags all even numbers. vec.eraseIf([](const S& s) { return s.j % 2 == 0; }); // vec: [1 (was 0), 3 (was 1), 5 (was 2)] MOZ_RELEASE_ASSERT(vec.length() == 3); MOZ_ASSERT(vec.reserved() == 8); MOZ_RELEASE_ASSERT(S::constructCount == 0); MOZ_RELEASE_ASSERT(S::moveCount == 3); MOZ_RELEASE_ASSERT(S::destructCount == 4); } void mozilla::detail::VectorTesting::testShrinkStorageToFit() { // Vectors not using inline storage realloc capacity to exact length. { Vector v1; MOZ_RELEASE_ASSERT(v1.reserve(10)); v1.infallibleAppend(1); MOZ_ASSERT(v1.length() == 1); MOZ_ASSERT(v1.reserved() == 10); MOZ_ASSERT(v1.capacity() >= 10); v1.shrinkStorageToFit(); MOZ_ASSERT(v1.length() == 1); MOZ_ASSERT(v1.reserved() == 1); MOZ_ASSERT(v1.capacity() == 1); } // Vectors using inline storage do nothing. { Vector v2; MOZ_RELEASE_ASSERT(v2.reserve(2)); v2.infallibleAppend(1); MOZ_ASSERT(v2.length() == 1); MOZ_ASSERT(v2.reserved() == 2); MOZ_ASSERT(v2.capacity() == 2); v2.shrinkStorageToFit(); MOZ_ASSERT(v2.length() == 1); MOZ_ASSERT(v2.reserved() == 2); MOZ_ASSERT(v2.capacity() == 2); } // shrinkStorageToFit uses inline storage if possible. { Vector v; MOZ_RELEASE_ASSERT(v.reserve(4)); v.infallibleAppend(1); MOZ_ASSERT(v.length() == 1); MOZ_ASSERT(v.reserved() == 4); MOZ_ASSERT(v.capacity() >= 4); v.shrinkStorageToFit(); MOZ_ASSERT(v.length() == 1); MOZ_ASSERT(v.reserved() == 1); MOZ_ASSERT(v.capacity() == 2); } // Non-pod shrinking to non-inline storage. { static size_t sConstructCounter = 0; static size_t sCopyCounter = 0; static size_t sMoveCounter = 0; static size_t sDestroyCounter = 0; struct NonPod { int mSomething = 10; NonPod() { sConstructCounter++; } NonPod(const NonPod& aOther) : mSomething(aOther.mSomething) { sCopyCounter++; } NonPod(NonPod&& aOther) : mSomething(aOther.mSomething) { sMoveCounter++; } ~NonPod() { sDestroyCounter++; } }; Vector v; MOZ_RELEASE_ASSERT(v.reserve(10)); for (size_t i = 0; i < 8; ++i) { v.infallibleEmplaceBack(); } MOZ_RELEASE_ASSERT(sConstructCounter == 8); MOZ_RELEASE_ASSERT(sCopyCounter == 0); MOZ_RELEASE_ASSERT(sMoveCounter == 0); MOZ_RELEASE_ASSERT(sDestroyCounter == 0); MOZ_RELEASE_ASSERT(v.length() == 8); MOZ_ASSERT(v.reserved() == 10); MOZ_RELEASE_ASSERT(v.capacity() >= 10); MOZ_RELEASE_ASSERT(v.shrinkStorageToFit()); MOZ_RELEASE_ASSERT(sConstructCounter == 8); MOZ_RELEASE_ASSERT(sCopyCounter == 0); MOZ_RELEASE_ASSERT(sMoveCounter == 8); MOZ_RELEASE_ASSERT(sDestroyCounter == 8); MOZ_RELEASE_ASSERT(v.length() == 8); MOZ_ASSERT(v.reserved() == 8); MOZ_RELEASE_ASSERT(v.capacity() == 8); } // Non-POD shrinking to inline storage. { static size_t sConstructCounter = 0; static size_t sCopyCounter = 0; static size_t sMoveCounter = 0; static size_t sDestroyCounter = 0; struct NonPod { int mSomething = 10; NonPod() { sConstructCounter++; } NonPod(const NonPod& aOther) : mSomething(aOther.mSomething) { sCopyCounter++; } NonPod(NonPod&& aOther) : mSomething(aOther.mSomething) { sMoveCounter++; } ~NonPod() { sDestroyCounter++; } }; Vector v; MOZ_RELEASE_ASSERT(v.reserve(10)); for (size_t i = 0; i < 3; ++i) { v.infallibleEmplaceBack(); } MOZ_RELEASE_ASSERT(sConstructCounter == 3); MOZ_RELEASE_ASSERT(sCopyCounter == 0); MOZ_RELEASE_ASSERT(sMoveCounter == 0); MOZ_RELEASE_ASSERT(sDestroyCounter == 0); MOZ_RELEASE_ASSERT(v.length() == 3); MOZ_ASSERT(v.reserved() == 10); MOZ_RELEASE_ASSERT(v.capacity() >= 10); MOZ_RELEASE_ASSERT(v.shrinkStorageToFit()); MOZ_RELEASE_ASSERT(sConstructCounter == 3); MOZ_RELEASE_ASSERT(sCopyCounter == 0); MOZ_RELEASE_ASSERT(sMoveCounter == 3); MOZ_RELEASE_ASSERT(sDestroyCounter == 3); MOZ_RELEASE_ASSERT(v.length() == 3); MOZ_ASSERT(v.reserved() == 3); MOZ_RELEASE_ASSERT(v.capacity() == 5); } } // Declare but leave (permanently) incomplete. struct Incomplete; // We could even *construct* a Vector if we wanted. But we can't // destruct it, so it's not worth the trouble. static_assert(sizeof(Vector) > 0, "Vector of an incomplete type will compile"); // Vector with no inline storage should occupy the absolute minimum space in // non-debug builds. (Debug adds a laundry list of other constraints, none // directly relevant to shipping builds, that aren't worth precisely modeling.) #ifndef DEBUG template struct NoInlineStorageLayout { T* mBegin; size_t mLength; struct CRAndStorage { size_t mCapacity; } mTail; }; // Only one of these should be necessary, but test a few of them for good // measure. static_assert(sizeof(Vector) == sizeof(NoInlineStorageLayout), "Vector of int without inline storage shouldn't occupy dead " "space for that absence of storage"); static_assert(sizeof(Vector) == sizeof(NoInlineStorageLayout), "Vector of bool without inline storage shouldn't occupy dead " "space for that absence of storage"); static_assert(sizeof(Vector) == sizeof(NoInlineStorageLayout), "Vector of S without inline storage shouldn't occupy dead " "space for that absence of storage"); static_assert(sizeof(Vector) == sizeof(NoInlineStorageLayout), "Vector of an incomplete class without inline storage shouldn't " "occupy dead space for that absence of storage"); #endif // DEBUG static void TestVectorBeginNonNull() { // Vector::begin() should never return nullptr, to accommodate callers that // (either for hygiene, or for semantic reasons) need a non-null pointer even // for zero elements. Vector bvec0; MOZ_RELEASE_ASSERT(bvec0.length() == 0); MOZ_RELEASE_ASSERT(bvec0.begin() != nullptr); Vector bvec1; MOZ_RELEASE_ASSERT(bvec1.length() == 0); MOZ_RELEASE_ASSERT(bvec1.begin() != nullptr); Vector bvec64; MOZ_RELEASE_ASSERT(bvec64.length() == 0); MOZ_RELEASE_ASSERT(bvec64.begin() != nullptr); Vector ivec0; MOZ_RELEASE_ASSERT(ivec0.length() == 0); MOZ_RELEASE_ASSERT(ivec0.begin() != nullptr); Vector ivec1; MOZ_RELEASE_ASSERT(ivec1.length() == 0); MOZ_RELEASE_ASSERT(ivec1.begin() != nullptr); Vector ivec64; MOZ_RELEASE_ASSERT(ivec64.length() == 0); MOZ_RELEASE_ASSERT(ivec64.begin() != nullptr); Vector lvec0; MOZ_RELEASE_ASSERT(lvec0.length() == 0); MOZ_RELEASE_ASSERT(lvec0.begin() != nullptr); Vector lvec1; MOZ_RELEASE_ASSERT(lvec1.length() == 0); MOZ_RELEASE_ASSERT(lvec1.begin() != nullptr); Vector lvec64; MOZ_RELEASE_ASSERT(lvec64.length() == 0); MOZ_RELEASE_ASSERT(lvec64.begin() != nullptr); // Vector doesn't guarantee N inline elements -- the actual count is // capped so that any Vector fits in a not-crazy amount of space -- so the // code below won't overflow stacks or anything crazy. struct VeryBig { int array[16 * 1024 * 1024]; }; Vector vbvec0; MOZ_RELEASE_ASSERT(vbvec0.length() == 0); MOZ_RELEASE_ASSERT(vbvec0.begin() != nullptr); Vector vbvec1; MOZ_RELEASE_ASSERT(vbvec1.length() == 0); MOZ_RELEASE_ASSERT(vbvec1.begin() != nullptr); Vector vbvec64; MOZ_RELEASE_ASSERT(vbvec64.length() == 0); MOZ_RELEASE_ASSERT(vbvec64.begin() != nullptr); } int main() { VectorTesting::testReserved(); VectorTesting::testConstRange(); VectorTesting::testEmplaceBack(); VectorTesting::testReverse(); VectorTesting::testExtractRawBuffer(); VectorTesting::testExtractOrCopyRawBuffer(); VectorTesting::testReplaceRawBuffer(); VectorTesting::testInsert(); VectorTesting::testErase(); VectorTesting::testShrinkStorageToFit(); TestVectorBeginNonNull(); }